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To address methodological limitations in existing umbrella reviews, this umbrella review aims to expand knowledge on the association between greenspace and human health by summarising evidence from both quantitative and qualitative systematic reviews and meta-analyses. Methods This umbrella review builds upon our previous review with updates to reflect recent developments in the field. Five databases (PubMed, Embase, the Cumulative Index to Nursing and Allied Health Literature [CINAHL], Scopus, and the Cochrane Database of Systematic Reviews) were searched for articles published in English in peer-reviewed journals between December 2020 and June 2024. Systematic reviews and meta-analyses were included if they clearly defined measures of greenspace exposure and reported health outcomes directly attributable to greenspace exposure (PROSPERO: CRD42022383421). The methodological quality and risk of bias of each included review were evaluated by two independent reviewers. Results A total of 45 articles were included in this umbrella review. Greenspace exposure was beneficially associated with mental health, general health and quality of life, and cardiovascular and metabolic health. Inconsistent associations were observed for respiratory health and allergies, maternal health and birth outcomes, and cancer. Most of the included reviews had a high risk of bias and critically low methodological quality. Discussion This umbrella review highlights the multifaceted health benefits of greenspace exposure while underlining existing evidence gaps and methodological challenges. The results indicate that increasing access to greenspace could be a simple and cost-effective strategy to improve population health and reduce health inequalities. 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F1000Research 2025, 14 :726 ( https://doi.org/10.12688/f1000research.166852.1 ) NOTE: If applicable, it is important to ensure the information in square brackets after the title is included in all citations of this article. Close Copy Citation Details Export Export Citation Sciwheel EndNote Ref. Manager Bibtex ProCite Sente EXPORT Select a format first Track Share ▬ ✚ Systematic Review Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] Brittnee Bryer https://orcid.org/0009-0009-2910-4843 1 , Nicholas J Osborne https://orcid.org/0000-0002-6700-2284 1-3 , Jialu Wang 4 , Rajarshi Dasgupta https://orcid.org/0000-0003-0051-5090 5 , Gail Williams 1 , Darsy Darssan https://orcid.org/0000-0001-7050-9150 1 Brittnee Bryer https://orcid.org/0009-0009-2910-4843 1 , Nicholas J Osborne https://orcid.org/0000-0002-6700-2284 1-3 , [...] Jialu Wang 4 , Rajarshi Dasgupta https://orcid.org/0000-0003-0051-5090 5 , Gail Williams 1 , Darsy Darssan https://orcid.org/0000-0001-7050-9150 1 PUBLISHED 24 Jul 2025 Author details Author details 1 The University of Queensland School of Public Health, Herston, Queensland, Australia 2 School of Population Health, University of New South Wales, Sydney, New South Wales, Australia 3 European Centre for Environment and Human Health, University of Exeter Medical School, Exeter, England, UK 4 Queensland University of Technology School of Public Health and Social Work, Kelvin Grove, Queensland, Australia 5 School of Public Policy, Indian Institute of Technology, Delhi, New Delhi, India Brittnee Bryer Roles: Data Curation, Formal Analysis, Investigation, Methodology, Validation, Visualization, Writing – Original Draft Preparation, Writing – Review & Editing Nicholas J Osborne Roles: Conceptualization, Methodology, Supervision, Validation, Writing – Review & Editing Jialu Wang Roles: Data Curation, Investigation, Validation, Writing – Review & Editing Rajarshi Dasgupta Roles: Validation, Writing – Review & Editing Gail Williams Roles: Conceptualization, Methodology, Supervision, Writing – Review & Editing Darsy Darssan Roles: Conceptualization, Data Curation, Formal Analysis, Investigation, Methodology, Project Administration, Supervision, Validation, Visualization, Writing – Original Draft Preparation, Writing – Review & Editing OPEN PEER REVIEW DETAILS REVIEWER STATUS This article is included in the Public Health and Environmental Health collection. Abstract Background Studies, including umbrella reviews, have provided evidence linking greenspace exposure to specific health outcomes. To address methodological limitations in existing umbrella reviews, this umbrella review aims to expand knowledge on the association between greenspace and human health by summarising evidence from both quantitative and qualitative systematic reviews and meta-analyses. Methods This umbrella review builds upon our previous review with updates to reflect recent developments in the field. Five databases (PubMed, Embase, the Cumulative Index to Nursing and Allied Health Literature [CINAHL], Scopus, and the Cochrane Database of Systematic Reviews) were searched for articles published in English in peer-reviewed journals between December 2020 and June 2024. Systematic reviews and meta-analyses were included if they clearly defined measures of greenspace exposure and reported health outcomes directly attributable to greenspace exposure (PROSPERO: CRD42022383421). The methodological quality and risk of bias of each included review were evaluated by two independent reviewers. Results A total of 45 articles were included in this umbrella review. Greenspace exposure was beneficially associated with mental health, general health and quality of life, and cardiovascular and metabolic health. Inconsistent associations were observed for respiratory health and allergies, maternal health and birth outcomes, and cancer. Most of the included reviews had a high risk of bias and critically low methodological quality. Discussion This umbrella review highlights the multifaceted health benefits of greenspace exposure while underlining existing evidence gaps and methodological challenges. The results indicate that increasing access to greenspace could be a simple and cost-effective strategy to improve population health and reduce health inequalities. READ ALL READ LESS Keywords Human health, natural environment, outdoor environment, umbrella review, biodiversity, greenery, urbanisation Corresponding Author(s) Darsy Darssan ( [email protected] ) Close Corresponding author: Darsy Darssan Competing interests: No competing interests were disclosed. Grant information: The author(s) declared that no grants were involved in supporting this work. Copyright: © 2025 Bryer B et al . This is an open access article distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. How to cite: Bryer B, Osborne NJ, Wang J et al. Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.12688/f1000research.166852.1 ) First published: 24 Jul 2025, 14 :726 ( https://doi.org/10.12688/f1000research.166852.1 ) Latest published: 18 Apr 2026, 14 :726 ( https://doi.org/10.12688/f1000research.166852.2 ) There is a newer version of this article available. Suppress this message for one day. Introduction The rapid pace of urbanisation and environmental change has escalated interest in understanding how natural environments impact human health ( Farkas et al., 2023 ; Wang et al., 2024 ). Urban greenspaces, encompassing parks, forests, and other vegetated areas, have emerged as crucial components of urban ecosystems, offering potential health benefits ( Yang et al., 2021 ). Studies, including umbrella reviews, have provided evidence linking greenspace exposure to specific health outcomes, such as mental ( Bonaccorsi et al., 2023 ; Cuijpers et al., 2023 ), cognitive ( Zare Sakhvidi et al., 2023 ), and cardiometabolic health ( Liu et al., 2023 ; Sharifi et al., 2024 ), as well as birth outcomes ( Khalaf et al., 2025 ; Zare Sakhvidi et al., 2023 ), mortality ( Bryer et al., 2024 ; Song et al., 2024 ), and quality of life (QoL) ( Bonaccorsi et al., 2023 ). However, limitations in the methodology of these umbrella reviews have resulted in some gaps in the literature. Many systematic reviews struggle to quantitatively synthesise evidence on the association between greenspace and individual health outcomes due to the limited number of original studies available. In such cases, these reviews often present their findings narratively. In 2024, Xie et al. (2024) conducted an umbrella review examining the credibility of evidence on the association between greenspace and human health. While the authors graded the credibility of the current evidence, they focused solely on quantitative results. Including qualitative results could have provided a more comprehensive understanding, potentially enhancing the generalisability of the findings. Recent years have also seen the emergence of new umbrella reviews on the greenspace-health association. However, these reviews have typically focused on a narrower selection of health domains or demographic groups. For instance, some reviews explored the association between greenspace and specific health outcomes, such as cardiovascular disease (CVD) ( Liu et al., 2023 ) and mental health ( Cuijpers et al., 2023 ). Others have concentrated on specific age groups, including children and adolescents ( Zare Sakhvidi et al., 2023 ) and older adults ( Bonaccorsi et al., 2023 ). There is a clear need for an updated and comprehensive review that outlines both quantitative and qualitative evidence while encompassing all health outcomes across all age groups. To address this gap, this umbrella review aims to expand existing knowledge on the association between greenspace and human health by summarising evidence from both quantitative and qualitative systematic reviews and meta-analyses. Methods This umbrella review builds upon our previous review ( Bryer et al., 2024 ) with updates to reflect recent developments in the field. The protocol was registered with the International Prospective Register of Systematic Reviews (PROSPERO; registration ID: CRD42022383421) ( Bryer et al., 2022 ). The review adheres to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines ( Moher et al., 2009 ). Search strategy The existing search strategy from our previous review was used to identify peer-reviewed systematic reviews and meta-analyses examining the association between greenspace exposure and human health. The search was restricted to studies conducted in humans published between December 2020 and June 2024, including reviews first published online during this period (extended data: Supplementary Table S1). Searches were conducted on July 1, 2024 across five databases: PubMed, Embase, the Cumulative Index to Nursing and Allied Health Literature (CINAHL), Scopus, and the Cochrane Database of Systematic Reviews. EndNote was used for reference management ( The EndNote Team, 2013 ). Eligibility criteria Two authors independently screened the titles and abstracts and full texts of identified systematic reviews. Inclusion criteria were as follows: i) systematic review or meta-analysis; ii) published in English in a peer-reviewed journal; iii) greenspace exposure clearly defined using objective or subjective measures; iv) reported health outcome(s) directly attributable to greenspace exposure. Reviews were excluded if they were: i) systematic reviews that did not adhere to standardised systematic review methodologies (e.g. lacking database search details, search terms, or quality assessment); ii) scoping reviews; iii) reviews that combined greenspace effects with blue space; iv) studies that only reported on determinants of health (e.g. body mass index [BMI], physical activity, social health). Disagreements during screening were resolved through discussions with the last author. Covidence software was used to conduct all stages of screening ( Covidence systematic review software, 2022 ). Data extraction Two authors independently extracted data using a pre-established data extraction form ( Bryer et al., 2024 ). Extracted data included: design of original studies, types and measures of greenspace exposures, health outcomes, and the main findings of the review. Any discrepancies in extracted data were resolved through discussions with the last author. Analysis criteria The objectives, greenspace measures, health outcomes, and findings of each included review were summarised qualitatively. Consistent with the purpose of umbrella reviews, which outline evidence from systematic reviews rather than re-synthesising the results, no meta-analysis was performed ( Aromataris et al., 2015 ; Pollock et al., 2024 ). Where quantitative data were available, effect estimates and 95% confidence intervals were reported. The total number of original studies, classified by study design, was recorded, along with details of greenspace measures and reported health outcomes. For each health outcome, the corresponding International Classification of Diseases, 10 th Edition (ICD-10) code(s) was also noted ( World Health Organization, 2019 ). Methodological quality and risk of bias were independently evaluated by two authors using A MeaSurement Tool to Assess systematic Reviews 2 (AMSTAR-2) ( Shea et al., 2017 ) and the Risk of Bias Assessment Tool for Systematic Reviews (ROBIS) ( Shea et al., 2017 ), respectively. Disagreements were resolved through discussions with the last author. Systematic reviews were not excluded based on methodological quality or risk of bias. Results Study selection The search strategy identified 1,981 unique articles, of which 277 were retained for full-text screening. Ultimately, 45 articles met the inclusion criteria for this umbrella review. The PRISMA flowchart is available under the Reporting guidelines section at the end of this article. Study type and characteristics Most included systematic reviews were published in 2022 (n = 18, 40.0%). The number of original studies within these reviews ranged from two to 140, with participant sample sizes spanning from two to 159 million ( Table 1 ). Various study designs were represented, with cross-sectional studies being the most prevalent (n = 501, 45.7%) ( Table 2 ). Table 1. Characteristics of included systematic reviews * . Author (year) No. original studies on greenspace exposure Type of study (n) Objective(s) of the study Sample size Greenspace measures Outcome measures Main finding(s) Aarthi et al. (2023) 3 Cross-sectional (3) Review associations of built environment characteristics with T2DM in Asia. 4,155-341,211 NDVI, SAVI, greenspace ratio, green vision index, evergreen tree configuration T2DM, glucose levels Greenness associated with lower glucose levels in Taiwan and China. Ahmer et al. (2024) 31 Cross-sectional (26), cohort (3), case-control (1), quasi-experimental (1) Review influence of residential greenspaces on birth outcomes of pregnant women. 301-3,753,788 NDVI, greenspace/land percentage, tree canopy coverage, LiDAR BW, LBW, PTB, SGA Residential greenspaces positively associated with increased BW and lower odds of LBW, PTB, and SGA deliveries. Batterham et al. (2022) 4 Cross-sectional (4) Synthesise quantitative evidence for relationship between environmental factors and mental health in rural areas. 2,020-33,823 Percentage of greenspace type, land cover classes, proportion of forest & agricultural areas, total greenspace ratio General mental health, anxiety, depression, affective disorders, schizophrenia Areas with greater greenspace might have better well-being, marginally less depression, and reduced hospitalisations. Bianconi et al. (2023) 36 Ecological (15), cohort (13), cross-sectional (7), case-control (1) Assess impacts of urban greenery on cardiovascular and cerebrovascular disease morbidity and mortality. 469-43,000,000 NDVI, SAVI, LAI, greenspace percentage/urban park percentage, distance from city parks larger than 1 hectare, tree canopy percentage CVD mortality, IHD mortality, stroke mortality, CHD, stroke, CVD, AMI, HF, heart disease, IHD Suggests greenspace exposure has a beneficial effect on cardiovascular and cerebrovascular health in urban settings. Bolanis et al. (2024) 23 Ecological (14), cross-sectional (4), longitudinal (3), pre-post design (1), randomised cross-over (1) Review evidence on association between greenspace exposure and suicide-related outcomes. 15-8,741,021 NDVI, land cover map, greenspace percentage, number of parks per 1000 people, per capita park area, greenspace fragmentation, mean green patch area, green patch distance, percentage tree cover, tree canopy coverage, activities in forest settings, mountain hiking, decrease time in greenspace Suicide mortality, self-harm, suicidal ideation Greenspace exposure may have a protective role across the entire spectrum of suicide outcomes with larger putative benefits observed among females. Briggs et al. (2022) 20 RCT (20) Evaluate effectiveness of group-based gardening interventions for increasing well-being and reducing mental ill-health in adults. 20-89 Gardening interventions Depression, anxiety, stress, QoL, overall mental health, mood, affect, PTSD, burnout Mixed evidence for the effectiveness of group-based gardening interventions for mental health and wellbeing. Browning et al. (2022) 37 Cross-sectional (29), longitudinal (8) Consolidate evidence on how urbanicity modifies relationship between greenspace and health. 1,542-97,574,613 NDVI, green landcover, public greenspace, distance to greenspace, distance-based geographic area, container-based geographic area Respiratory health, cardiovascular health, diabetes, mortality, cancer, birth outcomes More analyses showed stronger protective associations in urban areas than in less urban areas. Cao et al. (2023) 14 Cohort (10), cross-sectional (3), ecological (1) Determine association between greenness and AR in children and adolescents. 522-642,313 NDVI, EVI, greenspace coverage, MODIS, green score (residential greenness and neighbourhood green land use) AR Results indicate no association between greenness exposure and AR in children and adolescents. Ccami-Bernal et al. (2023) 13 Cohort (13) Summarise evidence on exposure to greenspace and incidence of T2DM from longitudinal studies. 1,700-1,922,545 NDVI, forest percentage, percentage of any greenspace, percentage of neighbourhood greenness, EVI, proportion of greenspace within 1000m of the residence, VCF T2DM Exposure to greenspace could be a protective factor for the development of T2DM. Chae et al. (2021) 13 Pre-post (10), RCT (3) Analyse effects of forest therapy on immune function. 11-61 Forest therapy Immune function Forest therapy programs may contribute to the improvement of immune function. Chen et al. (2022) 2 Qualitative (1), mixed methods (1) Identify types, benefits, motivations, and drawbacks of environmental volunteerism. 5-19 Greening volunteerism Depression, positive affect, distress Environmental volunteerism can be considered a good model for productive aging and nature conservation. De la Fuente et al. (2021) 19 Cross-sectional (12), cohort (6), longitudinal (1) Know the magnitude of effect of greenspace on prevalence of T2DM through analysis of recent evidence. 76-3,920,000 Greenspace exposure by postcode, NDVI, area of parks in neighbourhood, density of trees & park area, frequency & intensity of exposure to nature, street tree density, greenspace satisfaction, distance to nearest park T2DM There is evidence for the protective role of greenspaces in the urban context against T2DM. Gao et al. (2024) 16 Cross-sectional (6), cohort (5), ecological (2), case-control (1), RCT (1) non-RCT (1) Investigate impact of greenspace on COPD-related disease outcomes and summarise reasons for heterogeneity. 18-2,185,170 NDVI, green land cover, tree canopy cover, forest cover, MSAVI, forest bathing COPD Greenery may positively impact COPD-related health outcomes, although some studies have yielded different results. Hsueh et al. (2022) 3 Mixed methods (2), qualitative (1) Synthesise literature on community place-based interventions addressing loneliness and mental health problems. 13-56 Community gardening, exposure to greenery Depression, anxiety, PTSD, overall mental health Insufficient evidence of an association between community-based interventions and loneliness or mental health problems. Kang et al. (2022) 6 RCT (6) Overview of RCTs on effects of forest-based interventions on mental health. 33-84 Forest therapy, forest bathing, forest videos, forest walking Depression, anxiety, positive emotions, negative emotions, overall mental health Forest-based interventions improved mental health of participants in the intervention groups compared to those in the control groups. Lampert et al. (2021) 8 Cross-sectional (8) Synthesise the literature about physical and mental health outcomes associated with community gardening. 50-332 Community gardening Overall health, number of chronic conditions, stress, anxiety, depression, QoL, PTSD, overall mental wellbeing Community gardens are associated with health gains for their users, irrespective of age, being an affordable and efficient way of promoting physical and mental health and well-being. Li et al. (2023) 14 Cohort (14) Integrate evidence from cohort studies to obtain best available epidemiological evidence on greenspace exposure and cancer. 7,300-10,481,566 NDVI, proximity to greenspace All-site cancer, prostate cancer, skin cancer, colorectal cancer, breast cancer, lung cancer, bladder cancer, mouth cancer, other cancer, all-site cancer mortality, lung cancer mortality, prostate cancer mortality Greenspace exposure reduces lung cancer and prostate cancer mortality, and there may be a potentially beneficial association for prostate, lung, and breast cancer incidence. Li and Lange (2023) 15 Cross-over (6), RCT (3), cross-sectional (2), pre-post design (2), real-time (1), cohort (1) Provide a comprehensive analysis of impact of urban landscapes and interventions on stress reduction. 11-164 Percentage land use, percentage of trees, residential gardens, natural/green corridor, semi-natural/natural areas, private greenspace, recreation civic space, parks, window green view, street greenery, landscape elements Psychological stress, mood, mental wellbeing, cognition, physiological stress, overall health Suggests that urban landscapes can provide therapeutically relevant changes in psychological states, physiological activity, and cognitive functioning. Masdor et al. (2023) 5 Cohort (5) Investigate association between exposure to greenspace in adult population and outcomes of colorectal cancer. 19,408-2,441,566 NDVI, garden percentage, natural environment percentage, ecosystem count, recreational facilities & parks count, residential proximity to greenspace, surrounding greenness Colorectal cancer, colorectal cancer mortality There is currently no link between colorectal cancer and greenspace. Patwary et al. (2024) 18 Cross-sectional (8), cohort (7), ecological (3) Assess association of greenspaces and built environments with MetS risk. 75-49,893 NDVI, EVI, SAVI, VCF, distance to greenspace, tree canopy density, parkland percentage, percentage land use for park & recreation MetS Suggests potential benefit of greenspace in reducing MetS risk. Piva et al. (2024) 10 Exploratory (6), RCT (2), non-RCT (2) Explore physiological and psychological benefits of forest therapies on healthy and elderly populations. 18-88 Forest bathing, forest exercise HR, HRV, BP, lung function, cortisol level, mood, depression, QoL, stress, cognitive impairment, neurochemical response Forest therapy interventions are effective in improving physiological, neurochemical, and biological parameters, and psychological well-being. Qiu et al. (2022) 29 Crossover RCT (15), parallel RCT (10), non-RCT (4) To assess the effects of forest therapy on BP and SCC in urban residents. 11-348 Forest therapy, forest walking, forest viewing SBP, DBP, SCC Longer forest therapy programs have greater BP- and SCC-lowering effects than shorter programs. Rahimi-Ardabili et al. (2021) 73 Cross-sectional (42), cohort (9), RCT (9), ecological (7), case-control (3), before-after study (2), quasi-experimental (1) Synthesise the emerging evidence on greenspace and health in mainland China. 20-159,000,000 NDVI, SAVI, proximity/frequency of visits to parks, viewing greenery, green walking, percentage green space coverage, time spent in parks, land cover map Mood, tension-anxiety, depression, fatigue, overall mental health/mental wellbeing, stress, attention, affective states, ADHD, QoL, overall health, diabetes, eczema, number of chronic conditions, BP, hypertension, CHD, cardiovascular health, MetS, CVD, stroke, cognition, asthma, lung cancer, COPD, rhinitis, number of respiratory diseases, all-cause mortality, other causes of mortality, malaria, dysentery, dengue, tuberculosis, BW, miscarriage Positive associations found between greenspace and mental health, cardiovascular outcomes, and general health. Ricciardi et al. (2022) 25 Cross-sectional (19), longitudinal (6) Summarise studies using objective measures of greenspace exposure and cognitive functioning. 108-38,327 NDVI, EVI, VFC, MEDIx, distance to NOE, percentage of parkland, total land area, total soft surface, tree canopy cover, time spent in green spaces, grass/shrub cover, average percent canopy cover Cognition, memory, attention, executive function Evidence was inconsistent but suggestive of a beneficial role of greenspace exposure on cognitive functions. Rigolon et al. (2021) 90 Cross-sectional (79), longitudinal (11) Review whether green space can contribute to limiting health disparities and moving toward health equity. 106-97,574,613 Gardening, green land cover, nature-based programs, exposure to public green space Eczema, asthma, diabetes, prostate cancer, CVD, all-cause mortality, PTB, infant mortality, overall health Greenspace had greater protective effects on overall health for low-SES people and neighbourhoods than for more affluent groups. Rojas-Rueda et al. (2021) 19 Cross-sectional (14), ecological (3), longitudinal (2) Review epidemiological evidence on green spaces and health outcomes in Latin America. 120-103,000,000 NDVI, frequency/duration of green space exposure, density/proximity to green space, presence of green space, biodiversity index, sustainable development index, park coverage Depression, overall mental well-being, cognitive functioning, QoL, infant mortality, life expectancy at birth, cardiorespiratory hospital admission, disability, overall health Most evidence suggests a positive association between green spaces and health in the region. Siah et al. (2023) 36 RCT (22), quasi-experimental (7), crossover design (7) Identify and synthesise evidence on forest bathing and its impacts on individual well-being. 12-585 Forest bathing Depression, anxiety, QoL, cortisol level, psychosocial well-being, direct-attention, stress, SBP, DBP, HR, HRV, cholesterol, inflammation, blood glucose, CVD risk, pain, disability, working memory, post-stroke fatigue There is evidence for the beneficial effects of forest bathing on psychological well-being. Sivak et al. (2021) 22 Cross-sectional (7), quasi-experimental (5), RCT (4), experimental (2), qualitative (3), case-control (1) Consolidate literature about vacant lots’ effects on human health, summarise findings and identify gaps in existing evidence. 12-49,246 Exposure to vacant lots Stress, depression, overall mental health, BP, heavy metal contamination, dermatophytosis, toxocara, foodborne pathogens, West Nile Virus, physical injury Depression, stress, physical activity, relaxation and socialisation in outdoor areas, and HR improved when living near or being within view of a greened vacant lot versus an unmaintained control lot. Tang et al. (2023) 35 Cohort (18), cross-sectional (10), ecological (4), case-control (3) Examine correlation between greenness exposure and chronic respiratory health issues. 478-10,481,566 NDVI Asthma, AR, COPD, lung cancer, COPD mortality, lung cancer mortality There is a correlation between higher greenness exposure and a reduced risk of asthma incidence, lung cancer incidence, and COPD mortality. Tharrey and Darmon (2021) 15 Cross-sectional (13), post-test only (1), RCT (1) Review quantitative studies analysing relationship between participation in collective gardens and gardeners’ health status in urban free-living adults in high-income countries. 30-13,133 Community gardening, allotment gardening Mood, psychological well-being, psychological distress, stress general mental health, BP, lung function, general health Several studies found a positive association between collective garden participation and physical, mental, or social health, but the results came mostly from cross-sectional studies. Tu (2022) 19 RCT (19) Explore effect of horticultural therapy on mental health. 13-150 Horticultural therapy Depression, anxiety, stress, PTSD, positive affect, negative affect, overall mental wellbeing, memory Meta-analysis provided evidence that horticultural therapy has a positive effect on mental health. Wang et al. (2022) 48 Cross-sectional (18), cohort (16), ecological (7), case-control (4), longitudinal (3) Review of evidence to elucidate association between greenness exposure and allergic diseases. 126-10,500,000 NDVI, VCG, EVI, SAVI, GVI, LiDAR, generalised land use database, ArcGIS, land cover classification maps, distance to nearest city part, residential proximity to greenspace, perceptions of greenspace quality, LUG, percentage greenspace, total number of natural land-cover types, plant diversity, tree canopy cover & agricultural cover Asthma, AR, ARC, AD, food allergies Exposure to greener environments early in life may be a protective factor for AR and asthma in childhood. Wu et al. (2022) 21 Cohort (10), cross-sectional (7), case-control (4) Review association between greenspace exposure and incidence of asthma and AR. 187-59,754 NDVI, LiDAR, CLC, GVI Asthma, AR Insufficient evidence of an association between greenspace exposure and asthma or AR. Ye et al. (2022) 140 Cross-sectional (83), cohort (40), ecological (8), longitudinal (4), case-control (4), combined cohort cross-sectional (1) Summarise measures of greenspace, compile evidence of an association between exposure to greenspace and early onset of health outcomes in childhood and adolescence and explore research gaps on how greenspace affects human health at this early stage of life. 61-5,262,265 NDVI, EVI, SAVI, greenspace coverage (rate, proportion, & percentage), proximity to greenspace, perceived greenspace quantity and quality, frequency/duration of greenspace use, street view green index Depression, anxiety, ADHD, overall mental well-being, autism, stress, psychological distress, QoL, attention, cognitive & motor function, cognitive development, working memory, asthma, rhinitis, AR, lung function, bronchitis, pneumonia, aeroallergen sensitisation, atopic sensitisation, BP, cardiometabolic health, allosteric load, overall health, myopia, astigmatism, intestinal parasites, IBD, leukaemia Though inconsistencies remain, protective effects have been reported with greenspace contacts on childhood mental health. Limited but promising findings also indicate that greenspace could be beneficial for children’s lung function and circulatory health, and reducing the prevalence of myopia. Yi et al. (2022) 17 RCT (17) Analyse effectiveness of forest therapy for both physiological and psychological areas. 11-144 Forest therapy, nature meditation, viewing greenery, green exercise Depression, anxiety, mood, overall mental health, QoL, BP, HR, physiological stress, overall health Forest therapy reduced depressive symptoms, but there was insufficient evidence of an association with BP. Yuan et al. (2021) 22 Cohort (17), cross-sectional (5) Synthesise evidence from observational studies to assess relationships of greenspace exposure with mortality and cardiovascular outcomes in older individuals. 1,084-5,988,606 NDVI, availability of greenspace, number of parks in buffer area, loss of trees, proportion of greenspace, distance to nearest greenspace, greenspaces per inhabitant, frequency/duration of visits to greenspace, tree canopy CVD, AMI, stroke, heart attack, CHD, IHD, all-cause mortality, non-accidental mortality, cancer mortality, stroke mortality, respiratory disease mortality, circulatory disease mortality, IHD mortality, AMI mortality, CVD mortality, infectious/parasitic disease mortality, CVD mortality, neurodegenerative disease mortality Some evidence for associations between increased greenness exposure and reduced risk of all-cause and stroke mortality, as well as major CVD outcomes in elderly populations. Zagnoli et al. (2022) 12 Cross-sectional (4), cohort (4), case-control (1), ecological (1), combined cohort cross-sectional (1), combined cohort case-control (1) Assess the relationship between environmental greenness and the risk of dementia and cognitive impairment. 2,424-1,737,460 NDVI, land cover, land use, total greenspace, tree canopy Dementia, Alzheimer's dementia, non-Alzheimer's dementia, ADRD, VaD, PD, MS, cognitive impairment, dementia mortality, neurodegenerative disease mortality Living in a place with an intermediate greenness value may protect against dementia. Zare Sakhvidi, Knobel, et al. (2022a) 29 Cross-sectional (17), longitudinal (11), case-control (1) Review association between long-term exposure to greenspace and behavioural problems in children and explore sources of heterogeneities. 169-814,689 NDVI, SAVI, MSAVI, duration of greenspace use, percent coverage, distance to greenspace, type of greenspace, quality of greenspace ADHD, externalising disorders, internalising disorders, hyperactivity, attention Determinants: conduct problems, peer problems, prosocial behaviour, conditional problems There are beneficial associations between exposure to greenspace with several behavioural outcomes in children. Zare Sakhvidi, Yang, et al. (2022b) 18 Cross-sectional (8), cohort (6), case-control (4) Assess evidence on association between exposure to greenspace and cancer incidence, prevalence, and mortality in adults. 1,910-28,600,000 NDVI, proximity to greenness, land cover Skin cancer, colorectal cancer, breast cancer, prostate cancer, lung cancer, non-melanoma cancer, mouth & throat cancer, all cancer, brain tumour, lung cancer mortality, prostate cancer mortality, oesophageal cancer mortality, all cancer mortality Part of the available literature is suggestive of a possible protective association of greenspace exposure with breast and prostate cancer, while for other cancers the evidence is still very limited and heterogeneous. Zhang et al. (2021) 26 Cross-sectional (24), longitudinal (2) Review pathways linking objectively measured greenspace exposure and mental health outcomes. 109-1,930,048 NDVI, greenspace exposure via GIS, national land cover classification database, distance to greenspace, street view greenness, SVG Depression, anxiety, psychological distress, overall mental wellbeing Supportive evidence was found for a direct pathway from greenspace exposure to mental illness and mental well-being. Y. Zhang et al. (2024a) 60 Cross-sectional (32), cohort (28) Explore effects of greenspace exposure on common psychiatric disorders. 322-61,662,472 NDVI, area of greenspace, parks, view of greenery, greenspace accessibility/availability Depression, anxiety, ADHD, schizophrenia, dementia, psychiatric disorders Greenspace linked to lower odds of depression, anxiety, dementia, schizophrenia, and ADHD. Y. D. Zhang et al. (2024b) 20 Cross-sectional (10), non-RCT (5), RCT (2), before-after intervention (2), cohort (1) Comprehensively synthesise observational and interventional evidence on association between greenspace exposure and human microbiota. 2-9,129 NDVI, EVI, percentage agricultural land & forest, percentage trees & grassland, percentage greenspace, green remediation, natural environment around home, rubbing hand with soil- & plant-based materials, direct exposure to soil & plants, gardening Gut microbiota, skin microbiota, oral microbiota, nasal microbiota Greenspace exposure may diversify gut and skin microbiota and alter their composition to healthier profiles. X. Zhang et al. (2022c) 24 Randomised crossover (12), non-randomised crossover (7), randomised parallel group (3), 2x2 factorial design (1), single group crossover (1) Conduct a systematic review of the anxiety-alleviation benefits of exposure to the natural environment 11-498 Trail surrounded by trees, roads surrounded by trees, forest exposure, green area at university, park, garden & landscape photographs Anxiety Natural environment or pictures and videos of the natural environment can be effective in reducing anxiety. Zhao et al. (2022) 38 Cross-sectional (27), cohort (9), longitudinal (1), case-control (1) Review associations between greenspace and BP levels/hypertension. 73-3,920,000 NDVI, SAVI, EVI, greenspace percentage in buffer, tree cover, distance to greenspace, land cover, number of street trees, proportion greenspace, availability of greenspace Hypertension, SBP, DBP Greenspace may play an important role in decreasing BP levels and the prevalence of hypertension. Zhao et al. (2021) 9 Cohort (4), case-control (3), cross-sectional (2) Summarise natural, physical, and social environmental factors associated with cognitive impairment and dementia. 675-1,737,460 NDVI, generalised land use, density of greenspace, percentage of greenspace, distance to greenspace Dementia, Alzheimer’s dementia, non-Alzheimer’s dementia, cognitive impairment More residential greenness might be favourable in the risk of cognitive impairment and dementia. * AD: atopic dermatitis; ADHD: attention deficit hyperactivity disorder; ADRD: Alzheimer’s disease and related dementia; AMI: acute myocardial infarction; AR: allergic rhinitis; ARC: allergic rhino-conjunctivitis; BMI: body mass index; BP: blood pressure; BW: birthweight; CHD: coronary heart disease; COPD: chronic obstructive pulmonary disease; CLC: coordination of information of the environment (CORINE) land cover; CVD: cardiovascular disease; DBP: diastolic blood pressure; EVI: enhanced vegetation index; GIS: geographic information system; GVI: green view index; HF: heart failure; HR: heart rate; HRV: heart rate variability; IBD: irritable bowel disease; IHD: ischaemic heart disease; LAI: leaf area index; LBW: low birth weight; LiDAR: light detection and ranging; LUG: land use greenness; MEDIx: multiple environmental deprivation index; MetS: metabolic syndrome; MODIS: moderate resolution imaging spectroradiometer; MS: multiple sclerosis; MSAVI: modified soil adjusted vegetation index; NDVI: normalised difference vegetation index; NOE: natural outdoor environment; PD: Parkinson’s disease; PTB: pre-term birth; PTSD: post-traumatic stress disorder; QoL: quality of life; RCT: randomised controlled trial; SAVI: soil-adjusted vegetation index; SBP: systolic blood pressure; SCC: serum cortisol concentration; SES: socioeconomic status; SGA: small for gestational age; SVG: street-view imagery-based greenness indices; T2DM: type 2 diabetes mellitus; VaD: vascular dementia; VCF: vegetative continuous field; VFC: vegetation fractional cover. Table 2. Study design of original studies in included systematic reviews. Study design n (%) Cross-sectional 501(45.7%) Cohort 211 (19.2%) Randomised Controlled Trial (RCT) 109 (9.9%) Ecological 65 (5.9%) Longitudinal 52 (4.7%) Case-control 32 (2.9%) Other a 127 (11.6%) a Other: crossover RCT, quasi-experimental, pre-post design, crossover design, randomised crossover, non-RCT, parallel RCT, non-randomised crossover, exploratory, qualitative, before-after study, randomised parallel group, mixed methods, experimental, combined cohort cross-sectional, post-test only, single group crossover, real-time study, randomised controlled crossover, 2x2 factorial design, combined cohort case-control. Greenspace exposure A wide array of greenspace exposure measures were reported ( Table 3 ). The Normalised Difference Vegetation Index (NDVI), a common quantitative measure of vegetation, appeared in 27 systematic reviews (60.0%). Other frequently used measures included greenspace percentage, proximity to greenspace, presence of tree canopies, Soil Adjusted Vegetation Index (SAVI), Enhanced Vegetation Index (EVI), availability of greenspace, and gardening. Additionally, 37 reviews (82.2%) reported alternative greenspace measures, encompassing both qualitative and quantitative assessments, as well as intervention activities. Table 3. Measures of greenspace exposure in included systematic reviews. Greenspace exposure measure Counts of greenspace exposure measure (% out of 44 reviews) Review articles NDVI b 27 (60.0%) Aarthi et al. (2023) ; Ahmer et al. (2024) ; Bianconi et al. (2023) ; Bolanis et al. (2024) ; Cao et al. (2023) ; Ccami-Bernal et al. (2023) ; De la Fuente et al. (2021) ; Gao et al. (2024) ; Li et al. (2023) ; Li and Lange (2023) ; Masdor et al. (2023) ; Patwary et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Ricciardi et al. (2022) ; Rojas-Rueda et al. (2021) ; Tang et al. (2023) ; Wang et al. (2022) ; Wu et al. (2022) ; Ye et al. (2022) ; Yuan et al. (2021) ; Zagnoli et al. (2022) ; Zare Sakhvidi, Knobel, et al. (2022a) ; Zare Sakhvidi, Yang, et al. (2022b) ; Zhang et al. (2021) ; Y. D. Zhang et al. (2024b) ; Zhao et al. (2022) ; Zhao et al. (2021) Greenspace percentage 16 (35.6%) Ahmer et al. (2024) ; Batterham et al. (2022) ; Bianconi et al. (2023) ; Bolanis et al. (2024) ; Ccami-Bernal et al. (2023) ; Li and Lange (2023) ; Masdor et al. (2023) ; Patwary et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Ricciardi et al. (2022) ; Wang et al. (2022) ; Ye et al. (2022) ; Zare Sakhvidi, Knobel, et al. (2022a) ; Y. D. Zhang et al. (2024b) ; Zhao et al. (2022) ; Zhao et al. (2021) Proximity to greenspace 16 (35.6%) Bianconi et al. (2023) ; De la Fuente et al. (2021) ; Li et al. (2023) ; Masdor et al. (2023) ; Patwary et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Ricciardi et al. (2022) ; Rojas-Rueda et al. (2021) ; Wang et al. (2022) ; Ye et al. (2022) ; Yuan et al. (2021) ; Zare Sakhvidi, Knobel, et al. (2022a) ; Zare Sakhvidi, Yang, et al. (2022b) ; Zhang et al. (2021) ; Zhao et al. (2022) ; Zhao et al. (2021) Green land cover 15 (33.3%) Batterham et al. (2022) ; Bolanis et al. (2024) ; Browning et al. (2022) ; Cao et al. (2023) ; Gao et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Ricciardi et al. (2022) ; Rigolon et al. (2021) ; Rojas-Rueda et al. (2021) ; Wang et al. (2022) ; Ye et al. (2022) ; Zagnoli et al. (2022) ; Zare Sakhvidi, Yang, et al. (2022b) ; Zhang et al. (2021) ; Zhao et al. (2022) Tree canopy 10 (22.2%) Ahmer et al. (2024) ; Bianconi et al. (2023) ; Bolanis et al. (2024) ; Gao et al. (2024) ; Patwary et al. (2024) ; Ricciardi et al. (2022) ; Wang et al. (2022) ; Yuan et al. (2021) ; Zagnoli et al. (2022) ; Zhao et al. (2022) SAVI c 8 (17.8%) Aarthi et al. (2023) ; Bianconi et al. (2023) ; Patwary et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Wang et al. (2022) ; Ye et al. (2022) ; Zare Sakhvidi, Knobel, et al. (2022a) ; Zhao et al. (2022) EVI d 8 (17.8%) Cao et al. (2023) ; Ccami-Bernal et al. (2023) ; Patwary et al. (2024) ; Ricciardi et al. (2022) ; Wang et al. (2022) ; Ye et al. (2022) ; Y. D. Zhang et al. (2024b) ; Zhao et al. (2022) Availability of greenspace 8 (17.8%) Browning et al. (2022) ; Li and Lange (2023) ; Masdor et al. (2023) ; Rojas-Rueda et al. (2021) ; Yuan et al. (2021) ; X. Zhang et al. (2022c) ; Y. D. Zhang et al. (2024b) ; Zhao et al. (2022) Gardening 7 (15.6%) Briggs et al. (2022) ; Hsueh et al. (2022) ; Lampert et al. (2021) ; Rigolon et al. (2021) ; Tharrey and Darmon (2021) ; Tu (2022) ; Y. D. Zhang et al. (2024b) Other a 37 (82.2%) Aarthi et al. (2023) ; Ahmer et al. (2024) ; Batterham et al. (2022) ; Bolanis et al. (2024) ; Browning et al. (2022) ; Cao et al. (2023) ; Ccami-Bernal et al. (2023) ; Chae et al. (2021) ; Chen et al. (2022) ; De la Fuente et al. (2021) ; Gao et al. (2024) ; Hsueh et al. (2022) ; Kang et al. (2022) ; Li and Lange (2023) ; Masdor et al. (2023) ; Patwary et al. (2024) ; Piva et al. (2024) ; Qiu et al. (2022) ; Rahimi-Ardabili et al. (2021) ; Ricciardi et al. (2022) ; Rigolon et al. (2021) ; Rojas-Rueda et al. (2021) ; Siah et al. (2023) ; Sivak et al. (2021) ; Wang et al. (2022) ; Wu et al. (2022) ; Ye et al. (2022) ; Yuan et al. (2021) ; Zagnoli et al. (2022) ; Zare Sakhvidi, Knobel, et al. (2022a) ; Zhang et al. (2021) ; X. Zhang et al. (2022c) ; Zhao et al. (2022) ; Zhao et al. (2021) a Other: proportion of greenspace, green exercise, frequency of greenspace exposure, viewing greenspace, density of greenspace, Light Detection and Ranging (LiDAR), greenspace exposure via Geographic Information System (GIS), land use, street view greenness, viewing greenspace photography/videography, Modified Soil Adjusted Vegetation Index (MSAVI), number of street trees, forest therapy, duration of greenspace exposure, forest bathing, Green View Index (GVI), greenspace ratio, number of green recreational facilities, Vegetative Continuous Field (VCF), greenness exposure by postcode, plant diversity, greenspace fragmentation, greenness satisfaction, greenspaces per inhabitant, greenspace area, quality of greenspace, intensity of exposure to nature, Leaf Area Index (LAI), total land area, type of greenspace, landscape elements, perceived quality and quantity of greenspace, activities in forest settings, loss of trees, biodiversity index, Moderate Resolution Imaging Spectroradiometer (MODIS), green patch area, green vision index, Vegetation Fractional Cover (VFC), green score, greening volunteerism, ecosystem count, nature meditation, nature-based programs, coordination of information of the environment (CORINE) land cover (CLC), undefined exposure to greenspace; b NDVI: Normalised Difference Vegetation Index; c SAVI: Soil-Adjusted Vegetation Index; d EVI: Enhanced Vegetation Index. Health outcomes Health outcomes were sorted into the following categories: mental health and cognitive function, maternal health and birth outcomes, cardiovascular and metabolic outcomes, respiratory health and allergies, cancer, general health and QoL, and all-cause and cause-specific mortality. Health outcomes which did not align with these categories were classified as other health outcomes. Details of these categories and related ICD-10 codes are summarised in Table 4 . Table 4. Health outcomes investigated in the included systematic reviews. Health outcome category Health outcome ICD-10 code(s) a Review articles Mental health and cognitive function Dementia A50.4, B22.0, F00-F03, F84.3, G31.0 Zagnoli et al. (2022) ; Zhao et al. (2022) Overall mental health/psychological outcomes F00-F99 Batterham et al. (2022) ; Briggs et al. (2022) ; Hsueh et al. (2022) ; Kang et al. (2022) ; Lampert et al. (2021) ; Li and Lange (2023) ; Rahimi-Ardabili et al. (2021) ; Rojas-Rueda et al. (2021) ; Siah et al. (2023) ; Sivak et al. (2021) ; Tharrey and Darmon (2021) ; Tu (2022) ; Ye et al. (2022) ; Yi et al. (2022) ; Zhang et al. (2021) Alzheimer’s dementia F00 Zagnoli et al. (2022) ; Zhao et al. (2021) Vascular dementia F01 Zagnoli et al. (2022) Non-Alzheimer’s dementia B22.0, F01-F03, F10.7, F11.7, F12.7, F13.7, F14.7, F15.7, F16.7, F17.7, F18.7, F19.7, F84.3, G31.0 Zagnoli et al. (2022) ; Zhao et al. (2021) Mood, affect F06.3, F30-F39 Batterham et al. (2022) ; Briggs et al. (2022) ; Chen et al. (2022) ; Kang et al. (2022) ; Li and Lange (2023) ; Piva et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Tharrey and Darmon (2021) ; Tu (2022) ; Yi et al. (2022) Anxiety F06.4, F34.1, F40-F41, F51.5, F93.0-F93.2, Z63.7 Batterham et al. (2022) ; Briggs et al. (2022) ; Hsueh et al. (2022) ; Kang et al. (2022) ; Lampert et al. (2021) ; Rahimi-Ardabili et al. (2021) ; Siah et al. (2023) ; Tu (2022) ; Ye et al. (2022) ; Yi et al. (2022) ; Zhang et al. (2021) ; X. Zhang et al. (2022c) Schizophrenia F20-F29 Batterham et al. (2022) Depression F32-F33 Batterham et al. (2022) ; Briggs et al. (2022) ; Chen et al. (2022) ; Hsueh et al. (2022) ; Kang et al. (2022) ; Lampert et al. (2021) ; Piva et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Rojas-Rueda et al. (2021) ; Siah et al. (2023) ; Sivak et al. (2021) ; Tu (2022) ; Ye et al. (2022) ; Yi et al. (2022) ; Zhang et al. (2021) Stress F43, Z73 Briggs et al. (2022) ; Lampert et al. (2021) ; Li and Lange (2023) ; Piva et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Siah et al. (2023) ; Sivak et al. (2021) ; Tharrey and Darmon (2021) ; Tu (2022) ; Ye et al. (2022) Post traumatic stress disorder F43.1 Briggs et al. (2022) ; Hsueh et al. (2022) ; Lampert et al. (2021) ; Tu (2022) Autism F84.0-F84.1 Ye et al. (2022) Behavioural and psychological distress, emotional wellbeing, neurocognitive development F90-F98 Chen et al. (2022) ; Tharrey and Darmon (2021) ; Zare Sakhvidi, Knobel, et al. (2022a) ; Zhang et al. (2021) Attention deficit hyperactivity disorder F90.0 Rahimi-Ardabili et al. (2021) ; Ye et al. (2022) ; Zare Sakhvidi, Knobel, et al. (2022a) Alzheimer’s disease G30 Zagnoli et al. (2022) Cognition R40-R44 Li and Lange (2023) ; Piva et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Ricciardi et al. (2022) ; Rojas-Rueda et al. (2021) ; Siah et al. (2023) ; Tu (2022) ; Ye et al. (2022) ; Zagnoli et al. (2022) ; Zare Sakhvidi, Knobel, et al. (2022a) ; Zhao et al. (2022) Suicidal ideation R45.8 Bolanis et al. (2024) Self-harm X60-X84 Bolanis et al. (2024) Neurochemical response Z00.4 Piva et al. (2024) Burnout Z73.0 Briggs et al. (2022) Maternal health and birth outcomes Overall birth and maternal health P00-P96, O00-O99 Browning et al. (2022) Birthweight P07, P08 Ahmer et al. (2024) ; Rahimi-Ardabili et al. (2021) Low birthweight P07.0, P07.1 Ahmer et al. (2024) Preterm birth P07.2, P07.3 Ahmer et al. (2024) ; Rigolon et al. (2021) Small for gestational age P05.1 Ahmer et al. (2024) Miscarriage O03 Rahimi-Ardabili et al. (2021) Cardiovascular and metabolic health Diabetes E10-E14, E23.2, O24 Aarthi et al. (2023) ; Browning et al. (2022) ; Ccami-Bernal et al. (2023) ; De la Fuente et al. (2021) ; Rahimi-Ardabili et al. (2021) ; Rigolon et al. (2021) Blood glucose level E10-E16, E23.2, O24, R73 Aarthi et al. (2023) ; Siah et al. (2023) Metabolic health E70-E90 Ye et al. (2022) Cholesterol E78 Siah et al. (2023) Metabolic syndrome E88.8 Patwary et al. (2024) ; Rahimi-Ardabili et al. (2021) Cardiovascular health I00-I99 Bianconi et al. (2023) ; Browning et al. (2022) ; Rahimi-Ardabili et al. (2021) ; Rigolon et al. (2021) ; Rojas-Rueda et al. (2021) ; Siah et al. (2023) ; Ye et al. (2022) ; Yuan et al. (2021) Heart failure I09.0, I09.9 I11.0, I13.0, I43.8, I50, I97.1 Bianconi et al. (2023) Hypertension I10-I15 Rahimi-Ardabili et al. (2021) ; Zhao et al. (2022) Ischaemic heart disease I20-I25 Bianconi et al. (2023) ; Yuan et al. (2021) Acute myocardial infarction I21-I22 Bianconi et al. (2023) ; Yuan et al. (2021) Coronary heart disease I25.9 Bianconi et al. (2023) ; Rahimi-Ardabili et al. (2021) ; Yuan et al. (2021) Stroke I64 Bianconi et al. (2023) ; Rahimi-Ardabili et al. (2021) ; Yuan et al. (2021) Heart rate R00 Piva et al. (2024) ; Siah et al. (2023) ; Yi et al. (2022) Blood pressure Z01.3 Piva et al. (2024) ; Qiu et al. (2022) ; Rahimi-Ardabili et al. (2021) ; Siah et al. (2023) ; Sivak et al. (2021) ; Tharrey and Darmon (2021) ; Ye et al. (2022) ; Yi et al. (2022) ; Zhao et al. (2022) Respiratory health and allergies Acute rhino conjunctivitis H10 Wang et al. (2022) Respiratory diseases J00-J99 Browning et al. (2022) ; Rahimi-Ardabili et al. (2021) ; Rojas-Rueda et al. (2021) Rhinitis J00, J30.0, J31.0 Rahimi-Ardabili et al. (2021) ; Ye et al. (2022) Pneumonia J14-J18, J69, J84.9, P23, P24.9 Ye et al. (2022) Bronchitis J20, J40-J42, J44, J45.0, J45.9 Ye et al. (2022) Allergic rhinitis J30, J45.0 Cao et al. (2023) ; Tang et al. (2023) ; Wang et al. (2022) ; Wu et al. (2022) ; Ye et al. (2022) Chronic obstructive pulmonary disorder J44 Gao et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Tang et al. (2023) Asthma J45-J46 Rahimi-Ardabili et al. (2021) ; Rigolon et al. (2021) ; Tang et al. (2023) ; Wang et al. (2022) ; Wu et al. (2022) ; Ye et al. (2022) Eczema & dermatitis L20-L30 Rahimi-Ardabili et al. (2021) ; Rigolon et al. (2021) ; Wang et al. (2022) ; Ye et al. (2022) Food allergies L27.2, L23.6, T78.0-T78.1 Wang et al. (2022) ; Ye et al. (2022) Lung function Z00.8 Piva et al. (2024) ; Tharrey and Darmon (2021) ; Ye et al. (2022) Cancer All-site cancer C00-D48 Browning et al. (2022) ; Li et al. (2023) ; Zare Sakhvidi, Yang, et al. (2022b) Non-melanoma cancer C00-C41, C45-D02, D04-D09 Zare Sakhvidi, Yang, et al. (2022b) Mouth cancer C00-C09, D00.0 Li et al. (2023) ; Zare Sakhvidi, Yang, et al. (2022b) Throat cancer C09-C13, C14.0, D00.0 Zare Sakhvidi, Yang, et al. (2022b) Colorectal cancer C19, C78.5, D01.1 Li et al. (2023) ; Masdor et al. (2023) ; Zare Sakhvidi, Yang, et al. (2022b) Lung cancer C34, C78.0, D02.2 Li et al. (2023) ; Rahimi-Ardabili et al. (2021) ; Tang et al. (2023) ; Zare Sakhvidi, Yang, et al. (2022b) Skin cancer C43-C44, C79.2, D03-D04 Li et al. (2023) ; Zare Sakhvidi, Yang, et al. (2022b) Breast cancer C50, D24, D05 Li et al. (2023) ; Zare Sakhvidi, Yang, et al. (2022b) Prostate cancer C61, D07.5 Li et al. (2023) ; Rigolon et al. (2021) ; Zare Sakhvidi, Yang, et al. (2022b) Bladder cancer C67, C79.1, D09.0 Li et al. (2023) Brain tumour C71, D33, C79.3, D43.0-D43.2 Zare Sakhvidi, Yang, et al. (2022b) Leukaemia C90.1, C91-C95, D47.1, D47.5 Ye et al. (2022) General health and quality of life Overall/general health/physiological outcomes A00-Y98 Lampert et al. (2021) ; Li and Lange (2023) ; Rahimi-Ardabili et al. (2021) ; Rigolon et al. (2021) ; Rojas-Rueda et al. (2021) ; Siah et al. (2023) ; Sivak et al. (2021) ; Tharrey and Darmon (2021) ; Ye et al. (2022) ; Yi et al. (2022) Chronic diseases A00-Q99 Lampert et al. (2021) ; Rahimi-Ardabili et al. (2021) Pain G50.1, H57.1, I20.9, K14.6, M25.5, M54.5, M54.6, M79.6, N94, R07, R10, R14, R30, R51-R52 Siah et al. (2023) Fatigue R53 Rahimi-Ardabili et al. (2021) ; Siah et al. (2023) Quality of life NA b Briggs et al. (2022) ; Lampert et al. (2021) ; Piva et al. (2024) ; Rahimi-Ardabili et al. (2021) ; Rojas-Rueda et al. (2021) ; Siah et al. (2023) ; Ye et al. (2022) ; Yi et al. (2022) Life expectancy NA Rojas-Rueda et al. (2021) All-cause and cause specific mortality All-cause mortality A00-V98 Browning et al. (2022) ; Rahimi-Ardabili et al. (2021) ; Rigolon et al. (2021) ; Yuan et al. (2021) Non-accidental mortality A00-T98, X60-Y09, Y35-Y89 Yuan et al. (2021) Infectious & parasitic disease mortality A00-B99 Yuan et al. (2021) Dementia mortality A50.4, B22.0, F00-F03, F84.3, G31.0 Zagnoli et al. (2022) All-site cancer mortality C00-D48 Li et al. (2023) ; Yuan et al. (2021) ; Zare Sakhvidi, Yang, et al. (2022b) Oesophageal cancer mortality C15, D00.1 Zare Sakhvidi, Yang, et al. (2022b) Colorectal cancer mortality C19, D01.1 Masdor et al. (2023) Lung cancer mortality C34, C78.0 Li et al. (2023) ; Tang et al. (2023) ; Zare Sakhvidi, Yang, et al. (2022b) Prostate cancer mortality C61 Masdor et al. (2023) ; Zare Sakhvidi, Yang, et al. (2022b) Neurogenerative disease mortality F00, G10-G37, G60-G99, R27.0, R27.8 Yuan et al. (2021) ; Zagnoli et al. (2022) Circulatory mortality I00-I99 Yuan et al. (2021) Ischaemic heart disease mortality I20-I25 Bianconi et al. (2023) ; Yuan et al. (2021) Acute myocardial infarction I21-I22 Yuan et al. (2021) Cardiovascular disease mortality I51.6 Bianconi et al. (2023) ; Yuan et al. (2021) Stroke mortality I64 Bianconi et al. (2023) ; Yuan et al. (2021) Respiratory disease mortality J00-J99 Yuan et al. (2021) COPD mortality J44 Tang et al. (2023) Infant/neonatal mortality P00-P04, P07-P08, P95 Rigolon et al. (2021) ; Rojas-Rueda et al. (2021) Suicide mortality T76, Z60-X84 Bolanis et al. (2024) Other health outcomes Foodborne pathogens A02, A04.7, A05, A32 Sivak et al. (2021) Dysentery A07.9, A09.0 Rahimi-Ardabili et al. (2021) Tuberculosis A15-A19 Rahimi-Ardabili et al. (2021) West Nile virus A92.3 Sivak et al. (2021) Dengue A97 Rahimi-Ardabili et al. (2021) Dermatophytosis B35 Sivak et al. (2021) Malaria B50-B54 Rahimi-Ardabili et al. (2021) Intestinal parasites B65-B83 Ye et al. (2022) Toxocariasis B83.0 Sivak et al. (2021) Cortisol level E24, E27.1-E27.2, E27.8, E35.1 Piva et al. (2024) ; Qiu et al. (2022) ; Siah et al. (2023) Parkinson’s disease G20 Zagnoli et al. (2022) Multiple sclerosis G35 Zagnoli et al. (2022) Myopia H44.2, H52.1 Ye et al. (2022) Astigmatism H52.2 Ye et al. (2022) Irritable bowel disease K51, K63.8 Ye et al. (2022) Heavy metal contamination R82.6, R78.7, T56, X49, Y19 Sivak et al. (2021) Microbiota (gut, skin, oral, nasal) Z01.8 Y. D. Zhang et al. (2024b) Immune markers Z01.8 Chae et al. (2021) a ICD-10: International Classification of Diseases; b NA: Not applicable. Mental health and cognitive function A total of 24 systematic reviews examined the association between greenspace exposure and mental health or cognitive function. Overall mental health and well-being were investigated in 11 systematic reviews ( Batterham et al., 2022 ; Chen et al., 2022 ; Hsueh et al., 2022 ; Kang et al., 2022 ; Lampert et al., 2021 ; Rahimi-Ardabili et al., 2021 ; Tharrey & Darmon, 2021 ; Tu, 2022 ; Ye et al., 2022 ; Zare Sakhvidi, Knobel, et al., 2022a ; Zhang et al., 2021 ). Greenspace interventions, such as greening volunteerism ( Chen et al., 2022 ), collective gardening ( Tharrey & Darmon, 2021 ), community gardening ( Lampert et al., 2021 ), and horticultural therapy ( Tu, 2022 ), showed positive effects on mental health and wellbeing. Forest-based interventions ( Kang et al., 2022 ) and overall greenspace exposure ( Rahimi-Ardabili et al., 2021 ) were linked to better mental health, including in children ( Ye et al., 2022 ), with mediating factors such as air quality, perceived stress, and physical activity identified ( Zhang et al., 2021 ). However, some reviews reported mixed evidence on the relationship between greenspace exposure and overall mental health and wellbeing ( Batterham et al., 2022 ; Hsueh et al., 2022 ; Zare Sakhvidi, Knobel, et al., 2022a ). Depression was assessed in eight reviews ( Batterham et al., 2022 ; Briggs et al., 2022 ; Kang et al., 2022 ; Piva et al., 2024 ; Siah et al., 2023 ; Sivak et al., 2021 ; Yi et al., 2022 ; Y. Zhang et al., 2024a ). Meta-analyses demonstrated protective effects of group-based gardening ( Briggs et al., 2022 ) and NDVI ( Y. Zhang et al., 2024a ), though heterogeneity was a limitation. Protective effects were reported for forest-based interventions ( Kang et al., 2022 ; Piva et al., 2024 ; Siah et al., 2023 ; Yi et al., 2022 ), but narrative synthesis yielded mixed results for general greenspace ( Batterham et al., 2022 ; Briggs et al., 2022 ) and vacant lots ( Sivak et al., 2021 ). Anxiety outcomes appeared in five reviews ( Briggs et al., 2022 ; Kang et al., 2022 ; Siah et al., 2023 ; X. Zhang et al., 2022c ; Y. Zhang et al., 2024a ). Increased greenspace exposure ( X. Zhang et al., 2022c ) and forest-based interventions ( Kang et al., 2022 ; Siah et al., 2023 ) were associated with reduced anxiety levels. Increased greenspace, specifically NDVI, was also associated with lower odds of anxiety ( Y. Zhang et al., 2024a ). However, evidence for group-based gardening was inconsistent in narrative synthesis and no association was found in the meta-analysis ( Briggs et al., 2022 ). Cognitive function was assessed in six reviews ( Rahimi-Ardabili et al., 2021 ; Ricciardi et al., 2022 ; Rojas-Rueda et al., 2021 ; Zagnoli et al., 2022 ; Y. Zhang et al., 2024a ; Zhao et al., 2021 ). Meta-analyses concluded that higher greenspace was associated with a reduced risk of combined cognitive impairment and dementia ( Zhao et al., 2021 ) and increased NDVI was associated with a decreased odds of dementia ( Y. Zhang et al., 2024a ). Conversely, Zagnoli et al. (2022) reported that increased greenspace was associated with an increased risk of cognitive impairment, though this finding was limited by the small number of original studies. Inconsistent ( Ricciardi et al., 2022 ), insufficient ( Rojas-Rueda et al., 2021 ), or no evidence ( Rahimi-Ardabili et al., 2021 ) was noted in other reviews. Other mental and cognitive health outcomes were also explored ( Bolanis et al., 2024 ; Briggs et al., 2022 ; Kang et al., 2022 ; Li & Lange, 2023 ; Piva et al., 2024 ; Rojas-Rueda et al., 2021 ; Siah et al., 2023 ; Sivak et al., 2021 ; Zare Sakhvidi, Knobel, et al., 2022a ; Y. Zhang et al., 2024a ). Increased NDVI within 400m (OR [odds ratio] = 0.59, 95%CI: 0.35, 0.99) and 1500m (OR = 0.52, 95%CI: 0.30, 0.91) of residences was associated with reduced odds of non-psychotic mental disorders ( Rojas-Rueda et al., 2021 ). Higher NDVI was also linked to lower odds of schizophrenia and attention deficit hyperactivity disorder (ADHD) ( Y. Zhang et al., 2024a ). Green vacant lots ( Sivak et al., 2021 ) and passive or light physical activity in urban greenspaces ( Li & Lange, 2023 ) were associated with reduced psychological stress while forest-based interventions were associated with emotions ( Kang et al., 2022 ) and mood ( Piva et al., 2024 ; Siah et al., 2023 ). Protective associations were suggested for self-harm and suicidal ideation ( Bolanis et al., 2024 ), but evidence was mixed for conduct problems and internalising/externalising disorders ( Zare Sakhvidi, Knobel, et al., 2022a ). Maternal health and birth outcomes Only five reviews investigated maternal health and birth outcomes ( Ahmer et al., 2024 ; Browning et al., 2022 ; Rahimi-Ardabili et al., 2021 ; Rigolon et al., 2021 ; Rojas-Rueda et al., 2021 ). The evidence on birth outcomes was notably limited, as highlighted by Rojas-Rueda et al. (2021) and Rahimi-Ardabili et al. (2021) who only found one original study each. A meta-analysis showed that increased residential greenspace within a 250m radius was associated with higher birthweights (BW) and reduced odds of low birthweight (LBW) ( Ahmer et al., 2024 ). Narrative synthesis also suggested that residential greenspace may protect against preterm birth (PTB) and small-for-gestational-age (SGA) births ( Ahmer et al., 2024 ). Urban settings appeared to enhance the protective effects of greenspace on birth outcomes ( Browning et al., 2022 ). There was no evidence that socioeconomic status (SES) was an effect modifier ( Rigolon et al., 2021 ). Cardiovascular and metabolic outcomes Cardiovascular and metabolic outcomes were examined in 17 reviews ( Aarthi et al., 2023 ; Bianconi et al., 2023 ; Browning et al., 2022 ; Ccami-Bernal et al., 2023 ; De la Fuente et al., 2021 ; Patwary et al., 2024 ; Piva et al., 2024 ; Qiu et al., 2022 ; Rahimi-Ardabili et al., 2021 ; Rigolon et al., 2021 ; Rojas-Rueda et al., 2021 ; Siah et al., 2023 ; Tharrey & Darmon, 2021 ; Ye et al., 2022 ; Yi et al., 2022 ; Yuan et al., 2021 ; Zhao et al., 2022 ). Higher greenspace exposure was associated with a lower incidence of diabetes mellitus ( Ccami-Bernal et al., 2023 ; Rahimi-Ardabili et al., 2021 ) and reduced risk of type 2 diabetes mellitus (T2DM) ( De la Fuente et al., 2021 ). However, Aarthi et al. (2023) reported inconsistent evidence for this association. Greenspace exposure also showed inverse relationships with CVD, ischaemic heart disease (IHD), acute myocardial infarction (AMI), and stroke morbidity, except when greenspace was measured via tree canopy exposure ( Bianconi et al., 2023 ). Forest-based interventions were beneficially associated with systolic blood pressure (SBP) and diastolic blood pressure (DBP) in some reviews ( Piva et al., 2024 ; Qiu et al., 2022 ; Zhao et al., 2022 ) while others found no notable effects ( Siah et al., 2023 ; Yi et al., 2022 ). Zhao et al. (2022) reported associations between NDVI and blood pressure (BP)/hypertension at buffers of 100m (OR = 0.91, 95%CI: 0.86, 0.97), 250-300m (OR = 0.98, 95%CI: 0.97, 0.99), 500m (OR = 0.94, 95%CI: 0.94, 0.95), and 1000m (OR = 0.98, 95%CI: 0.97, 0.99), but other systematic reviews reported inconsistent ( Ye et al., 2022 ) or inadequate evidence ( Tharrey & Darmon, 2021 ) on BP outcomes. An increase in NDVI within a 500m buffer was associated with lower odds of metabolic syndrome (MetS) ( Patwary et al., 2024 ). Heart rate (HR) showed minimal ( Piva et al., 2024 ) or no change ( Rahimi-Ardabili et al., 2021 ; Siah et al., 2023 ) in response to greenspace exposure. Greenspace exposure was linked to reduced CVD risk, but evidence on stroke and myocardial infarction remained inconsistent ( Yuan et al., 2021 ). Evidence suggested that beneficial effects of greenspace on cardiovascular outcomes were stronger in urban areas than in less urban areas ( Browning et al., 2022 ). Benefits were also larger for individuals with lower SES compared to those with higher SES ( Rigolon et al., 2021 ). Respiratory health and allergies A total of 12 reviews addressed respiratory health and allergies ( Browning et al., 2022 ; Cao et al., 2023 ; Gao et al., 2024 ; Piva et al., 2024 ; Rahimi-Ardabili et al., 2021 ; Rigolon et al., 2021 ; Rojas-Rueda et al., 2021 ; Tang et al., 2023 ; Tharrey & Darmon, 2021 ; Wang et al., 2022 ; Wu et al., 2022 ; Ye et al., 2022 ). Higher residential greenness at birth was associated with lower odds of allergic rhinitis (AR) in childhood (OR = 0.83, 95%CI: 0.72, 0.96) ( Wang et al., 2022 ) and lower odds of current asthma when measured within a 500m buffer ( Wang et al., 2022 ). Similarly, a 0.1-unit increment in NDVI was associated with a reduced risk of asthma incidence ( Tang et al., 2023 ). However, other reviews found no associations between greenspace exposure and AR ( Cao et al., 2023 ; Wu et al., 2022 ; Ye et al., 2022 ) or asthma ( Wu et al., 2022 ; Ye et al., 2022 ). Greenspace exposure demonstrated beneficial associations with lung function in children ( Ye et al., 2022 ) and in individuals with chronic obstructive pulmonary disorder (COPD) ( Gao et al., 2024 ). Mixed findings were reported for overall respiratory outcomes ( Rahimi-Ardabili et al., 2021 ), atopic dermatitis ( Wang et al., 2022 ), and food allergies ( Wang et al., 2022 ). Inadequate evidence was noted in other reviews ( Piva et al., 2024 ; Rojas-Rueda et al., 2021 ; Tharrey & Darmon, 2021 ). Urbanicity and SES did not modify the association between greenspace and respiratory health and atopic diseases ( Browning et al., 2022 ; Rigolon et al., 2021 ). Cancer The association between greenspace exposure and cancer was explored in eight reviews ( Browning et al., 2022 ; Li et al., 2023 ; Masdor et al., 2023 ; Rahimi-Ardabili et al., 2021 ; Rigolon et al., 2021 ; Tang et al., 2023 ; Ye et al., 2022 ; Zare Sakhvidi, Yang, et al., 2022b ). Tang et al. (2023) reported that a 0.1-unit increment in NDVI was associated with a reduced risk of lung cancer incidence, although high heterogeneity was observed across studies. Insufficient evidence was found for an association between greenspace exposure and colorectal cancer ( Li et al., 2023 ; Masdor et al., 2023 ), lung cancer ( Rahimi-Ardabili et al., 2021 ; Zare Sakhvidi, Yang, et al., 2022b ), breast cancer ( Zare Sakhvidi, Yang, et al., 2022b ), prostate cancer ( Zare Sakhvidi, Yang, et al., 2022b ), and all-site cancer ( Li et al., 2023 ) based on both quantitative and qualitative syntheses. Li et al. (2023) highlighted inconsistent findings for prostate, lung, breast, bladder, and skin cancers, further underscoring the need for more robust and comprehensive research to clarify the role of greenspace exposure in cancer outcomes. Other reviews were limited by insufficient evidence ( Browning et al., 2022 ; Rigolon et al., 2021 ; Ye et al., 2022 ). General health and quality of life General health and QoL were assessed in 12 reviews ( Briggs et al., 2022 ; Lampert et al., 2021 ; Li & Lange, 2023 ; Piva et al., 2024 ; Rahimi-Ardabili et al., 2021 ; Rigolon et al., 2021 ; Rojas-Rueda et al., 2021 ; Siah et al., 2023 ; Sivak et al., 2021 ; Tharrey & Darmon, 2021 ; Ye et al., 2022 ; Yi et al., 2022 ). Forest bathing was linked to enhanced QoL ( Siah et al., 2023 ), while forest therapy demonstrated associations with improved physiological parameters ( Piva et al., 2024 ). Visits to parks with a companion (PR [prevalence ratio] = 1.12, 95% CI: 1.01–1.25) and the condition of trees in parks (PR = 1.20, 95% CI: 1.07–1.34) were also positively associated with QoL ( Rojas-Rueda et al., 2021 ). However, evidence regarding forest therapy and QoL was mixed ( Yi et al., 2022 ). Li and Lange (2023) found that passive exposure to greenspace or light physical activity in green settings reduced physical stress. Gardening interventions were associated with better physical health ( Lampert et al., 2021 ) and wellbeing (SMD [standardised mean difference] = 0.37, 95% CI: 0.01, 0.73) ( Briggs et al., 2022 ). However, evidence on gardening and physiological health was mixed ( Tharrey & Darmon, 2021 ), and no association was observed with health-related QoL ( Briggs et al., 2022 ). In narrative synthesis, greenspace exposure was linked to improved general and physical health but not frailty, disability, or chronic diseases ( Rahimi-Ardabili et al., 2021 ). Rigolon et al. (2021) identified SES as an important modifier in the relationship between greenspace and general health. Evidence on the risk of physical injury ( Sivak et al., 2021 ), hospital admission ( Ye et al., 2022 ), and sleep quality/sufficiency ( Ye et al., 2022 ) was limited. All-cause and cause-specific mortality All-cause and cause-specific mortality was examined in 12 reviews ( Bianconi et al., 2023 ; Bolanis et al., 2024 ; Browning et al., 2022 ; Li et al., 2023 ; Masdor et al., 2023 ; Rahimi-Ardabili et al., 2021 ; Rigolon et al., 2021 ; Rojas-Rueda et al., 2021 ; Tang et al., 2023 ; Yuan et al., 2021 ; Zagnoli et al., 2022 ; Zare Sakhvidi, Yang, et al., 2022b ). Incremental increases in NDVI were associated with reduced mortality risks from lung cancer ( Li et al., 2023 ), prostate cancer ( Li et al., 2023 ), and COPD ( Tang et al., 2023 ). Bianconi et al. (2023) reported that urban greenspace was associated with a reduced risk of CVD, IHD, and cerebrovascular disease (CBVD) mortality. Greenspace also showed a favourable association with childhood mortality ( Rojas-Rueda et al., 2021 ). The protective association between greenspace and suicide mortality was stronger in females than males ( Bolanis et al., 2024 ) and the association with all-cause mortality was stronger in urban than less urban areas ( Browning et al., 2022 ). Inconsistent or insufficient evidence was reported for associations with mortality due to prostate cancer ( Li et al., 2023 ; Masdor et al., 2023 ), lung cancer ( Tang et al., 2023 ), oesophageal cancer ( Zare Sakhvidi, Yang, et al., 2022b ), all-cause cancer ( Yuan et al., 2021 ), stroke ( Yuan et al., 2021 ), dementia ( Zagnoli et al., 2022 ), and all-cause mortality ( Rahimi-Ardabili et al., 2021 ). Other health outcomes A total of seven reviews explored health outcomes which did not fit the above categories ( Chae et al., 2021 ; Piva et al., 2024 ; Qiu et al., 2022 ; Rahimi-Ardabili et al., 2021 ; Sivak et al., 2021 ; Ye et al., 2022 ; Y. D. Zhang et al., 2024b ). Forest therapy was associated with an increase in natural killer (NK) cell counts and activity, as well as changes in cytotoxic effector molecules and proinflammatory cytokines ( Chae et al., 2021 ). It also decreased serum cortisol concentration (SCC) in participants who underwent forest therapy compared to urban controls (MD [mean difference] = -0.07, 95%CI: -1.10, -0.04), though high heterogeneity (I 2 = 83.9%) was noted ( Qiu et al., 2022 ). Walking in forests was associated with improved neurochemical markers, including reductions in interleukin-6 (IL-6) and tumor necrosis factor alpha (TNF-α) levels ( Piva et al., 2024 ). Rahimi-Ardabili et al. (2021) linked greenspace exposure to a lower incidence of dysentery but an increased incidence of malaria, dengue fever, and tuberculosis in China. However, these conclusions were constrained by limited original studies. Protective trends were suggested for infections, myopia, and astigmatism, though insufficient evidence precluded definitive conclusions ( Ye et al., 2022 ). Vacant lots with greenspace were associated with elevated blood lead levels in children and increased rates of mosquitos carrying West Nile Virus ( Sivak et al., 2021 ). Connections between vacant lots and dermatophytosis and toxocariasis were also indicated ( Sivak et al., 2021 ). Y. D. Zhang et al. (2024b) reported that greenspace exposure was positively associated with the diversity and composition of gut and skin microbiota. It was also linked to an increase in probiotics and a reduction in pathogens, but evidence for nasal, ocular, and oral microbiota was inconclusive ( Y. D. Zhang et al., 2024b ). Quantitative data summary While this review did not conduct quantitative synthesis, Table 5 provides a comprehensive list of the quantitative measures reported across the systematic reviews. Effect estimates based on more than one original study were listed in this table. Table 5. Listing of quantitative data from included reviews' meta-analyses. Outcome Review article No. of original studies included Exposure measure Effect measure Estimate (95%CI a ) from meta-analysis Mental health and cognitive function Dementia Zagnoli et al. (2022) 6 NDVI b RR c 0.98 (0.90, 1.06) 6 Land use/land change 0.99 (0.93, 1.05) Y. Zhang et al. (2024a) 8 Any greenspace exposure OR d 0.95 (0.93, 0.96) 5 NDVI 0.95 (0.94, 0.96) 3 Area of greenspace 0.93 (0.84, 1.03) Dementia/cognitive impairment Zhao et al. (2021) 8 Residential greenness OR 0.97 (0.95, 1.00) 4 0.96 (0.95, 0.98) Cognitive impairment Zagnoli et al. (2022) 2 Land use/land change RR 1.47 (1.22, 1.76) Depression Briggs et al. (2022) 8 Gardening SMD e -0.43 (-0.79, -0.06) Kang et al. (2022) 5 Forest therapy SMD 1.36 (0.55, 2.17) Siah et al. (2023) 10 Forest bathing SMD -0.67 (-0.99, -0.35) Yi et al. (2022) 4 Forest therapy SMD -1.46 (-2.80, -0.12) Y. Zhang et al. (2024a) 37 Any greenspace exposure Any greenspace exposure OR 0.89 (0.86, 0.93) 35 0.96 (0.94, 0.97) 5 View of greenery 0.89 (0.74, 1.06) 16 NDVI 0.95 (0.91, 0.98) 19 Area of greenspace 0.97 (0.94, 1.01) 3 Green space accessibility 0.85 (0.67, 1.08) 3 Parks 1.00 (0.99, 1.00) 4 Other greenspace exposures f 0.88 (0.83, 0.94) Anxiety Briggs et al. (2022) 5 Gardening SMD -0.42 (-1.00, 0.16) Kang et al. (2022) 5 Forest therapy SMD 0.88 (0.18, 1.58) Siah et al. (2023) 7 Forest bathing SMD -0.84 (-1.42, -0.25) X. Zhang et al. (2022c) 24 Natural environment SMD -1.28 (-1.65, -0.92) Y. Zhang et al. (2024a) 14 Any greenspace exposure OR 0.94 (0.92, 0.96) 9 Any greenspace exposure 0.94 (0.91, 0.97) 3 View of greenery 0.84 (0.78, 0.91) 2 Area of greenspace 0.98 (0.93, 1.03) 3 NDVI 0.95 (0.92, 0.98) 2 Other greenspace exposures g 0.93 (0.85, 1.03) Stress Briggs et al. (2022) 3 Gardening SMD -0.17 (-0.68, 0.35) ADHD h Y. Zhang et al. (2024a) 5 Any greenspace exposure OR 0.89 (0.86, 0.92) Positive emotions Kang et al. (2022) 4 Forest therapy SMD 0.91 (0.34, 1.47) Negative emotions Kang et al. (2022) 3 Forest therapy SMD 1.37(0.81, 1.93) Psychiatric disorders Y. Zhang et al. (2024a) 58 Any greenspace exposure OR 0.91 (0.89, 0.92) Schizophrenia Y. Zhang et al. (2024a) 5 Any greenspace exposure OR 0.74 (0.67, 0.82) 5 Any greenspace exposure 0.75 (0.69, 0.81) 3 NDVI 0.72 (0.64, 0.82) 3 Area of greenspace 0.77 (0.70, 0.85) Overall mental health Kang et al. (2022) 6 Forest therapy SMD 1.25 (0.93, 1.57) Tu (2022) 18 Horticultural therapy Hedge’s g 0.55 (0.38, 0.72) Maternal health and birth outcomes Birthweight Ahmer et al. (2024) 8 NDVI 250m buffer beta standardised regression coefficient 8.95 (1.63, 16.27) 8 NDVI 250m buffer 9.86 (1.91, 17.81) 11 NDVI 500m buffer 12.83 (4.69, 20.97) 13 NDVI 250m & 500m buffer 11.18 (5.69, 16.67) Low birth weight Ahmer et al. (2024) 6 NDVI 250m buffer OR 0.97 (0.96, 0.98) Cardiovascular and metabolic outcomes Systolic blood pressure Qiu et al. (2022) 20 Forest therapy MD i -3.44 (-5.74, -1.14) Siah et al. (2023) 13 Forest bathing MD -1.66 (-4.30, 0.97) Yi et al. (2022) 6 Forest therapy MD -0.24 (-2.70, 2.23) Zhao et al. (2022) 5 Overall greenspace beta standardised regression coefficient -0.77 (-1.23, -0.32) Diastolic blood pressure Qiu et al. (2022) 21 Forest therapy MD -3.07 (-5.59, -0.54) Siah et al. (2023) 13 Forest bathing MD -3.09 (-7.52, 1.34) Yi et al. (2022) 5 Forest therapy MD 0.94 (-3.20, 5.07) Zhao et al. (2022) 5 Overall greenspace beta standardised regression coefficient -0.32 (-0.57, -0.07) Blood pressure/hypertension Zhao et al. (2022) 4 NDVI 100m buffer OR 0.91 (0.86, 0.97) 5 NDVI 250/300m buffer 0.98 (0.97, 0.99) 10 NDVI 500m buffer 0.94 (0.93, 0.95) 4 NDVI 1000m buffer 0.98 (0.97, 0.99) 4 Proportion of greenspace 0.99 (0.99, 1.00) 4 Distance to greenspace 1.03 (0.96, 1.10) Heart rate Siah et al. (2023) 5 Forest bathing MD -0.42 (-3.32, 2.49) Metabolic syndrome Patwary et al. (2024) 4 NDVI 500m buffer OR 0.90 (0.87, 0.93) Respiratory health and allergies Asthma Tang et al. (2023) 9 NDVI 200-300m buffer RR 0.92 (0.86, 0.98) 9 NDVI 500m buffer 0.93 (0.85, 1.01) 8 NDVI 1000m buffer 0.87 (0.81, 0.93) Ye et al. (2022) 10 NDVI OR 0.94 (0.84, 1.05) Current asthma Wang et al. (2022) 3 NDVI 100m buffer OR 1.02 (0.90, 1.14) 3 NDVI 100-500m buffer 0.94 (0.78, 1.13) 4 NDVI 500m buffer 0.88 (0.78, 0.99) 4 NDVI 1000m buffer 0.94 (0.86, 1.02) 4 NDVI 100-1000m buffer 0.94 (0.88, 1.00) Wu et al. (2022) 3 NDVI >0-100m buffer OR 0.98 (0.90, 1.07) 6 NDVI >100-300m buffer 0.99 (0.91, 1.07) 6 NDVI >300-500m buffer 1.00 (0.91, 1.09) 6 NDVI >500-1000m buffer 0.98 (0.90, 1.08) Ever had asthma Wu et al. (2022) 4 NDVI >0-100m buffer OR 1.04 (0.92, 1.16) 4 NDVI >100-300m buffer 1.00 (0.99, 1.02) 3 NDVI >300-500m buffer 1.04 (0.90, 1.22) Asthma incidence Tang et al. (2023) 9 NDVI RR 0.92 (0.85, 0.98) Asthma prevalence Tang et al. (2023) 4 NDVI RR 0.89 (0.74, 1.08) COPD j Tang et al. (2023) 4 NDVI 500m buffer RR 0.95 (0.89, 1.02) 3 NDVI 1000m buffer 0.92 (0.83, 1.03) COPD incidence Tang et al. (2023) 2 NDVI RR 0.92 (0.83, 1.03) COPD prevalence Tang et al. (2023) 2 NDVI RR 1.00 (0.90, 1.12) Allergic rhinitis Cao et al. (2023) 5 NDVI 100m buffer OR 1.00 (1.00, 1.00) 2 NDVI 200m buffer 1.00 (0.99, 1.01) 3 NDVI 250m buffer 1.00 (1.00, 1.00) 3 NDVI 300m buffer 1.00 (0.99, 1.02) 5 NDVI 500m buffer 0.99 (0.97, 1.01) 2 NDVI 1000m buffer 0.99 (0.97, 1.01) 11 NDVI 100-1000m buffer 1.00 (0.99, 1.00) Tang et al. (2023) 5 NDVI 200-300m buffer RR 1.02 (0.95, 1.09) 7 NDVI 500m buffer 0.99 (0.94, 1.03) 4 NDVI 1000m buffer 0.99 (0.91, 1.06) Wang et al. (2022) 2 NDVI 100m buffer OR 0.65 (0.27, 1.55) 3 NDVI 100-500m buffer 0.75 (0.59, 0.95) 2 NDVI 500m buffer 0.91 (0.70, 1.19) 4 NDVI 0.83 (0.72, 0.96) Wu et al. (2022) 3 NDVI 100m buffer OR 0.98 (0.95, 1.02) 5 NDVI 500m buffer 0.99 (0.94, 1.04) 3 NDVI 1000m buffer 1.00 (0.95, 1.05) Ye et al. (2022) 7 NDVI 0.95 (0.85, 1.06) Allergic rhinitis incidence Tang et al. (2023) 6 NDVI RR 1.02 (0.97, 1.08) Allergic rhinitis prevalence Tang et al. (2023) 2 NDVI RR 0.91 (0.64, 0.95) Cancer All-site cancer Li et al. (2023) 6 NDVI HR k 0.98 (0.95, 1.01) Prostate cancer Li et al. (2023) 4 NDVI HR 0.95 (0.85, 1.05) Zare Sakhvidi, Yang, et al. (2022b) 2 NDVI OR/RR 0.91 (0.69, 1.20) 2 HR 0.98 (0.69, 1.40) Colorectal cancer Li et al. (2023) 2 NDVI HR 1.00 (0.96, 1.04) Bladder cancer Li et al. (2023) 2 NDVI HR 0.83 (0.45, 1.53) Breast cancer Li et al. (2023) 5 NDVI HR 0.95 (0.90, 1.01) Zare Sakhvidi, Yang, et al. (2022b) 2 NDVI OR/RR 1.01 (0.80, 1.27) 2 HR 0.83 (0.47, 1.48) Lung cancer Li et al. (2023) 3 NDVI HR 0.97 (0.95, 0.98) Tang et al. (2023) 5 NDVI RR 0.62 (0.40, 0.95) 3 NDVI 500m buffer 0.70 (0.46, 1.06) 2 NDVI 1000m buffer 0.20 (0.01, 4.48) Zare Sakhvidi, Yang, et al. (2022b) 4 NDVI IRR l 0.99 (0.85, 1.48) 2 NDVI HR 1.00 (0.87, 1.38) 2 NDVI OR/RR 1.00 (0.84, 1.20) Skin cancer Li et al. (2023) 2 NDVI HR 0.86 (0.57, 1.30) General health and quality of life Quality of life Briggs et al. (2022) 7 Gardening SMD -0.06 (-0.45, 0.34) Overall wellbeing Briggs et al. (2022) 4 Gardening SMD 0.37 (0.01, 0.73) All-cause and cause-specific mortality All-cause mortality Yuan et al. (2021) 8 NDVI HR 0.99 (0.97, 1.00) Cardiovascular mortality Bianconi et al. (2023) 6 NDVI HR 0.94 (0.91, 0.97) Yuan et al. (2021) 4 NDVI HR 0.99 (0.89, 1.09) Ischaemic heart disease mortality Bianconi et al. (2023) 5 NDVI HR 0.96 (0.93, 0.99) Yuan et al. (2021) 3 NDVI HR 0.96 (0.88, 1.05) Stroke mortality Yuan et al. (2021) 4 NDVI HR 0.77 (0.59, 1.00) Cerebrovascular disease mortality Bianconi et al. (2023) 5 NDVI HR 0.96 (0.94, 0.97) Respiratory mortality Yuan et al. (2021) 5 NDVI HR 0.99 (0.89, 1.10) COPD mortality Tang et al. (2023) 3 NDVI RR 0.95 (0.92, 0.99) 2 NDVI 1000m buffer 0.93 (0.88, 0.98) Lung cancer mortality Li et al. (2023) 4 NDVI HR 0.97 (0.95, 0.98) Tang et al. (2023) 6 NDVI RR 0.98 (0.96, 1.01) 5 NDVI 250-300m buffer 0.98 (0.94, 1.01) 4 NDVI 1000m buffer 0.98 (0.94, 1.03) Other health outcomes Salivary cortisol concentration Qiu et al. (2022) 13 Forest therapy MD -0.07 (-0.10, -0.04) a 95% CI: 95% confidence interval; b NDVI: Normalised differential vegetation index; c RR: Risk ratio; d OR: Odds ratio; e SMD: Standardised mean difference; f Encompasses residential greenness and decreased visits to greenspace; g Encompasses number of neighbourhood parks, distance to useable green space, distance to total green space proportion of useable green space within 300m, proportion of total green space within 300m, proportion of useable green space within 3km, and proportion of total green space within 3km; h ADHD: Attention deficit hyperactivity disorder; i MD: Mean difference; j COPD: Chronic obstructive pulmonary disorder; k HR: Hazard ratio; l IRR: Incidence rate ratios. Quality of evidence and risk of bias Of the 45 systematic reviews included, most exhibited a high risk of bias (n = 35, 77.8%) ( Figure 1 ; extended data: Supplementary Table S2) and critically low quality (n = 36, 80.0%) ( Table 6 ; extended data: Supplementary Figure S1). Only one review was deemed high quality ( Piva et al., 2024 ). Figure 1. Risk of bias assessment of included reviews using ROBIS. Rows 1-4 show judgements on individual criteria while the bottom row shows the overall risk of bias. Table 6. Methodological quality assessment of included systematic reviews using AMSTAR-2. Question number a 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Quality Author, Year Aarthi et al. (2023) Y b PY N PY Y N N PY NA/PY N N/NA N Y Y N Y CL Ahmer et al. (2024) Y Y N N Y Y N PY NA/N N NA/Y Y Y Y Y Y CL Batterham et al. (2022) Y N N PY Y Y N N NA/N N NA/NA NA Y N NA N CL Bianconi et al. (2023) Y Y N PY Y N N PY NA/PY N NA/Y Y Y Y Y Y L Bolanis et al. (2024) Y PY N PY Y Y N PY N/PY N NA/NA NA Y Y NA Y CL Briggs et al. (2022) Y Y Y PY Y Y N Y Y/NA N Y/NA Y Y Y N Y CL Browning et al. (2022) Y N N N Y Y N N NA/N N NA/NA NA Y N NA Y CL Cao et al. (2023) Y N N PY Y Y N PY NA/Y Y NA/Y Y Y Y Y Y CL Ccami-Bernal et al. (2023) Y PY N PY Y Y N PY NA/PY N NA/NA NA Y Y NA Y L Chae et al. (2021) Y N N N N Y N PY Y/PY N NA/NA NA N N NA Y CL Chen et al. (2022) Y N N PY Y N Y PY NA/Y N NA/NA NA Y N NA Y L De la Fuente et al. (2021) Y N N PY Y Y N N NA/PY N NA/NA NA Y N NA Y CL Gao et al. (2024) Y PY N PY Y Y N PY Y/PY N NA/NA NA N Y NA Y CL Hsueh et al. (2022) Y PY N PY N N N N NA/PY N NA/NA NA Y Y NA Y L Kang et al. (2022) Y N N PY N N N N Y/NA N N/NA N Y Y Y Y CL Lampert et al. (2021) Y N N PY Y Y N N NA/PY N NA/NA NA N N NA Y CL Li et al. (2023) Y Y Y PY Y Y Y PY NA/PY Y NA/Y N Y Y N Y L Li and Lange (2023) Y N N N Y N N N N/N N NA/NA NA N N NA Y CL Masdor et al. (2023) Y PY N PY Y Y N PY NA/PY N NA/NA NA Y Y NA N L Patwary et al. (2024) Y Y Y PY Y Y Y PY NA/Y Y NA/Y Y Y Y Y Y H Piva et al. (2024) Y N N PY Y N N PY N/N N NA/NA NA Y N NA Y CL Qiu et al. (2022) Y N Y PY Y N N PY Y/PY N Y/N Y Y Y Y Y CL Rahimi-Ardabili et al. (2021) Y N N PY Y N N PY Y/PY N NA/NA NA N Y NA Y CL Ricciardi et al. (2022) Y N N PY N N N N NA/PY N NA/NA NA Y N NA Y CL Rigolon et al. (2021) Y N N PY Y Y N N PY/PY N NA/NA NA Y N NA Y CL Rojas-Rueda et al. (2021) Y N Y PY Y Y N N NA/PY N NA/NA NA N Y NA Y CL Siah et al. (2023) Y N N PY Y Y N PY PY/N N Y/N N N Y N Y CL Sivak et al. (2021) Y N N PY Y N N N N/N N NA/NA NA N N NA N CL Tang et al. (2023) Y Y N N Y Y N PY NA/PY N NA/Y N N Y Y Y CL Tharrey and Darmon (2021) Y N N PY N N N PY N/PY N NA/NA NA Y N NA Y CL Tu (2022) Y N Y PY N Y N PY PY/NA N Y/NA Y Y Y Y Y CL Wang et al. (2022) Y N N N Y Y N PY NA/PY N NA/Y Y N Y Y Y CL Wu et al. (2022) Y Y N PY Y Y N PY NA/Y Y NA/Y Y Y Y Y Y L Ye et al. (2022) Y N Y PY Y Y N PY NA/PY N NA/Y N Y N N N CL Yi et al. (2022) Y N N PY N N N N Y/NA N Y/NA N N N N Y CL Yuan et al. (2021) Y Y N N Y Y N PY NA/PY N NA/Y Y N Y Y Y CL Zagnoli et al. (2022) Y N N PY Y N N PY NA/Y N NA/Y Y N Y N Y CL Zare Sakhvidi, Knobel, et al. (2022a) Y N N PY Y N Y PY NA/PY N NA/NA NA Y Y NA Y L Zare Sakhvidi, Yang, et al. (2022b) Y Y N PY Y N Y N NA/PY Y NA/Y N Y Y N Y CL Zhang et al. (2021) Y N N N N N N PY NA/PY N NA/NA NA N Y NA Y CL Y. Zhang et al. (2024a) Y N N N N N N PY NA/PY N NA/Y Y Y Y Y Y CL Y. D. Zhang et al. (2024b) Y N N N Y Y N PY N/Y Y NA/NA NA Y Y NA Y CL X. Zhang et al. (2022c) Y N N PY Y Y N PY PY/N N Y/N Y N Y Y Y CL Zhao et al. (2022) Y Y N N Y Y N PY NA/Y Y NA/N Y Y Y Y Y CL Zhao et al. (2021) Y N N PY Y Y N PY NA/PY N NA/Y Y Y Y Y Y CL a 1: Participant, Intervention, Comparison, Outcome (PICO) components, 2: Pre-established protocol, 3: Explanation of included studies’ design, 4: Comprehensive search strategy, 5: Study selection in duplicate, 6: Data extraction in duplicate, 7: List of excluded studies with justification, 8: Description of included studies, 9: Assessment of risk of bias (RoB) in included studies, 10: Funding sources of included studies, 11: Use of appropriate statistical methods, 12: RoB impact on synthesised results, 13: Results interpretation with RoB reference, 14: Heterogeneity explanation, 15: Publication/small study bias investigation, 16: Conflict of interest declaration. b Y = Yes; PY= Partial Yes; N = No; NA = Not applicable (no meta-analysis conducted); CL = Critically low; L = Low; H = High. Discussion This umbrella review builds on prior work ( Bryer et al., 2024 ), highlighting growing interest in the relationship between greenspace exposure and human health ( Farkas et al., 2023 ). By summarising findings from 45 systematic reviews published since December 2020, we offer a comprehensive and updated overview of health outcomes linked to greenspace exposure. The results reflect both the breadth of outcomes investigated and the variability in evidence across health domains. We found beneficial associations between greenspace exposure and a range of health outcomes categories, particularly mental health ( Bonaccorsi et al., 2023 ; Cuijpers et al., 2023 ; Zare Sakhvidi et al., 2023 ), QoL ( Bonaccorsi et al., 2023 ), and cardiovascular health ( Liu et al., 2023 ), which were consistent with earlier studies. Compared to our previous umbrella review, which summarised studies published up to December 2020, this review observed stronger associations for cardiovascular and metabolic health, as well as general health and QoL. This review also revealed that favourable effects for birth outcomes, cardiovascular health, and mortality were more pronounced in urban areas than in less urban areas ( Browning et al., 2022 ). Likewise, associations between greenspace and general and cardiovascular health were more pronounced among individuals with a lower SES than those with a higher SES ( Rigolon et al., 2021 ). This suggests that greenspace is likely to function as a buffer against urban stressors and contribute to reducing health disparities ( Bressane et al., 2024 ; Heo & Bell, 2023 ). However, we found more inconsistent evidence for all-cause mortality, cognitive function, and cancer outcomes than in our previous review. This shift in the evidence may reflect the expansion of research in some domains. Systematic reviews examining respiratory outcomes such as asthma and AR presented mixed findings - some reporting protective effects, others showing null or conflicting associations. Similar inconsistencies were noted in prior umbrella reviews ( Yang et al., 2021 ; Zare Sakhvidi et al., 2023 ). These inconsistencies may be attributable to variability in study designs, greenspace measures, and definitions of health outcomes across original studies. Limited and inconclusive evidence was also observed for maternal health and birth outcomes (beyond BW and PTB) ( Xie et al., 2024 ) and cancer outcomes ( Yang et al., 2021 ), restricting the strength of conclusions in these domains. Since our previous review ( Bryer et al., 2024 ), we have observed a notable increase in the number of randomised controlled trials (RCTs) evaluating greenspace interventions, particularly in relation to mental health and psychological stress. Commonly studied interventions include forest bathing, community gardening, and nature-based therapy. Although RCTs remain less prevalent in environmental health than observational designs, their emergence represents a positive shift ( Pynegar et al., 2021 ). Unlike observational designs, which are susceptible to residual confounding and reverse causality, RCTs allow causal inference. Therefore, the findings are more convincing for urban planning and public health interventions ( Gale et al., 2023 ). Nonetheless, limitations persist. Many RCTs to date have small sample sizes, short durations, and lack blinding of participants and assessors, which may reduce internal validity ( Pynegar et al., 2021 ). In addition, the heterogeneity in intervention types, duration, and intensity makes synthesis challenging. Despite these issues, the upward trend in RCTs underscores a growth in the evidence on how greenspace interventions can promote mental health and well-being. Modest shifts in greenspace exposure measures since our previous umbrella review were also identified. While NDVI remained the most commonly used measure, proximity to greenspace and percentage-based metrics slightly declined since our previous review. Notably, other satellite-derived indices such as the EVI and SAVI were more frequently used. Both of our umbrella reviews highlight the wide, heterogeneous range of greenspace exposure measures used which proves to be an ongoing challenge in cross-study comparability ( Freymueller et al., 2024 ). Compared to our previous umbrella review, this review identified a wider breadth of health outcomes studied in relation to greenspace exposure, nearly doubling the number of health outcomes examined. In the previous review, only four systematic reviews focused on cancer outcomes, covering a limited range of cancer types. In contrast, this review identified twice as many studies on cancer, encompassing a broader spectrum of cancer types, including colorectal, breast, and oral cancers. The number of other health outcomes also grew substantially to include communicable diseases such as tuberculosis, dengue, and malaria, reflecting an increasing interest in the relationship between greenspace and infectious disease burden. This notable expansion corroborates the growing volume of research in this field ( Farkas et al., 2023 ). Despite these advancements, a decline in the overall quality of systematic reviews has been observed since the onset of the COVID-19 pandemic ( Baumeister et al., 2021 ). Several systematic reviews included in this umbrella review lacked one or more of the following: preregistered protocols, comprehensive and reproducible search strategies, and adequate reporting of risk of bias and synthesis methods. These shortcomings reflect key departures from established best practices outlined in the ROBIS ( Whiting et al., 2016 ) and AMSTAR-2 guidelines ( Shea et al., 2017 ). This raises concerns about the reliability of recent evidence and underscores the need for high-quality systematic reviews. The strengths of this umbrella review lie in its comprehensive approach. By conducting an extensive search across five databases, it captures a broader and more diverse range of studies compared to prior reviews ( Cuijpers et al., 2023 ; Xie et al., 2024 ; Yang et al., 2021 ; Zare Sakhvidi et al., 2023 ). The inclusion of both quantitative and qualitative evidence offers a more holistic understanding of the association between greenspace exposure and health outcomes and addresses limitations of earlier reviews that focus on quantitative data ( Xie et al., 2024 ). Another strength of this umbrella review is its exclusive focus on health outcomes, rather than upstream determinants such as physical activity or social cohesion. This focus ensures clearer attribution of health effects to greenspace exposure itself. Mechanisms underlying the health benefits of greenspace exposure remain a critical area of inquiry. Moderators such as urbanicity and SES were explored by Browning et al. (2022) and Rigolon et al. (2021) , respectively. However, mediators such as increased social cohesion ( Elliott et al., 2023 ; L. Zhang et al., 2022b ) and decreased environmental stressors ( Chen et al., 2021 ; Wang & Tassinary, 2024 ) have been investigated in other studies. For mental health and cognitive function outcomes, interventions like community gardening and forest therapy may enhance social cohesion ( J. Zhang et al., 2022a ) and promote relaxation ( Zhang et al., 2021 ). Social interaction facilitated by greenspaces can foster community bonds and reduce feelings of isolation, further contributing to mental well-being and cognitive function ( Nawrath et al., 2022 ). The aesthetic qualities of greenspaces, such as visual greenery, may also stimulate positive psychological responses ( Nawrath et al., 2022 ). There are a variety of other mechanisms for the association between greenspace and human health outcomes. For cardiovascular and metabolic health, greenspaces may reduce exposure to environmental stressors such as heat and noise, while promoting independent or group physical activities ( Cardinali et al., 2023 ; Keith et al., 2024 ; Pan et al., 2024 ). These activities not only improve physical fitness but also regulate blood pressure, cholesterol levels, and glucose metabolism ( Keith et al., 2024 ). Additionally, greenspaces may improve air quality by reducing particulate matter and other pollutants, leading to better respiratory ( Li et al., 2024 ) and cardiovascular ( Qiu et al., 2021 ) health. Investigation of causal pathways is needed to gain a thorough understanding of these mechanisms. The combined findings of our umbrella reviews have important implications for urban planning and public health policies. Increasing access to greenspace, particularly in urban and socioeconomically disadvantaged areas, could be a simple and cost-effective strategy to improve population health and reduce health inequalities ( Bressane et al., 2024 ; Rigolon et al., 2021 ). Integration of greenspace into healthcare interventions, such as green prescriptions has increased ( Kondo et al., 2020 ) and should continue to be prioritised alongside other initiatives including urban greening projects and preservation of existing greenspaces ( Bikomeye et al., 2021 ). Author contributions Brittnee Bryer: methodology, validation, formal analysis, investigation, data curation, writing – original draft, writing – review & editing, visualisation. Nicholas Osborne: conceptualisation, validation, methodology, writing – review & editing, supervision. Jialu Wang: investigation, data curation, validation, writing – review & editing. Rajarshi Dasgupta: validation, writing – review & editing. Gail Williams: conceptualisation, methodology, writing – review & editing, supervision. Darsy Darssan: conceptualisation, methodology, validation, formal analysis, investigation, data curation, writing – original draft, writing – review & editing, visualisation, supervision, project administration. Data availability Underlying data All data underlying the results are available as part of the article and no additional source data are required. Extended data Open Science Framework (OSF): Greenspace exposure and associated health outcomes: an updated systematic review of reviews. Supplementary Material. DOI: http://doi.org/10.17605/OSF.IO/XPZCJ This project contains the following extended data: • Supplementary Table S1. (Literature search strategies) • Supplementary Table S2. (Risk of bias assessment by domain) • Supplementary Figure S1: (Overall methodological quality) • Supplementary File S1. (Systematic reviews excluded during full-text screening) Reporting guidelines Open Science Framework (OSF): PRISMA checklist and flow chart for Greenspace exposure and associated health outcomes: an updated systematic review of reviews. DOI: 10.17605/OSF.IO/XPZCJ Data are available under the terms of the Creative Commons Attribution 4.0 International license (CC-BY 4.0). Software availability Endnote version 20 was used as a reference management tool in this study ( The EndNote Team, 2013 ). A free alternative to Endnote is Zotero ( Zotero, 2024 ). Covidence was used to streamline eligibility screening and data extraction in this study ( Covidence systematic review software, 2022 ). A free alternative to Covidence in Rayyan ( Ouzzani et al., 2016 ). References Aarthi GR, Mehreen Begum TS, Moosawi SA, et al. : Associations of the built environment with type 2 diabetes in Asia: a systematic review. BMJ Open. 2023; 13 (4): e065431. 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Reference Source Comments on this article Comments (0) Version 2 VERSION 2 PUBLISHED 24 Jul 2025 ADD YOUR COMMENT Comment Author details Author details 1 The University of Queensland School of Public Health, Herston, Queensland, Australia 2 School of Population Health, University of New South Wales, Sydney, New South Wales, Australia 3 European Centre for Environment and Human Health, University of Exeter Medical School, Exeter, England, UK 4 Queensland University of Technology School of Public Health and Social Work, Kelvin Grove, Queensland, Australia 5 School of Public Policy, Indian Institute of Technology, Delhi, New Delhi, India Brittnee Bryer Roles: Data Curation, Formal Analysis, Investigation, Methodology, Validation, Visualization, Writing – Original Draft Preparation, Writing – Review & Editing Nicholas J Osborne Roles: Conceptualization, Methodology, Supervision, Validation, Writing – Review & Editing Jialu Wang Roles: Data Curation, Investigation, Validation, Writing – Review & Editing Rajarshi Dasgupta Roles: Validation, Writing – Review & Editing Gail Williams Roles: Conceptualization, Methodology, Supervision, Writing – Review & Editing Darsy Darssan Roles: Conceptualization, Data Curation, Formal Analysis, Investigation, Methodology, Project Administration, Supervision, Validation, Visualization, Writing – Original Draft Preparation, Writing – Review & Editing Competing interests No competing interests were disclosed. Grant information The author(s) declared that no grants were involved in supporting this work. Article Versions (2) version 2 Revised Published: 18 Apr 2026, 14:726 https://doi.org/10.12688/f1000research.166852.2 version 1 Published: 24 Jul 2025, 14:726 https://doi.org/10.12688/f1000research.166852.1 Copyright © 2025 Bryer B et al . This is an open access article distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Download Export To Sciwheel Bibtex EndNote ProCite Ref. Manager (RIS) Sente metrics Views Downloads F1000Research - - PubMed Central info_outline Data from PMC are received and updated monthly. - - Citations open_in_new 0 open_in_new 0 open_in_new SEE MORE DETAILS CITE how to cite this article Bryer B, Osborne NJ, Wang J et al. Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.12688/f1000research.166852.1 ) NOTE: If applicable, it is important to ensure the information in square brackets after the title is included in all citations of this article. COPY CITATION DETAILS track receive updates on this article Track an article to receive email alerts on any updates to this article. TRACK THIS ARTICLE Share Open Peer Review Current Reviewer Status: ? Key to Reviewer Statuses VIEW HIDE Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions Version 1 VERSION 1 PUBLISHED 24 Jul 2025 Views 0 Cite How to cite this report: Soerensen A. Reviewer Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.183900.r444035 ) The direct URL for this report is: https://f1000research.com/articles/14-726/v1#referee-response-444035 NOTE: it is important to ensure the information in square brackets after the title is included in this citation. Close Copy Citation Details Reviewer Report 13 Jan 2026 Anna Soerensen , Hasselt University, Hasselt, Belgium Approved with Reservations VIEWS 0 https://doi.org/10.5256/f1000research.183900.r444035 Thank you for giving me the opportunity to review the manuscript entitled “Greenspace exposure and associated health outcomes: an updated systematic review of reviews”. This umbrella review provides an overview of the latest reviews within the field of green space exposure ... Continue reading READ ALL Thank you for giving me the opportunity to review the manuscript entitled “Greenspace exposure and associated health outcomes: an updated systematic review of reviews”. This umbrella review provides an overview of the latest reviews within the field of green space exposure and health outcomes. Overall, the manuscript succeeds in providing this overview and clearly reflects the substantial effort invested in its preparation. It also highlights the important observation that the vast majority of included systematic reviews and meta-analyses are of low quality. Additionally, the structure and writing are clear and well organized, making the manuscript a pleasure to read. However, I do have some comments. Major comments: The search strategy is not entirely clear. Referring to your previous review article gives the impression that the full search strategy can be found there. For instance, in your previous review you state: “To ensure that relevant systematic reviews were retrieved, we also conducted forward and backward reference searching on screened reviews, as well as manual searching of reference lists of relevant reviews”, which makes it unclear whether this was also conducted for the current manuscript. I would also recommend explicitly stating that the search terms and strategies can be found in Supplementary Table S1, and perhaps providing a few examples of the search terms used. This is a well-conducted umbrella review, but it would be markedly strengthened by an assessment of study overlap. If no assessment of study overlap is conducted, I would suggest including a statement in the limitations section and/or providing a rationale for why this was not considered relevant. Including age groups and geographical location in Table 1 would further strengthen the manuscript, particularly as coverage across all age groups is one of the rationales for conducting this review. Minor comments: The abstract is well written, to the point, and correctly summarizes the findings of the manuscript. My only suggestion is to add “green space” and " greenness " as keywords, if possible. In the methods section, I would appreciate clarification regarding “iv) reported health outcome(s) directly attributable to greenspace exposure” . The results section has a logical flow and is easy to follow. However, I am missing a definition of “overall greenspace exposure” and “forest-based interventions” . It is not clear which types of studies are included under these terms. On page 4, the sentence “with mediating factors such as air quality, perceived stress, and physical activity identified (Zhang et al., 2021)” is included, but Zhang et al. (2021) is not mentioned in the preceding sentence, making it unclear which type of green space exposure they assessed. I would consider adding one or two sentences at the end of each outcome subsection summarizing the overall findings. Almost all outcome subsections include at least one review article that does not align with the findings of the other reviews, which makes it difficult to determine whether there is an overall effect. While you do summarize the main findings and conclusions in the discussion, I believe it would be helpful to include such summary statements throughout the results section, for example at the end of the “Cardiovascular and metabolic outcomes” subsection. The findings suggesting that associations may be moderated by SES, urbanicity, or related contextual factors are interesting and add nuance to the results. However, as this aspect was not described in the methods section, its inclusion in the results came somewhat unexpectedly. Clarifying this in the methods and/or presenting these findings in a dedicated subsection of the results would improve readability On page 34, you state: “Similarly, a 0.1-unit increment in NDVI was associated with a reduced risk of asthma incidence (Tang et al., 2023)” , which gives the impression that an odds ratio or another effect estimate is missing. On page 35, “Gardening interventions were associated with better physical health” was stated. Could you clarify how physical health was defined? Are the rationale for, and objectives of, the Systematic Review clearly stated? Yes Are sufficient details of the methods and analysis provided to allow replication by others? Partly Is the statistical analysis and its interpretation appropriate? Yes Are the conclusions drawn adequately supported by the results presented in the review? Partly If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) Not applicable Competing Interests: No competing interests were disclosed. Reviewer Expertise: Environmental epidemiology I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. Close READ LESS CITE CITE HOW TO CITE THIS REPORT Soerensen A. Reviewer Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.183900.r444035 ) The direct URL for this report is: https://f1000research.com/articles/14-726/v1#referee-response-444035 NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article. COPY CITATION DETAILS Report a concern Author Response 18 Apr 2026 Darsy Darssan , The University of Queensland School of Public Health, Herston, Australia 18 Apr 2026 Author Response We are thankful for your thorough and valuable comments on our manuscript. We have carefully reviewed and integrated your recommendations to the extent possible. Thank you for giving me ... Continue reading We are thankful for your thorough and valuable comments on our manuscript. We have carefully reviewed and integrated your recommendations to the extent possible. Thank you for giving me the opportunity to review the manuscript entitled “Greenspace exposure and associated health outcomes: an updated systematic review of reviews”. This umbrella review provides an overview of the latest reviews within the field of green space exposure and health outcomes. Overall, the manuscript succeeds in providing this overview and clearly reflects the substantial effort invested in its preparation. It also highlights the important observation that the vast majority of included systematic reviews and meta-analyses are of low quality. Additionally, the structure and writing are clear and well organized, making the manuscript a pleasure to read. However, I do have some comments. Major comments: 1. The search strategy is not entirely clear. Referring to your previous review article gives the impression that the full search strategy can be found there. For instance, in your previous review you state: “To ensure that relevant systematic reviews were retrieved, we also conducted forward and backward reference searching on screened reviews, as well as manual searching of reference lists of relevant reviews”, which makes it unclear whether this was also conducted for the current manuscript. I would also recommend explicitly stating that the search terms and strategies can be found in Supplementary Table S1, and perhaps providing a few examples of the search terms used. We have updated the methods section to ensure that the location of the search strategy is stated more explicitly. 2. This is a well-conducted umbrella review, but it would be markedly strengthened by an assessment of study overlap. If no assessment of study overlap is conducted, I would suggest including a statement in the limitations section and/or providing a rationale for why this was not considered relevant. We have calculated the CCA value and have added this and its interpretation to the article. 3. Including age groups and geographical location in Table 1 would further strengthen the manuscript, particularly as coverage across all age groups is one of the rationales for conducting this review. We have added the age range studies in each systematic review to the fifth column of Table 1. We have also added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Minor comments: 1. The abstract is well written, to the point, and correctly summarizes the findings of the manuscript. My only suggestion is to add “green space” and " greenness " as keywords, if possible. Thank you for this suggestion. 2. In the methods section, I would appreciate clarification regarding “iv) reported health outcome(s) directly attributable to greenspace exposure”. We have clarified this criterion in the methods section by noting that eligible reviews needed to examine health outcomes specifically attributable to greenspace exposure, independent of blue space. 3. The results section has a logical flow and is easy to follow. However, I am missing a definition of “overall greenspace exposure” and “forest-based interventions”. It is not clear which types of studies are included under these terms. We have added an explanation of what these terms encompass. 4. On page 4, the sentence “with mediating factors such as air quality, perceived stress, and physical activity identified (Zhang et al., 2021)” is included, but Zhang et al. (2021) is not mentioned in the preceding sentence, making it unclear which type of green space exposure they assessed. We have revised this section to improve clarity. 5. I would consider adding one or two sentences at the end of each outcome subsection summarizing the overall findings. Almost all outcome subsections include at least one review article that does not align with the findings of the other reviews, which makes it difficult to determine whether there is an overall effect. While you do summarize the main findings and conclusions in the discussion, I believe it would be helpful to include such summary statements throughout the results section, for example at the end of the “Cardiovascular and metabolic outcomes” subsection. We have added a sentence at the end of each health outcome section to summarise the results. 6. The findings suggesting that associations may be moderated by SES, urbanicity, or related contextual factors are interesting and add nuance to the results. However, as this aspect was not described in the methods section, its inclusion in the results came somewhat unexpectedly. Clarifying this in the methods and/or presenting these findings in a dedicated subsection of the results would improve readability The findings related to SES and urbanicity as moderators of the association between greenspace and human health outcomes were not part of the predefined objectives of the umbrella review. For this reason, we have not added them to the methods section or expanded their presentation in the results section. We have kept them only as brief contextual notes to avoid over‑interpreting the evidence. 7. On page 34, you state: “Similarly, a 0.1-unit increment in NDVI was associated with a reduced risk of asthma incidence (Tang et al., 2023)”, which gives the impression that an odds ratio or another effect estimate is missing. We have added the effect estimate for this association. 8. On page 35, “Gardening interventions were associated with better physical health” was stated. Could you clarify how physical health was defined? Physical health was generally self-reported and encompassed perceived general health, acute health complaints, physical constraints, and chronic illnesses. We are thankful for your thorough and valuable comments on our manuscript. We have carefully reviewed and integrated your recommendations to the extent possible. Thank you for giving me the opportunity to review the manuscript entitled “Greenspace exposure and associated health outcomes: an updated systematic review of reviews”. This umbrella review provides an overview of the latest reviews within the field of green space exposure and health outcomes. Overall, the manuscript succeeds in providing this overview and clearly reflects the substantial effort invested in its preparation. It also highlights the important observation that the vast majority of included systematic reviews and meta-analyses are of low quality. Additionally, the structure and writing are clear and well organized, making the manuscript a pleasure to read. However, I do have some comments. Major comments: 1. The search strategy is not entirely clear. Referring to your previous review article gives the impression that the full search strategy can be found there. For instance, in your previous review you state: “To ensure that relevant systematic reviews were retrieved, we also conducted forward and backward reference searching on screened reviews, as well as manual searching of reference lists of relevant reviews”, which makes it unclear whether this was also conducted for the current manuscript. I would also recommend explicitly stating that the search terms and strategies can be found in Supplementary Table S1, and perhaps providing a few examples of the search terms used. We have updated the methods section to ensure that the location of the search strategy is stated more explicitly. 2. This is a well-conducted umbrella review, but it would be markedly strengthened by an assessment of study overlap. If no assessment of study overlap is conducted, I would suggest including a statement in the limitations section and/or providing a rationale for why this was not considered relevant. We have calculated the CCA value and have added this and its interpretation to the article. 3. Including age groups and geographical location in Table 1 would further strengthen the manuscript, particularly as coverage across all age groups is one of the rationales for conducting this review. We have added the age range studies in each systematic review to the fifth column of Table 1. We have also added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Minor comments: 1. The abstract is well written, to the point, and correctly summarizes the findings of the manuscript. My only suggestion is to add “green space” and " greenness " as keywords, if possible. Thank you for this suggestion. 2. In the methods section, I would appreciate clarification regarding “iv) reported health outcome(s) directly attributable to greenspace exposure”. We have clarified this criterion in the methods section by noting that eligible reviews needed to examine health outcomes specifically attributable to greenspace exposure, independent of blue space. 3. The results section has a logical flow and is easy to follow. However, I am missing a definition of “overall greenspace exposure” and “forest-based interventions”. It is not clear which types of studies are included under these terms. We have added an explanation of what these terms encompass. 4. On page 4, the sentence “with mediating factors such as air quality, perceived stress, and physical activity identified (Zhang et al., 2021)” is included, but Zhang et al. (2021) is not mentioned in the preceding sentence, making it unclear which type of green space exposure they assessed. We have revised this section to improve clarity. 5. I would consider adding one or two sentences at the end of each outcome subsection summarizing the overall findings. Almost all outcome subsections include at least one review article that does not align with the findings of the other reviews, which makes it difficult to determine whether there is an overall effect. While you do summarize the main findings and conclusions in the discussion, I believe it would be helpful to include such summary statements throughout the results section, for example at the end of the “Cardiovascular and metabolic outcomes” subsection. We have added a sentence at the end of each health outcome section to summarise the results. 6. The findings suggesting that associations may be moderated by SES, urbanicity, or related contextual factors are interesting and add nuance to the results. However, as this aspect was not described in the methods section, its inclusion in the results came somewhat unexpectedly. Clarifying this in the methods and/or presenting these findings in a dedicated subsection of the results would improve readability The findings related to SES and urbanicity as moderators of the association between greenspace and human health outcomes were not part of the predefined objectives of the umbrella review. For this reason, we have not added them to the methods section or expanded their presentation in the results section. We have kept them only as brief contextual notes to avoid over‑interpreting the evidence. 7. On page 34, you state: “Similarly, a 0.1-unit increment in NDVI was associated with a reduced risk of asthma incidence (Tang et al., 2023)”, which gives the impression that an odds ratio or another effect estimate is missing. We have added the effect estimate for this association. 8. On page 35, “Gardening interventions were associated with better physical health” was stated. Could you clarify how physical health was defined? Physical health was generally self-reported and encompassed perceived general health, acute health complaints, physical constraints, and chronic illnesses. Competing Interests: No competing interests. Close Report a concern Respond or Comment COMMENTS ON THIS REPORT Author Response 18 Apr 2026 Darsy Darssan , The University of Queensland School of Public Health, Herston, Australia 18 Apr 2026 Author Response We are thankful for your thorough and valuable comments on our manuscript. We have carefully reviewed and integrated your recommendations to the extent possible. Thank you for giving me ... Continue reading We are thankful for your thorough and valuable comments on our manuscript. We have carefully reviewed and integrated your recommendations to the extent possible. Thank you for giving me the opportunity to review the manuscript entitled “Greenspace exposure and associated health outcomes: an updated systematic review of reviews”. This umbrella review provides an overview of the latest reviews within the field of green space exposure and health outcomes. Overall, the manuscript succeeds in providing this overview and clearly reflects the substantial effort invested in its preparation. It also highlights the important observation that the vast majority of included systematic reviews and meta-analyses are of low quality. Additionally, the structure and writing are clear and well organized, making the manuscript a pleasure to read. However, I do have some comments. Major comments: 1. The search strategy is not entirely clear. Referring to your previous review article gives the impression that the full search strategy can be found there. For instance, in your previous review you state: “To ensure that relevant systematic reviews were retrieved, we also conducted forward and backward reference searching on screened reviews, as well as manual searching of reference lists of relevant reviews”, which makes it unclear whether this was also conducted for the current manuscript. I would also recommend explicitly stating that the search terms and strategies can be found in Supplementary Table S1, and perhaps providing a few examples of the search terms used. We have updated the methods section to ensure that the location of the search strategy is stated more explicitly. 2. This is a well-conducted umbrella review, but it would be markedly strengthened by an assessment of study overlap. If no assessment of study overlap is conducted, I would suggest including a statement in the limitations section and/or providing a rationale for why this was not considered relevant. We have calculated the CCA value and have added this and its interpretation to the article. 3. Including age groups and geographical location in Table 1 would further strengthen the manuscript, particularly as coverage across all age groups is one of the rationales for conducting this review. We have added the age range studies in each systematic review to the fifth column of Table 1. We have also added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Minor comments: 1. The abstract is well written, to the point, and correctly summarizes the findings of the manuscript. My only suggestion is to add “green space” and " greenness " as keywords, if possible. Thank you for this suggestion. 2. In the methods section, I would appreciate clarification regarding “iv) reported health outcome(s) directly attributable to greenspace exposure”. We have clarified this criterion in the methods section by noting that eligible reviews needed to examine health outcomes specifically attributable to greenspace exposure, independent of blue space. 3. The results section has a logical flow and is easy to follow. However, I am missing a definition of “overall greenspace exposure” and “forest-based interventions”. It is not clear which types of studies are included under these terms. We have added an explanation of what these terms encompass. 4. On page 4, the sentence “with mediating factors such as air quality, perceived stress, and physical activity identified (Zhang et al., 2021)” is included, but Zhang et al. (2021) is not mentioned in the preceding sentence, making it unclear which type of green space exposure they assessed. We have revised this section to improve clarity. 5. I would consider adding one or two sentences at the end of each outcome subsection summarizing the overall findings. Almost all outcome subsections include at least one review article that does not align with the findings of the other reviews, which makes it difficult to determine whether there is an overall effect. While you do summarize the main findings and conclusions in the discussion, I believe it would be helpful to include such summary statements throughout the results section, for example at the end of the “Cardiovascular and metabolic outcomes” subsection. We have added a sentence at the end of each health outcome section to summarise the results. 6. The findings suggesting that associations may be moderated by SES, urbanicity, or related contextual factors are interesting and add nuance to the results. However, as this aspect was not described in the methods section, its inclusion in the results came somewhat unexpectedly. Clarifying this in the methods and/or presenting these findings in a dedicated subsection of the results would improve readability The findings related to SES and urbanicity as moderators of the association between greenspace and human health outcomes were not part of the predefined objectives of the umbrella review. For this reason, we have not added them to the methods section or expanded their presentation in the results section. We have kept them only as brief contextual notes to avoid over‑interpreting the evidence. 7. On page 34, you state: “Similarly, a 0.1-unit increment in NDVI was associated with a reduced risk of asthma incidence (Tang et al., 2023)”, which gives the impression that an odds ratio or another effect estimate is missing. We have added the effect estimate for this association. 8. On page 35, “Gardening interventions were associated with better physical health” was stated. Could you clarify how physical health was defined? Physical health was generally self-reported and encompassed perceived general health, acute health complaints, physical constraints, and chronic illnesses. We are thankful for your thorough and valuable comments on our manuscript. We have carefully reviewed and integrated your recommendations to the extent possible. Thank you for giving me the opportunity to review the manuscript entitled “Greenspace exposure and associated health outcomes: an updated systematic review of reviews”. This umbrella review provides an overview of the latest reviews within the field of green space exposure and health outcomes. Overall, the manuscript succeeds in providing this overview and clearly reflects the substantial effort invested in its preparation. It also highlights the important observation that the vast majority of included systematic reviews and meta-analyses are of low quality. Additionally, the structure and writing are clear and well organized, making the manuscript a pleasure to read. However, I do have some comments. Major comments: 1. The search strategy is not entirely clear. Referring to your previous review article gives the impression that the full search strategy can be found there. For instance, in your previous review you state: “To ensure that relevant systematic reviews were retrieved, we also conducted forward and backward reference searching on screened reviews, as well as manual searching of reference lists of relevant reviews”, which makes it unclear whether this was also conducted for the current manuscript. I would also recommend explicitly stating that the search terms and strategies can be found in Supplementary Table S1, and perhaps providing a few examples of the search terms used. We have updated the methods section to ensure that the location of the search strategy is stated more explicitly. 2. This is a well-conducted umbrella review, but it would be markedly strengthened by an assessment of study overlap. If no assessment of study overlap is conducted, I would suggest including a statement in the limitations section and/or providing a rationale for why this was not considered relevant. We have calculated the CCA value and have added this and its interpretation to the article. 3. Including age groups and geographical location in Table 1 would further strengthen the manuscript, particularly as coverage across all age groups is one of the rationales for conducting this review. We have added the age range studies in each systematic review to the fifth column of Table 1. We have also added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Minor comments: 1. The abstract is well written, to the point, and correctly summarizes the findings of the manuscript. My only suggestion is to add “green space” and " greenness " as keywords, if possible. Thank you for this suggestion. 2. In the methods section, I would appreciate clarification regarding “iv) reported health outcome(s) directly attributable to greenspace exposure”. We have clarified this criterion in the methods section by noting that eligible reviews needed to examine health outcomes specifically attributable to greenspace exposure, independent of blue space. 3. The results section has a logical flow and is easy to follow. However, I am missing a definition of “overall greenspace exposure” and “forest-based interventions”. It is not clear which types of studies are included under these terms. We have added an explanation of what these terms encompass. 4. On page 4, the sentence “with mediating factors such as air quality, perceived stress, and physical activity identified (Zhang et al., 2021)” is included, but Zhang et al. (2021) is not mentioned in the preceding sentence, making it unclear which type of green space exposure they assessed. We have revised this section to improve clarity. 5. I would consider adding one or two sentences at the end of each outcome subsection summarizing the overall findings. Almost all outcome subsections include at least one review article that does not align with the findings of the other reviews, which makes it difficult to determine whether there is an overall effect. While you do summarize the main findings and conclusions in the discussion, I believe it would be helpful to include such summary statements throughout the results section, for example at the end of the “Cardiovascular and metabolic outcomes” subsection. We have added a sentence at the end of each health outcome section to summarise the results. 6. The findings suggesting that associations may be moderated by SES, urbanicity, or related contextual factors are interesting and add nuance to the results. However, as this aspect was not described in the methods section, its inclusion in the results came somewhat unexpectedly. Clarifying this in the methods and/or presenting these findings in a dedicated subsection of the results would improve readability The findings related to SES and urbanicity as moderators of the association between greenspace and human health outcomes were not part of the predefined objectives of the umbrella review. For this reason, we have not added them to the methods section or expanded their presentation in the results section. We have kept them only as brief contextual notes to avoid over‑interpreting the evidence. 7. On page 34, you state: “Similarly, a 0.1-unit increment in NDVI was associated with a reduced risk of asthma incidence (Tang et al., 2023)”, which gives the impression that an odds ratio or another effect estimate is missing. We have added the effect estimate for this association. 8. On page 35, “Gardening interventions were associated with better physical health” was stated. Could you clarify how physical health was defined? Physical health was generally self-reported and encompassed perceived general health, acute health complaints, physical constraints, and chronic illnesses. Competing Interests: No competing interests. Close Report a concern COMMENT ON THIS REPORT Views 0 Cite How to cite this report: Liu M. Reviewer Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.183900.r433260 ) The direct URL for this report is: https://f1000research.com/articles/14-726/v1#referee-response-433260 NOTE: it is important to ensure the information in square brackets after the title is included in this citation. Close Copy Citation Details Reviewer Report 27 Dec 2025 Mingwei Liu , Huazhong University of Science and Technology, Wuhan, China Approved with Reservations VIEWS 0 https://doi.org/10.5256/f1000research.183900.r433260 The current umbrella review updated the current evidence of the association between greenspace exposure and various health outcomes. The review is conducted in a systematic approach and has a comprehensive coverage of evidence. However, some measures like corrected covered ... Continue reading READ ALL The current umbrella review updated the current evidence of the association between greenspace exposure and various health outcomes. The review is conducted in a systematic approach and has a comprehensive coverage of evidence. However, some measures like corrected covered area (CCA), robustness of evidence, and time scale can be added when synthesizing the evidence. The implications should be more specific. Major 1. Are there reviews of a topic (health outcome) that were identified only in the previous umbrella review you conducted, but not in this updated review? 2. This umbrella review builds upon your previous review. It is good to specify that the previous review included publications between January 2010 and December 2020 at the beginning. 3. Have you considered the overlap of primary studies in the included systematic review? It is usually assessed by a measure of CCA. If some reviews had a high level of overlap of primary studies, you may consider only including one of them. 4. The study should provide the specific search strategy (the combination of search terms) in a supplementary file or clearly refer to where to find it. 5. The methodological quality, risk of bias, and robustness of each evidence are not reported in the Results text. It is clearer to label them alongside the evidence. It is the same for table 1 and table 5. Table 6 can be put into the supplementary file. The overall quality, risk of bias, and robustness of each evidence should be made clear in the corresponding text and tables. 6. What about the robustness of each quantitative evidence? The robustness comprehensively reflects the magnitude of the p-value, the sample size, the heterogeneity, and the risk of bias. There is a simple rule for assessing robustness suggested before. Please refer to the literature below. 1. Aromataris E, Fernandez R, Godfrey CM, Holly C, Khalil H, Tungpunkom P. Summarizing systematic reviews: methodological development, conduct and reporting of an umbrella review approach. Int J Evid Based Healthc 2015;13:132–140. 2. Aromataris E, Fernandez RS, Godfrey CHolly C, Khalil H, Tungpunkom P. Methodology for JBI umbrella reviews 2014;1. 3. Cleophas TJ, Zwinderman AH. Meta-meta-analysis. In: Modern meta-analysis: review and update of methodologies. Cham: Springer International Publishing; 2017, p135–143. 4. Fusar-Poli P, Radua J. Ten simple rules for conducting umbrella reviews. Evid Based Ment Health 2018;21:95–100. 7. Even though the included systematic reviews are different between the current umbrella review and the previous umbrella review, the included original studies (evidence) of the current umbrella review should cover most of the original studies in the previous umbrella review. Because the included systematic review did not set the criteria to include only original studies between December 2020 and June 2024, rather, they should have included earlier original studies. How do you interpret this? The readers should be aware of it when interpreting results. 8. The current review included a wide range of diseases and various study designs. The effective exposure time of green space may vary among diseases. For example, the time scale of the association between green space and CVD is usually years, whereas the time scale of the association between green space and mental health can be days. This should be reported in tables and results. And it could be an interesting discussion point. 9. What is the limitation of the current study? 10. The authors should give more implications for policy and future studies regarding health domains, respectively. Minor 1. In the first paragraph of the Introduction, you said "However, limitations in the methodology of these umbrella reviews have resulted in some gaps in the literature." But not all of the listed reviews are umbrella review. You can consider to rephrase it to "these umbrella or systematic reviews". 2. In the second paragraph of the Introduction, you first said "these reviews often present their findings narratively", then you gave an example review that "focused solely on quantitative results". It is not clear what you suggest from here? Should study include both quantitative and qualitative analyses? Or maybe you want to demonstrate that previous reviews did not include both quantitative and qualitative results. But you should give more example reviews. 3. Some texts are not well cited. For example, in the Discussion section, "Systematic reviews examining respiratory outcomes such as asthma and AR presented mixed findings - some reporting protective effects, others showing null or conflicting associations". Please examine thoroughly to make sure the texts have citations where it is necessary. Are the rationale for, and objectives of, the Systematic Review clearly stated? Partly Are sufficient details of the methods and analysis provided to allow replication by others? Partly Is the statistical analysis and its interpretation appropriate? Yes Are the conclusions drawn adequately supported by the results presented in the review? Yes If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) Not applicable Competing Interests: No competing interests were disclosed. Reviewer Expertise: Environmental epidemiology I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. Close READ LESS CITE CITE HOW TO CITE THIS REPORT Liu M. Reviewer Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.183900.r433260 ) The direct URL for this report is: https://f1000research.com/articles/14-726/v1#referee-response-433260 NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article. COPY CITATION DETAILS Report a concern Author Response 18 Apr 2026 Darsy Darssan , The University of Queensland School of Public Health, Herston, Australia 18 Apr 2026 Author Response We sincerely appreciate the thorough and insightful feedback on the manuscript. We have carefully considered and incorporated your suggestions wherever feasible. The current umbrella review updated the current evidence ... Continue reading We sincerely appreciate the thorough and insightful feedback on the manuscript. We have carefully considered and incorporated your suggestions wherever feasible. The current umbrella review updated the current evidence of the association between greenspace exposure and various health outcomes. The review is conducted in a systematic approach and has a comprehensive coverage of evidence. However, some measures like corrected covered area (CCA), robustness of evidence, and time scale can be added when synthesizing the evidence. The implications should be more specific. Major 1. Are there reviews of a topic (health outcome) that were identified only in the previous umbrella review you conducted, but not in this updated review? While the major health outcome categories remained consistent with those in our previous umbrella review, some individual outcomes did not appear in this umbrella review. These include gestational age, pregnancy complications, head circumference, atherosclerosis, hypotension, oxidative stress, and inflammation markers. However, it is important to note that these outcomes may have been investigated under larger categories, such as overall cardiovascular health and physiological outcomes, by systematic reviews. 2. This umbrella review builds upon your previous review. It is good to specify that the previous review included publications between January 2010 and December 2020 at the beginning. We have added the date range of our previous umbrella review to the methods section. 3. Have you considered the overlap of primary studies in the included systematic review? It is usually assessed by a measure of CCA. If some reviews had a high level of overlap of primary studies, you may consider only including one of them. We have calculated the CCA value and have added this and its interpretation to the results section under Quality of Evidence and Risk of Bias. 4. The study should provide the specific search strategy (the combination of search terms) in a supplementary file or clearly refer to where to find it. The full search strategy is available in the extended data section (per the F1000 guidelines) as Supplementary Table 1. We have added a sentence in the methods section to make finding the full search strategy clearer. 5. The methodological quality, risk of bias, and robustness of each evidence are not reported in the Results text. It is clearer to label them alongside the evidence. It is the same for table 1 and table 5. Table 6 can be put into the supplementary file. The overall quality, risk of bias, and robustness of each evidence should be made clear in the corresponding text and tables. Because quality and risk‑of‑bias ratings apply to the systematic reviews as a whole (not to each specific outcome), linking them directly to individual findings could be misleading. For this reason, we present these assessments separately and discuss their implications in the narrative synthesis. 6. What about the robustness of each quantitative evidence? The robustness comprehensively reflects the magnitude of the p-value, the sample size, the heterogeneity, and the risk of bias. There is a simple rule for assessing robustness suggested before. Please refer to the literature below. Aromataris E, Fernandez R, Godfrey CM, Holly C, Khalil H, Tungpunkom P. Summarizing systematic reviews: methodological development, conduct and reporting of an umbrella review approach. Int J Evid Based Healthc 2015;13:132–140. Aromataris E, Fernandez RS, Godfrey CHolly C, Khalil H, Tungpunkom P. Methodology for JBI umbrella reviews 2014;1. Cleophas TJ, Zwinderman AH. Meta-meta-analysis. In: Modern meta-analysis: review and update of methodologies. Cham: Springer International Publishing; 2017, p135–143. Fusar-Poli P, Radua J. Ten simple rules for conducting umbrella reviews. Evid Based Ment Health 2018;21:95–100. We assessed the methodological quality and risk of bias of all included systematic reviews using both AMSTAR-2 and ROBIS. These validated tools evaluate key domains relevant to the robustness of evidence, including risk of bias, heterogeneity, and overall methodological rigour. The references above primarily recommend critical appraisal of the included systematic reviews and transparent reporting of heterogeneity, potential biases, and study characteristics. None of these sources explicitly mandates an additional composite "robustness" index that integrates p-value magnitude, sample size, heterogeneity, and risk of bias for each quantitative result beyond standard quality appraisal tools. 7. Even though the included systematic reviews are different between the current umbrella review and the previous umbrella review, the included original studies (evidence) of the current umbrella review should cover most of the original studies in the previous umbrella review. Because the included systematic review did not set the criteria to include only original studies between December 2020 and June 2024, rather, they should have included earlier original studies. How do you interpret this? The readers should be aware of it when interpreting results. We have added a discussion of this to the limitations section of the discussion. 8. The current review included a wide range of diseases and various study designs. The effective exposure time of green space may vary among diseases. For example, the time scale of the association between green space and CVD is usually years, whereas the time scale of the association between green space and mental health can be days. This should be reported in tables and results. And it could be an interesting discussion point. We agree that exposure timeframes may differ across diseases. However, many of the systematic reviews included in our umbrella review do not report exposure duration and deriving or assigning exposure timeframes would require re‑interpreting primary studies, which is beyond the scope of an umbrella review. For these reasons, we have not added exposure‑time information to the tables or results. 9. What is the limitation of the current study? We have added a paragraph to more explicitly discuss the limitations of this umbrella review. 10. The authors should give more implications for policy and future studies regarding health domains, respectively. While we agree that policy and research implications are important, it is difficult to provide meaningful domain‑specific implications without content analysis of existing policy worldwide. Minor 1. In the first paragraph of the Introduction, you said "However, limitations in the methodology of these umbrella reviews have resulted in some gaps in the literature." But not all of the listed reviews are umbrella review. You can consider to rephrase it to "these umbrella or systematic reviews". We have adjusted the wording in this section for clarity. 2. In the second paragraph of the Introduction, you first said "these reviews often present their findings narratively", then you gave an example review that "focused solely on quantitative results". It is not clear what you suggest from here? Should study include both quantitative and qualitative analyses? Or maybe you want to demonstrate that previous reviews did not include both quantitative and qualitative results. But you should give more example reviews. This paragraph has been revised for clarity. 3. Some texts are not well cited. For example, in the Discussion section, "Systematic reviews examining respiratory outcomes such as asthma and AR presented mixed findings – some reporting protective effects, others showing null or conflicting associations". Please examine thoroughly to make sure the texts have citations where it is necessary. The statement in question summarises findings that are already fully referenced in the Results section. Because the Discussion section synthesises previously cited material rather than introducing new evidence, we have not repeated citations here. However, we have re‑checked the manuscript to ensure that all statements requiring citation are appropriately referenced. We sincerely appreciate the thorough and insightful feedback on the manuscript. We have carefully considered and incorporated your suggestions wherever feasible. The current umbrella review updated the current evidence of the association between greenspace exposure and various health outcomes. The review is conducted in a systematic approach and has a comprehensive coverage of evidence. However, some measures like corrected covered area (CCA), robustness of evidence, and time scale can be added when synthesizing the evidence. The implications should be more specific. Major 1. Are there reviews of a topic (health outcome) that were identified only in the previous umbrella review you conducted, but not in this updated review? While the major health outcome categories remained consistent with those in our previous umbrella review, some individual outcomes did not appear in this umbrella review. These include gestational age, pregnancy complications, head circumference, atherosclerosis, hypotension, oxidative stress, and inflammation markers. However, it is important to note that these outcomes may have been investigated under larger categories, such as overall cardiovascular health and physiological outcomes, by systematic reviews. 2. This umbrella review builds upon your previous review. It is good to specify that the previous review included publications between January 2010 and December 2020 at the beginning. We have added the date range of our previous umbrella review to the methods section. 3. Have you considered the overlap of primary studies in the included systematic review? It is usually assessed by a measure of CCA. If some reviews had a high level of overlap of primary studies, you may consider only including one of them. We have calculated the CCA value and have added this and its interpretation to the results section under Quality of Evidence and Risk of Bias. 4. The study should provide the specific search strategy (the combination of search terms) in a supplementary file or clearly refer to where to find it. The full search strategy is available in the extended data section (per the F1000 guidelines) as Supplementary Table 1. We have added a sentence in the methods section to make finding the full search strategy clearer. 5. The methodological quality, risk of bias, and robustness of each evidence are not reported in the Results text. It is clearer to label them alongside the evidence. It is the same for table 1 and table 5. Table 6 can be put into the supplementary file. The overall quality, risk of bias, and robustness of each evidence should be made clear in the corresponding text and tables. Because quality and risk‑of‑bias ratings apply to the systematic reviews as a whole (not to each specific outcome), linking them directly to individual findings could be misleading. For this reason, we present these assessments separately and discuss their implications in the narrative synthesis. 6. What about the robustness of each quantitative evidence? The robustness comprehensively reflects the magnitude of the p-value, the sample size, the heterogeneity, and the risk of bias. There is a simple rule for assessing robustness suggested before. Please refer to the literature below. Aromataris E, Fernandez R, Godfrey CM, Holly C, Khalil H, Tungpunkom P. Summarizing systematic reviews: methodological development, conduct and reporting of an umbrella review approach. Int J Evid Based Healthc 2015;13:132–140. Aromataris E, Fernandez RS, Godfrey CHolly C, Khalil H, Tungpunkom P. Methodology for JBI umbrella reviews 2014;1. Cleophas TJ, Zwinderman AH. Meta-meta-analysis. In: Modern meta-analysis: review and update of methodologies. Cham: Springer International Publishing; 2017, p135–143. Fusar-Poli P, Radua J. Ten simple rules for conducting umbrella reviews. Evid Based Ment Health 2018;21:95–100. We assessed the methodological quality and risk of bias of all included systematic reviews using both AMSTAR-2 and ROBIS. These validated tools evaluate key domains relevant to the robustness of evidence, including risk of bias, heterogeneity, and overall methodological rigour. The references above primarily recommend critical appraisal of the included systematic reviews and transparent reporting of heterogeneity, potential biases, and study characteristics. None of these sources explicitly mandates an additional composite "robustness" index that integrates p-value magnitude, sample size, heterogeneity, and risk of bias for each quantitative result beyond standard quality appraisal tools. 7. Even though the included systematic reviews are different between the current umbrella review and the previous umbrella review, the included original studies (evidence) of the current umbrella review should cover most of the original studies in the previous umbrella review. Because the included systematic review did not set the criteria to include only original studies between December 2020 and June 2024, rather, they should have included earlier original studies. How do you interpret this? The readers should be aware of it when interpreting results. We have added a discussion of this to the limitations section of the discussion. 8. The current review included a wide range of diseases and various study designs. The effective exposure time of green space may vary among diseases. For example, the time scale of the association between green space and CVD is usually years, whereas the time scale of the association between green space and mental health can be days. This should be reported in tables and results. And it could be an interesting discussion point. We agree that exposure timeframes may differ across diseases. However, many of the systematic reviews included in our umbrella review do not report exposure duration and deriving or assigning exposure timeframes would require re‑interpreting primary studies, which is beyond the scope of an umbrella review. For these reasons, we have not added exposure‑time information to the tables or results. 9. What is the limitation of the current study? We have added a paragraph to more explicitly discuss the limitations of this umbrella review. 10. The authors should give more implications for policy and future studies regarding health domains, respectively. While we agree that policy and research implications are important, it is difficult to provide meaningful domain‑specific implications without content analysis of existing policy worldwide. Minor 1. In the first paragraph of the Introduction, you said "However, limitations in the methodology of these umbrella reviews have resulted in some gaps in the literature." But not all of the listed reviews are umbrella review. You can consider to rephrase it to "these umbrella or systematic reviews". We have adjusted the wording in this section for clarity. 2. In the second paragraph of the Introduction, you first said "these reviews often present their findings narratively", then you gave an example review that "focused solely on quantitative results". It is not clear what you suggest from here? Should study include both quantitative and qualitative analyses? Or maybe you want to demonstrate that previous reviews did not include both quantitative and qualitative results. But you should give more example reviews. This paragraph has been revised for clarity. 3. Some texts are not well cited. For example, in the Discussion section, "Systematic reviews examining respiratory outcomes such as asthma and AR presented mixed findings – some reporting protective effects, others showing null or conflicting associations". Please examine thoroughly to make sure the texts have citations where it is necessary. The statement in question summarises findings that are already fully referenced in the Results section. Because the Discussion section synthesises previously cited material rather than introducing new evidence, we have not repeated citations here. However, we have re‑checked the manuscript to ensure that all statements requiring citation are appropriately referenced. Competing Interests: No competing interests. Close Report a concern Respond or Comment COMMENTS ON THIS REPORT Author Response 18 Apr 2026 Darsy Darssan , The University of Queensland School of Public Health, Herston, Australia 18 Apr 2026 Author Response We sincerely appreciate the thorough and insightful feedback on the manuscript. We have carefully considered and incorporated your suggestions wherever feasible. The current umbrella review updated the current evidence ... Continue reading We sincerely appreciate the thorough and insightful feedback on the manuscript. We have carefully considered and incorporated your suggestions wherever feasible. The current umbrella review updated the current evidence of the association between greenspace exposure and various health outcomes. The review is conducted in a systematic approach and has a comprehensive coverage of evidence. However, some measures like corrected covered area (CCA), robustness of evidence, and time scale can be added when synthesizing the evidence. The implications should be more specific. Major 1. Are there reviews of a topic (health outcome) that were identified only in the previous umbrella review you conducted, but not in this updated review? While the major health outcome categories remained consistent with those in our previous umbrella review, some individual outcomes did not appear in this umbrella review. These include gestational age, pregnancy complications, head circumference, atherosclerosis, hypotension, oxidative stress, and inflammation markers. However, it is important to note that these outcomes may have been investigated under larger categories, such as overall cardiovascular health and physiological outcomes, by systematic reviews. 2. This umbrella review builds upon your previous review. It is good to specify that the previous review included publications between January 2010 and December 2020 at the beginning. We have added the date range of our previous umbrella review to the methods section. 3. Have you considered the overlap of primary studies in the included systematic review? It is usually assessed by a measure of CCA. If some reviews had a high level of overlap of primary studies, you may consider only including one of them. We have calculated the CCA value and have added this and its interpretation to the results section under Quality of Evidence and Risk of Bias. 4. The study should provide the specific search strategy (the combination of search terms) in a supplementary file or clearly refer to where to find it. The full search strategy is available in the extended data section (per the F1000 guidelines) as Supplementary Table 1. We have added a sentence in the methods section to make finding the full search strategy clearer. 5. The methodological quality, risk of bias, and robustness of each evidence are not reported in the Results text. It is clearer to label them alongside the evidence. It is the same for table 1 and table 5. Table 6 can be put into the supplementary file. The overall quality, risk of bias, and robustness of each evidence should be made clear in the corresponding text and tables. Because quality and risk‑of‑bias ratings apply to the systematic reviews as a whole (not to each specific outcome), linking them directly to individual findings could be misleading. For this reason, we present these assessments separately and discuss their implications in the narrative synthesis. 6. What about the robustness of each quantitative evidence? The robustness comprehensively reflects the magnitude of the p-value, the sample size, the heterogeneity, and the risk of bias. There is a simple rule for assessing robustness suggested before. Please refer to the literature below. Aromataris E, Fernandez R, Godfrey CM, Holly C, Khalil H, Tungpunkom P. Summarizing systematic reviews: methodological development, conduct and reporting of an umbrella review approach. Int J Evid Based Healthc 2015;13:132–140. Aromataris E, Fernandez RS, Godfrey CHolly C, Khalil H, Tungpunkom P. Methodology for JBI umbrella reviews 2014;1. Cleophas TJ, Zwinderman AH. Meta-meta-analysis. In: Modern meta-analysis: review and update of methodologies. Cham: Springer International Publishing; 2017, p135–143. Fusar-Poli P, Radua J. Ten simple rules for conducting umbrella reviews. Evid Based Ment Health 2018;21:95–100. We assessed the methodological quality and risk of bias of all included systematic reviews using both AMSTAR-2 and ROBIS. These validated tools evaluate key domains relevant to the robustness of evidence, including risk of bias, heterogeneity, and overall methodological rigour. The references above primarily recommend critical appraisal of the included systematic reviews and transparent reporting of heterogeneity, potential biases, and study characteristics. None of these sources explicitly mandates an additional composite "robustness" index that integrates p-value magnitude, sample size, heterogeneity, and risk of bias for each quantitative result beyond standard quality appraisal tools. 7. Even though the included systematic reviews are different between the current umbrella review and the previous umbrella review, the included original studies (evidence) of the current umbrella review should cover most of the original studies in the previous umbrella review. Because the included systematic review did not set the criteria to include only original studies between December 2020 and June 2024, rather, they should have included earlier original studies. How do you interpret this? The readers should be aware of it when interpreting results. We have added a discussion of this to the limitations section of the discussion. 8. The current review included a wide range of diseases and various study designs. The effective exposure time of green space may vary among diseases. For example, the time scale of the association between green space and CVD is usually years, whereas the time scale of the association between green space and mental health can be days. This should be reported in tables and results. And it could be an interesting discussion point. We agree that exposure timeframes may differ across diseases. However, many of the systematic reviews included in our umbrella review do not report exposure duration and deriving or assigning exposure timeframes would require re‑interpreting primary studies, which is beyond the scope of an umbrella review. For these reasons, we have not added exposure‑time information to the tables or results. 9. What is the limitation of the current study? We have added a paragraph to more explicitly discuss the limitations of this umbrella review. 10. The authors should give more implications for policy and future studies regarding health domains, respectively. While we agree that policy and research implications are important, it is difficult to provide meaningful domain‑specific implications without content analysis of existing policy worldwide. Minor 1. In the first paragraph of the Introduction, you said "However, limitations in the methodology of these umbrella reviews have resulted in some gaps in the literature." But not all of the listed reviews are umbrella review. You can consider to rephrase it to "these umbrella or systematic reviews". We have adjusted the wording in this section for clarity. 2. In the second paragraph of the Introduction, you first said "these reviews often present their findings narratively", then you gave an example review that "focused solely on quantitative results". It is not clear what you suggest from here? Should study include both quantitative and qualitative analyses? Or maybe you want to demonstrate that previous reviews did not include both quantitative and qualitative results. But you should give more example reviews. This paragraph has been revised for clarity. 3. Some texts are not well cited. For example, in the Discussion section, "Systematic reviews examining respiratory outcomes such as asthma and AR presented mixed findings – some reporting protective effects, others showing null or conflicting associations". Please examine thoroughly to make sure the texts have citations where it is necessary. The statement in question summarises findings that are already fully referenced in the Results section. Because the Discussion section synthesises previously cited material rather than introducing new evidence, we have not repeated citations here. However, we have re‑checked the manuscript to ensure that all statements requiring citation are appropriately referenced. We sincerely appreciate the thorough and insightful feedback on the manuscript. We have carefully considered and incorporated your suggestions wherever feasible. The current umbrella review updated the current evidence of the association between greenspace exposure and various health outcomes. The review is conducted in a systematic approach and has a comprehensive coverage of evidence. However, some measures like corrected covered area (CCA), robustness of evidence, and time scale can be added when synthesizing the evidence. The implications should be more specific. Major 1. Are there reviews of a topic (health outcome) that were identified only in the previous umbrella review you conducted, but not in this updated review? While the major health outcome categories remained consistent with those in our previous umbrella review, some individual outcomes did not appear in this umbrella review. These include gestational age, pregnancy complications, head circumference, atherosclerosis, hypotension, oxidative stress, and inflammation markers. However, it is important to note that these outcomes may have been investigated under larger categories, such as overall cardiovascular health and physiological outcomes, by systematic reviews. 2. This umbrella review builds upon your previous review. It is good to specify that the previous review included publications between January 2010 and December 2020 at the beginning. We have added the date range of our previous umbrella review to the methods section. 3. Have you considered the overlap of primary studies in the included systematic review? It is usually assessed by a measure of CCA. If some reviews had a high level of overlap of primary studies, you may consider only including one of them. We have calculated the CCA value and have added this and its interpretation to the results section under Quality of Evidence and Risk of Bias. 4. The study should provide the specific search strategy (the combination of search terms) in a supplementary file or clearly refer to where to find it. The full search strategy is available in the extended data section (per the F1000 guidelines) as Supplementary Table 1. We have added a sentence in the methods section to make finding the full search strategy clearer. 5. The methodological quality, risk of bias, and robustness of each evidence are not reported in the Results text. It is clearer to label them alongside the evidence. It is the same for table 1 and table 5. Table 6 can be put into the supplementary file. The overall quality, risk of bias, and robustness of each evidence should be made clear in the corresponding text and tables. Because quality and risk‑of‑bias ratings apply to the systematic reviews as a whole (not to each specific outcome), linking them directly to individual findings could be misleading. For this reason, we present these assessments separately and discuss their implications in the narrative synthesis. 6. What about the robustness of each quantitative evidence? The robustness comprehensively reflects the magnitude of the p-value, the sample size, the heterogeneity, and the risk of bias. There is a simple rule for assessing robustness suggested before. Please refer to the literature below. Aromataris E, Fernandez R, Godfrey CM, Holly C, Khalil H, Tungpunkom P. Summarizing systematic reviews: methodological development, conduct and reporting of an umbrella review approach. Int J Evid Based Healthc 2015;13:132–140. Aromataris E, Fernandez RS, Godfrey CHolly C, Khalil H, Tungpunkom P. Methodology for JBI umbrella reviews 2014;1. Cleophas TJ, Zwinderman AH. Meta-meta-analysis. In: Modern meta-analysis: review and update of methodologies. Cham: Springer International Publishing; 2017, p135–143. Fusar-Poli P, Radua J. Ten simple rules for conducting umbrella reviews. Evid Based Ment Health 2018;21:95–100. We assessed the methodological quality and risk of bias of all included systematic reviews using both AMSTAR-2 and ROBIS. These validated tools evaluate key domains relevant to the robustness of evidence, including risk of bias, heterogeneity, and overall methodological rigour. The references above primarily recommend critical appraisal of the included systematic reviews and transparent reporting of heterogeneity, potential biases, and study characteristics. None of these sources explicitly mandates an additional composite "robustness" index that integrates p-value magnitude, sample size, heterogeneity, and risk of bias for each quantitative result beyond standard quality appraisal tools. 7. Even though the included systematic reviews are different between the current umbrella review and the previous umbrella review, the included original studies (evidence) of the current umbrella review should cover most of the original studies in the previous umbrella review. Because the included systematic review did not set the criteria to include only original studies between December 2020 and June 2024, rather, they should have included earlier original studies. How do you interpret this? The readers should be aware of it when interpreting results. We have added a discussion of this to the limitations section of the discussion. 8. The current review included a wide range of diseases and various study designs. The effective exposure time of green space may vary among diseases. For example, the time scale of the association between green space and CVD is usually years, whereas the time scale of the association between green space and mental health can be days. This should be reported in tables and results. And it could be an interesting discussion point. We agree that exposure timeframes may differ across diseases. However, many of the systematic reviews included in our umbrella review do not report exposure duration and deriving or assigning exposure timeframes would require re‑interpreting primary studies, which is beyond the scope of an umbrella review. For these reasons, we have not added exposure‑time information to the tables or results. 9. What is the limitation of the current study? We have added a paragraph to more explicitly discuss the limitations of this umbrella review. 10. The authors should give more implications for policy and future studies regarding health domains, respectively. While we agree that policy and research implications are important, it is difficult to provide meaningful domain‑specific implications without content analysis of existing policy worldwide. Minor 1. In the first paragraph of the Introduction, you said "However, limitations in the methodology of these umbrella reviews have resulted in some gaps in the literature." But not all of the listed reviews are umbrella review. You can consider to rephrase it to "these umbrella or systematic reviews". We have adjusted the wording in this section for clarity. 2. In the second paragraph of the Introduction, you first said "these reviews often present their findings narratively", then you gave an example review that "focused solely on quantitative results". It is not clear what you suggest from here? Should study include both quantitative and qualitative analyses? Or maybe you want to demonstrate that previous reviews did not include both quantitative and qualitative results. But you should give more example reviews. This paragraph has been revised for clarity. 3. Some texts are not well cited. For example, in the Discussion section, "Systematic reviews examining respiratory outcomes such as asthma and AR presented mixed findings – some reporting protective effects, others showing null or conflicting associations". Please examine thoroughly to make sure the texts have citations where it is necessary. The statement in question summarises findings that are already fully referenced in the Results section. Because the Discussion section synthesises previously cited material rather than introducing new evidence, we have not repeated citations here. However, we have re‑checked the manuscript to ensure that all statements requiring citation are appropriately referenced. Competing Interests: No competing interests. Close Report a concern COMMENT ON THIS REPORT Views 0 Cite How to cite this report: Rojas-Rueda D. Reviewer Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.183900.r435773 ) The direct URL for this report is: https://f1000research.com/articles/14-726/v1#referee-response-435773 NOTE: it is important to ensure the information in square brackets after the title is included in this citation. Close Copy Citation Details Reviewer Report 24 Dec 2025 David Rojas-Rueda , Colorado State University, Fort Collins, USA Approved with Reservations VIEWS 0 https://doi.org/10.5256/f1000research.183900.r435773 Feedback for Improvement: 1. Transparency of Study Design in Meta-Analyses: The results derived from meta-analyses pooling data primarily from cross-sectional or ecological studies are highly problematic for inferring causality or defining risk, as they are "only useful to define ... Continue reading READ ALL Feedback for Improvement: 1. Transparency of Study Design in Meta-Analyses: The results derived from meta-analyses pooling data primarily from cross-sectional or ecological studies are highly problematic for inferring causality or defining risk, as they are "only useful to define a hypothesis, not to identify that relationship". Even though the paper provides a narrative discussion of the overall study design distribution (Table 2), Table 5 should be enhanced to specify the underlying study designs for each quantitative finding. ◦ For example, Bianconi et al. (2023) summarized cardiovascular outcomes pulling from 15 ecological, 13 cohort, 7 cross-sectional, and 1 case-control study. If their quantitative estimates in Table 5 are derived from this mixed pool, a risk assessor cannot easily distinguish the quality of the pooled result. ◦ Recommendation: Clarify in the text or in an expanded version of Table 5 the type and proportion of original studies (e.g., Cohort/RCT vs. Cross-sectional/Ecological) contributing to each meta-analysis result. This prevents the perpetuation of bias where the meta-analysis result might be interpreted as a strong causal effect when the underlying evidence base is correlational. B. Enhancing Dose-Response Information (Table 5) Table 5, listing quantitative data from meta-analyses, is the most crucial section for PRA. However, it currently lacks the standardization needed for clear risk modeling. Dose-Response Functions and Exposure Units: 1. Dose Definition and Units: Many entries in Table 5 rely on the Normalised Difference Vegetation Index (NDVI) . The protective effect should be explicitly linked to a defined unit of change in exposure (the dose). ◦ The table labels the Exposure Measure generally (e.g., "NDVI 500m buffer") but rarely defines the exposure increment associated with the effect estimate (e.g., OR/HR per 0.1 unit increase in NDVI). ◦ One example where relative dose information is present is Ahmer et al. (2024), where the standardized regression coefficient (beta) is listed for Birth weight (BW) relative to NDVI 250m and 500m buffers. Similarly, Zhao et al. (2022) provides standardized regression coefficients for systolic and diastolic BP in relation to "Overall greenspace" exposure. ◦ Recommendation: Systematically list the implied "dose" unit for all non-binary exposures (i.e., NDVI, Area of greenspace, etc.) in Table 5. If the original meta-analysis reported relative risk for quartile comparison, this should be noted (e.g., "Highest Quartile NDVI vs. Lowest Quartile"). If the study provided results per standard deviation or a standard incremental increase (like the 0.1-unit increment in NDVI mentioned in the narrative for asthma incidence), this information must be made explicit within the table. 2. Missing Contextual Information (Population and Geography) For effective public health targeting, understanding which populations and regions derive the most benefit is essential. A. Population Specificity (Age Groups and Health Status) While the review states that it aims to encompass all age groups and mentions studies focused on children and adolescents and older adults, this information is not consistently integrated into the core summary tables. 1. Age and Health Status Context in Tables: The utility of a finding for a risk assessor depends heavily on the population studied. For instance, the protective effect of greenspace exposure on mortality might be different in a cohort of healthy adults versus older adults with pre-existing cardiovascular conditions. ◦ Yuan et al. (2021) focused on mortality and cardiovascular outcomes in older adults . ◦ Ye et al. (2022) focused on health outcomes in childhood and adolescence . ◦ Recommendation: Systematically add a column to Table 1 (or Table 5 for quantitative data) explicitly identifying the primary population group (e.g., Children/Adolescents, Adults, Older Adults, Mixed) studied in the included systematic reviews. This improves contextual relevance for targeted policy recommendations. B. Geographical Context and Disparities The paper notes crucial findings regarding socioeconomic status (SES) and urbanicity, such as stronger protective associations in urban areas compared to less urban areas, and larger benefits for individuals with lower SES. This is highly important for addressing health equity (a key component of modern environmental health). 1. Geographical Reporting: The review includes Rojas-Rueda et al. (2021) which specifically addresses evidence in Latin America . Similarly, Rahimi-Ardabili et al. (2021) covers green space and health in Mainland China . However, the primary geographical focus of other contributing reviews is not consistently highlighted in the data summary tables. ◦ Recommendation: Include a column in Table 1 that explicitly identifies the geographic region or primary focus population (e.g., China, Latin America, Global/Mixed HIC) for each included systematic review. This information is vital, allowing policymakers to evaluate generalizability. 3. Missing Key Literature Rojas-Rueda D, Nieuwenhuijsen MJ, Gascon M, Perez-Leon D, Mudu P. Green spaces and mortality: a systematic review and meta-analysis of cohort studies. (REFER TO 1) Finding: This review, published in 2019, appears to be missing from the current umbrella review, which restricted its search to articles published between December 2020 and June 2024 . Critique on Exclusion: While adherence to the established search protocol (December 2020 onward) is understandable for an update to a previous review, the excluded Rojas-Rueda (2019) paper is a systematic review and meta-analysis of cohort studies specifically on mortality , an outcome discussed in detail here. Because cohort studies provide stronger evidence for causality than cross-sectional studies (which dominate the current base), and because the authors are looking to update knowledge based on previous work (Bryer et al., 2024), it is essential to contextualize the current findings against high-quality pre-2020 meta-analyses that remain highly relevant. Recommendation: The authors should clarify if the 2019 Rojas-Rueda mortality review was included in their prior umbrella review (Bryer et al., 2024) and, if so, explicitly reference it in the narrative (e.g., when discussing all-cause mortality findings based on cohort data) to maintain a complete historical context of the highest-quality evidence available in this domain. If this 2019 meta-analysis (focusing solely on cohort data) contradicted or strongly reinforced the results summarized from Yuan et al. (2021) and Bianconi et al. (2023), noting this distinction would significantly improve the paper's utility. Summary of Key Recommendations for Improving Utility To maximize the utility of this excellent work for public health policy, I strongly recommend the following improvements: 1. Enhance Table 5 (Quantitative Data): Systematically include columns detailing: ◦ The unit or increment of exposure corresponding to the effect estimate (Dose-Response function). ◦ The primary study designs (e.g., % Cohort/RCT vs. % Cross-sectional/Ecological) underlying the meta-analysis result. 2. Enhance Table 1 (Review Characteristics): Systematically include columns detailing: ◦ The primary demographic group studied (e.g., Children/Adolescents, Older Adults, Mixed Population). ◦ The geographic region or scope (e.g., China, Latin America, Global/HIC). 3. Narrative Contextualization: Ensure that the discussion of high-quality pre-2020 systematic reviews (like the 2019 Rojas-Rueda mortality paper) is provided, justifying how the current "update" relates to established, high-causality evidence. These additions would transform the paper into a far more actionable resource for environmental epidemiologists and urban planners focused on targeted green space policies and health risk quantification. Are the rationale for, and objectives of, the Systematic Review clearly stated? Yes Are sufficient details of the methods and analysis provided to allow replication by others? Yes Is the statistical analysis and its interpretation appropriate? Partly Are the conclusions drawn adequately supported by the results presented in the review? Partly If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) Partly References 1. Rojas-Rueda D, Nieuwenhuijsen M, Gascon M, Perez-Leon D, et al.: Green spaces and mortality: a systematic review and meta-analysis of cohort studies. The Lancet Planetary Health . 2019; 3 (11): e469-e477 Publisher Full Text Competing Interests: No competing interests were disclosed. Reviewer Expertise: Environmental epidemiology I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. Close READ LESS CITE CITE HOW TO CITE THIS REPORT Rojas-Rueda D. Reviewer Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.183900.r435773 ) The direct URL for this report is: https://f1000research.com/articles/14-726/v1#referee-response-435773 NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article. COPY CITATION DETAILS Report a concern Author Response 18 Apr 2026 Darsy Darssan , The University of Queensland School of Public Health, Herston, Australia 18 Apr 2026 Author Response We are grateful for the valuable and detailed comments on our manuscript. We have thoughtfully reviewed and integrated your recommendations to the extent possible. Transparency of Study Design in ... Continue reading We are grateful for the valuable and detailed comments on our manuscript. We have thoughtfully reviewed and integrated your recommendations to the extent possible. Transparency of Study Design in Meta-Analyses: The results derived from meta-analyses pooling data primarily from cross-sectional or ecological studies are highly problematic for inferring causality or defining risk, as they are "only useful to define a hypothesis, not to identify that relationship". Even though the paper provides a narrative discussion of the overall study design distribution (Table 2), Table 5 should be enhanced to specify the underlying study designs for each quantitative finding. For example, Bianconi et al. (2023) summarized cardiovascular outcomes pulling from 15 ecological, 13 cohort, 7 cross-sectional, and 1 case-control study. If their quantitative estimates in Table 5 are derived from this mixed pool, a risk assessor cannot easily distinguish the quality of the pooled result. Recommendation: Clarify in the text or in an expanded version of Table 5 the type and proportion of original studies (e.g., Cohort/RCT vs. Cross-sectional/Ecological) contributing to each meta-analysis result. This prevents the perpetuation of bias where the meta-analysis result might be interpreted as a strong causal effect when the underlying evidence base is correlational. We have added the study designs and numbers to the third column of Table 5. Enhancing Dose-Response Information (Table 5) Table 5, listing quantitative data from meta-analyses, is the most crucial section for PRA. However, it currently lacks the standardization needed for clear risk modeling. Dose-Response Functions and Exposure Units: Dose Definition and Units: Many entries in Table 5 rely on the Normalised Difference Vegetation Index (NDVI). The protective effect should be explicitly linked to a defined unit of change in exposure (the dose). The table labels the Exposure Measure generally (e.g., "NDVI 500m buffer") but rarely defines the exposure increment associated with the effect estimate (e.g., OR/HR per 0.1 unit increase in NDVI). One example where relative dose information is present is Ahmer et al. (2024), where the standardized regression coefficient (beta) is listed for Birth weight (BW) relative to NDVI 250m and 500m buffers. Similarly, Zhao et al. (2022) provides standardized regression coefficients for systolic and diastolic BP in relation to "Overall greenspace" exposure. Recommendation: Systematically list the implied "dose" unit for all non-binary exposures (i.e., NDVI, Area of greenspace, etc.) in Table 5. If the original meta-analysis reported relative risk for quartile comparison, this should be noted (e.g., "Highest Quartile NDVI vs. Lowest Quartile"). If the study provided results per standard deviation or a standard incremental increase (like the 0.1-unit increment in NDVI mentioned in the narrative for asthma incidence), this information must be made explicit within the table. We have added the dose or categories being compared to the fifth column of Table 5. Missing Contextual Information (Population and Geography) For effective public health targeting, understanding which populations and regions derive the most benefit is essential. Population Specificity (Age Groups and Health Status) While the review states that it aims to encompass all age groups and mentions studies focused on children and adolescents and older adults, this information is not consistently integrated into the core summary tables. Age and Health Status Context in Tables: The utility of a finding for a risk assessor depends heavily on the population studied. For instance, the protective effect of greenspace exposure on mortality might be different in a cohort of healthy adults versus older adults with pre-existing cardiovascular conditions. Yuan et al. (2021) focused on mortality and cardiovascular outcomes in older adults. Ye et al. (2022) focused on health outcomes in childhood and adolescence. Recommendation: Systematically add a column to Table 1 (or Table 5 for quantitative data) explicitly identifying the primary population group (e.g., Children/Adolescents, Adults, Older Adults, Mixed) studied in the included systematic reviews. This improves contextual relevance for targeted policy recommendations. We have added the age range of studies in each systematic review to the fifth column of Table 1. Geographical Context and Disparities The paper notes crucial findings regarding socioeconomic status (SES) and urbanicity, such as stronger protective associations in urban areas compared to less urban areas, and larger benefits for individuals with lower SES. This is highly important for addressing health equity (a key component of modern environmental health). Geographical Reporting: The review includes Rojas-Rueda et al. (2021) which specifically addresses evidence in Latin America. Similarly, Rahimi-Ardabili et al. (2021) covers green space and health in Mainland China. However, the primary geographical focus of other contributing reviews is not consistently highlighted in the data summary tables. Recommendation: Include a column in Table 1 that explicitly identifies the geographic region or primary focus population (e.g., China, Latin America, Global/Mixed HIC) for each included systematic review. This information is vital, allowing policymakers to evaluate generalizability. We have added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Missing Key Literature Rojas-Rueda D, Nieuwenhuijsen MJ, Gascon M, Perez-Leon D, Mudu P. Green spaces and mortality: a systematic review and meta-analysis of cohort studies. (REFER TO 1) Finding: This review, published in 2019, appears to be missing from the current umbrella review, which restricted its search to articles published between December 2020 and June 2024. Critique on Exclusion: While adherence to the established search protocol (December 2020 onward) is understandable for an update to a previous review, the excluded Rojas-Rueda (2019) paper is a systematic review and meta-analysis of cohort studies specifically on mortality, an outcome discussed in detail here. Because cohort studies provide stronger evidence for causality than cross-sectional studies (which dominate the current base), and because the authors are looking to update knowledge based on previous work (Bryer et al., 2024), it is essential to contextualize the current findings against high-quality pre-2020 meta-analyses that remain highly relevant. Recommendation: The authors should clarify if the 2019 Rojas-Rueda mortality review was included in their prior umbrella review (Bryer et al., 2024) and, if so, explicitly reference it in the narrative (e.g., when discussing all-cause mortality findings based on cohort data) to maintain a complete historical context of the highest-quality evidence available in this domain. If this 2019 meta-analysis (focusing solely on cohort data) contradicted or strongly reinforced the results summarized from Yuan et al. (2021) and Bianconi et al. (2023), noting this distinction would significantly improve the paper's utility. The scope of this umbrella review was restricted to systematic reviews published between December 2020 and June 2024. As a result, the systematic review by Rojas-Rueda et al. (2019) fell outside the predefined eligibility window and was therefore not included. The study by Rojas-Rueda et al. (2019) was, however, included in our previous umbrella review, which considered systematic reviews published between January 2010 and December 2020. Because this is not a living review and the time window was established a priori, we did not re-include studies published before December 2020 in this umbrella review. Summary of Key Recommendations for Improving Utility To maximize the utility of this excellent work for public health policy, I strongly recommend the following improvements: Enhance Table 5 (Quantitative Data): Systematically include columns detailing: The unit or increment of exposure corresponding to the effect estimate (Dose-Response function). The primary study designs (e.g., % Cohort/RCT vs. % Cross-sectional/Ecological) underlying the meta-analysis result. Enhance Table 1 (Review Characteristics): Systematically include columns detailing: The primary demographic group studied (e.g., Children/Adolescents, Older Adults, Mixed Population). The geographic region or scope (e.g., China, Latin America, Global/HIC). Narrative Contextualization: Ensure that the discussion of high-quality pre-2020 systematic reviews (like the 2019 Rojas-Rueda mortality paper) is provided, justifying how the current "update" relates to established, high-causality evidence. These additions would transform the paper into a far more actionable resource for environmental epidemiologists and urban planners focused on targeted green space policies and health risk quantification. References 1. Rojas-Rueda D, Nieuwenhuijsen M, Gascon M, Perez-Leon D, et al.: Green spaces and mortality: a systematic review and meta-analysis of cohort studies. The Lancet Planetary Health. 2019; 3 (11): e469-e477 Thank you for summarising your recommendations. We have responded to each comment and recommendation separately above. We are grateful for the valuable and detailed comments on our manuscript. We have thoughtfully reviewed and integrated your recommendations to the extent possible. Transparency of Study Design in Meta-Analyses: The results derived from meta-analyses pooling data primarily from cross-sectional or ecological studies are highly problematic for inferring causality or defining risk, as they are "only useful to define a hypothesis, not to identify that relationship". Even though the paper provides a narrative discussion of the overall study design distribution (Table 2), Table 5 should be enhanced to specify the underlying study designs for each quantitative finding. For example, Bianconi et al. (2023) summarized cardiovascular outcomes pulling from 15 ecological, 13 cohort, 7 cross-sectional, and 1 case-control study. If their quantitative estimates in Table 5 are derived from this mixed pool, a risk assessor cannot easily distinguish the quality of the pooled result. Recommendation: Clarify in the text or in an expanded version of Table 5 the type and proportion of original studies (e.g., Cohort/RCT vs. Cross-sectional/Ecological) contributing to each meta-analysis result. This prevents the perpetuation of bias where the meta-analysis result might be interpreted as a strong causal effect when the underlying evidence base is correlational. We have added the study designs and numbers to the third column of Table 5. Enhancing Dose-Response Information (Table 5) Table 5, listing quantitative data from meta-analyses, is the most crucial section for PRA. However, it currently lacks the standardization needed for clear risk modeling. Dose-Response Functions and Exposure Units: Dose Definition and Units: Many entries in Table 5 rely on the Normalised Difference Vegetation Index (NDVI). The protective effect should be explicitly linked to a defined unit of change in exposure (the dose). The table labels the Exposure Measure generally (e.g., "NDVI 500m buffer") but rarely defines the exposure increment associated with the effect estimate (e.g., OR/HR per 0.1 unit increase in NDVI). One example where relative dose information is present is Ahmer et al. (2024), where the standardized regression coefficient (beta) is listed for Birth weight (BW) relative to NDVI 250m and 500m buffers. Similarly, Zhao et al. (2022) provides standardized regression coefficients for systolic and diastolic BP in relation to "Overall greenspace" exposure. Recommendation: Systematically list the implied "dose" unit for all non-binary exposures (i.e., NDVI, Area of greenspace, etc.) in Table 5. If the original meta-analysis reported relative risk for quartile comparison, this should be noted (e.g., "Highest Quartile NDVI vs. Lowest Quartile"). If the study provided results per standard deviation or a standard incremental increase (like the 0.1-unit increment in NDVI mentioned in the narrative for asthma incidence), this information must be made explicit within the table. We have added the dose or categories being compared to the fifth column of Table 5. Missing Contextual Information (Population and Geography) For effective public health targeting, understanding which populations and regions derive the most benefit is essential. Population Specificity (Age Groups and Health Status) While the review states that it aims to encompass all age groups and mentions studies focused on children and adolescents and older adults, this information is not consistently integrated into the core summary tables. Age and Health Status Context in Tables: The utility of a finding for a risk assessor depends heavily on the population studied. For instance, the protective effect of greenspace exposure on mortality might be different in a cohort of healthy adults versus older adults with pre-existing cardiovascular conditions. Yuan et al. (2021) focused on mortality and cardiovascular outcomes in older adults. Ye et al. (2022) focused on health outcomes in childhood and adolescence. Recommendation: Systematically add a column to Table 1 (or Table 5 for quantitative data) explicitly identifying the primary population group (e.g., Children/Adolescents, Adults, Older Adults, Mixed) studied in the included systematic reviews. This improves contextual relevance for targeted policy recommendations. We have added the age range of studies in each systematic review to the fifth column of Table 1. Geographical Context and Disparities The paper notes crucial findings regarding socioeconomic status (SES) and urbanicity, such as stronger protective associations in urban areas compared to less urban areas, and larger benefits for individuals with lower SES. This is highly important for addressing health equity (a key component of modern environmental health). Geographical Reporting: The review includes Rojas-Rueda et al. (2021) which specifically addresses evidence in Latin America. Similarly, Rahimi-Ardabili et al. (2021) covers green space and health in Mainland China. However, the primary geographical focus of other contributing reviews is not consistently highlighted in the data summary tables. Recommendation: Include a column in Table 1 that explicitly identifies the geographic region or primary focus population (e.g., China, Latin America, Global/Mixed HIC) for each included systematic review. This information is vital, allowing policymakers to evaluate generalizability. We have added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Missing Key Literature Rojas-Rueda D, Nieuwenhuijsen MJ, Gascon M, Perez-Leon D, Mudu P. Green spaces and mortality: a systematic review and meta-analysis of cohort studies. (REFER TO 1) Finding: This review, published in 2019, appears to be missing from the current umbrella review, which restricted its search to articles published between December 2020 and June 2024. Critique on Exclusion: While adherence to the established search protocol (December 2020 onward) is understandable for an update to a previous review, the excluded Rojas-Rueda (2019) paper is a systematic review and meta-analysis of cohort studies specifically on mortality, an outcome discussed in detail here. Because cohort studies provide stronger evidence for causality than cross-sectional studies (which dominate the current base), and because the authors are looking to update knowledge based on previous work (Bryer et al., 2024), it is essential to contextualize the current findings against high-quality pre-2020 meta-analyses that remain highly relevant. Recommendation: The authors should clarify if the 2019 Rojas-Rueda mortality review was included in their prior umbrella review (Bryer et al., 2024) and, if so, explicitly reference it in the narrative (e.g., when discussing all-cause mortality findings based on cohort data) to maintain a complete historical context of the highest-quality evidence available in this domain. If this 2019 meta-analysis (focusing solely on cohort data) contradicted or strongly reinforced the results summarized from Yuan et al. (2021) and Bianconi et al. (2023), noting this distinction would significantly improve the paper's utility. The scope of this umbrella review was restricted to systematic reviews published between December 2020 and June 2024. As a result, the systematic review by Rojas-Rueda et al. (2019) fell outside the predefined eligibility window and was therefore not included. The study by Rojas-Rueda et al. (2019) was, however, included in our previous umbrella review, which considered systematic reviews published between January 2010 and December 2020. Because this is not a living review and the time window was established a priori, we did not re-include studies published before December 2020 in this umbrella review. Summary of Key Recommendations for Improving Utility To maximize the utility of this excellent work for public health policy, I strongly recommend the following improvements: Enhance Table 5 (Quantitative Data): Systematically include columns detailing: The unit or increment of exposure corresponding to the effect estimate (Dose-Response function). The primary study designs (e.g., % Cohort/RCT vs. % Cross-sectional/Ecological) underlying the meta-analysis result. Enhance Table 1 (Review Characteristics): Systematically include columns detailing: The primary demographic group studied (e.g., Children/Adolescents, Older Adults, Mixed Population). The geographic region or scope (e.g., China, Latin America, Global/HIC). Narrative Contextualization: Ensure that the discussion of high-quality pre-2020 systematic reviews (like the 2019 Rojas-Rueda mortality paper) is provided, justifying how the current "update" relates to established, high-causality evidence. These additions would transform the paper into a far more actionable resource for environmental epidemiologists and urban planners focused on targeted green space policies and health risk quantification. References 1. Rojas-Rueda D, Nieuwenhuijsen M, Gascon M, Perez-Leon D, et al.: Green spaces and mortality: a systematic review and meta-analysis of cohort studies. The Lancet Planetary Health. 2019; 3 (11): e469-e477 Thank you for summarising your recommendations. We have responded to each comment and recommendation separately above. Competing Interests: No competing interests. Close Report a concern Respond or Comment COMMENTS ON THIS REPORT Author Response 18 Apr 2026 Darsy Darssan , The University of Queensland School of Public Health, Herston, Australia 18 Apr 2026 Author Response We are grateful for the valuable and detailed comments on our manuscript. We have thoughtfully reviewed and integrated your recommendations to the extent possible. Transparency of Study Design in ... Continue reading We are grateful for the valuable and detailed comments on our manuscript. We have thoughtfully reviewed and integrated your recommendations to the extent possible. Transparency of Study Design in Meta-Analyses: The results derived from meta-analyses pooling data primarily from cross-sectional or ecological studies are highly problematic for inferring causality or defining risk, as they are "only useful to define a hypothesis, not to identify that relationship". Even though the paper provides a narrative discussion of the overall study design distribution (Table 2), Table 5 should be enhanced to specify the underlying study designs for each quantitative finding. For example, Bianconi et al. (2023) summarized cardiovascular outcomes pulling from 15 ecological, 13 cohort, 7 cross-sectional, and 1 case-control study. If their quantitative estimates in Table 5 are derived from this mixed pool, a risk assessor cannot easily distinguish the quality of the pooled result. Recommendation: Clarify in the text or in an expanded version of Table 5 the type and proportion of original studies (e.g., Cohort/RCT vs. Cross-sectional/Ecological) contributing to each meta-analysis result. This prevents the perpetuation of bias where the meta-analysis result might be interpreted as a strong causal effect when the underlying evidence base is correlational. We have added the study designs and numbers to the third column of Table 5. Enhancing Dose-Response Information (Table 5) Table 5, listing quantitative data from meta-analyses, is the most crucial section for PRA. However, it currently lacks the standardization needed for clear risk modeling. Dose-Response Functions and Exposure Units: Dose Definition and Units: Many entries in Table 5 rely on the Normalised Difference Vegetation Index (NDVI). The protective effect should be explicitly linked to a defined unit of change in exposure (the dose). The table labels the Exposure Measure generally (e.g., "NDVI 500m buffer") but rarely defines the exposure increment associated with the effect estimate (e.g., OR/HR per 0.1 unit increase in NDVI). One example where relative dose information is present is Ahmer et al. (2024), where the standardized regression coefficient (beta) is listed for Birth weight (BW) relative to NDVI 250m and 500m buffers. Similarly, Zhao et al. (2022) provides standardized regression coefficients for systolic and diastolic BP in relation to "Overall greenspace" exposure. Recommendation: Systematically list the implied "dose" unit for all non-binary exposures (i.e., NDVI, Area of greenspace, etc.) in Table 5. If the original meta-analysis reported relative risk for quartile comparison, this should be noted (e.g., "Highest Quartile NDVI vs. Lowest Quartile"). If the study provided results per standard deviation or a standard incremental increase (like the 0.1-unit increment in NDVI mentioned in the narrative for asthma incidence), this information must be made explicit within the table. We have added the dose or categories being compared to the fifth column of Table 5. Missing Contextual Information (Population and Geography) For effective public health targeting, understanding which populations and regions derive the most benefit is essential. Population Specificity (Age Groups and Health Status) While the review states that it aims to encompass all age groups and mentions studies focused on children and adolescents and older adults, this information is not consistently integrated into the core summary tables. Age and Health Status Context in Tables: The utility of a finding for a risk assessor depends heavily on the population studied. For instance, the protective effect of greenspace exposure on mortality might be different in a cohort of healthy adults versus older adults with pre-existing cardiovascular conditions. Yuan et al. (2021) focused on mortality and cardiovascular outcomes in older adults. Ye et al. (2022) focused on health outcomes in childhood and adolescence. Recommendation: Systematically add a column to Table 1 (or Table 5 for quantitative data) explicitly identifying the primary population group (e.g., Children/Adolescents, Adults, Older Adults, Mixed) studied in the included systematic reviews. This improves contextual relevance for targeted policy recommendations. We have added the age range of studies in each systematic review to the fifth column of Table 1. Geographical Context and Disparities The paper notes crucial findings regarding socioeconomic status (SES) and urbanicity, such as stronger protective associations in urban areas compared to less urban areas, and larger benefits for individuals with lower SES. This is highly important for addressing health equity (a key component of modern environmental health). Geographical Reporting: The review includes Rojas-Rueda et al. (2021) which specifically addresses evidence in Latin America. Similarly, Rahimi-Ardabili et al. (2021) covers green space and health in Mainland China. However, the primary geographical focus of other contributing reviews is not consistently highlighted in the data summary tables. Recommendation: Include a column in Table 1 that explicitly identifies the geographic region or primary focus population (e.g., China, Latin America, Global/Mixed HIC) for each included systematic review. This information is vital, allowing policymakers to evaluate generalizability. We have added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Missing Key Literature Rojas-Rueda D, Nieuwenhuijsen MJ, Gascon M, Perez-Leon D, Mudu P. Green spaces and mortality: a systematic review and meta-analysis of cohort studies. (REFER TO 1) Finding: This review, published in 2019, appears to be missing from the current umbrella review, which restricted its search to articles published between December 2020 and June 2024. Critique on Exclusion: While adherence to the established search protocol (December 2020 onward) is understandable for an update to a previous review, the excluded Rojas-Rueda (2019) paper is a systematic review and meta-analysis of cohort studies specifically on mortality, an outcome discussed in detail here. Because cohort studies provide stronger evidence for causality than cross-sectional studies (which dominate the current base), and because the authors are looking to update knowledge based on previous work (Bryer et al., 2024), it is essential to contextualize the current findings against high-quality pre-2020 meta-analyses that remain highly relevant. Recommendation: The authors should clarify if the 2019 Rojas-Rueda mortality review was included in their prior umbrella review (Bryer et al., 2024) and, if so, explicitly reference it in the narrative (e.g., when discussing all-cause mortality findings based on cohort data) to maintain a complete historical context of the highest-quality evidence available in this domain. If this 2019 meta-analysis (focusing solely on cohort data) contradicted or strongly reinforced the results summarized from Yuan et al. (2021) and Bianconi et al. (2023), noting this distinction would significantly improve the paper's utility. The scope of this umbrella review was restricted to systematic reviews published between December 2020 and June 2024. As a result, the systematic review by Rojas-Rueda et al. (2019) fell outside the predefined eligibility window and was therefore not included. The study by Rojas-Rueda et al. (2019) was, however, included in our previous umbrella review, which considered systematic reviews published between January 2010 and December 2020. Because this is not a living review and the time window was established a priori, we did not re-include studies published before December 2020 in this umbrella review. Summary of Key Recommendations for Improving Utility To maximize the utility of this excellent work for public health policy, I strongly recommend the following improvements: Enhance Table 5 (Quantitative Data): Systematically include columns detailing: The unit or increment of exposure corresponding to the effect estimate (Dose-Response function). The primary study designs (e.g., % Cohort/RCT vs. % Cross-sectional/Ecological) underlying the meta-analysis result. Enhance Table 1 (Review Characteristics): Systematically include columns detailing: The primary demographic group studied (e.g., Children/Adolescents, Older Adults, Mixed Population). The geographic region or scope (e.g., China, Latin America, Global/HIC). Narrative Contextualization: Ensure that the discussion of high-quality pre-2020 systematic reviews (like the 2019 Rojas-Rueda mortality paper) is provided, justifying how the current "update" relates to established, high-causality evidence. These additions would transform the paper into a far more actionable resource for environmental epidemiologists and urban planners focused on targeted green space policies and health risk quantification. References 1. Rojas-Rueda D, Nieuwenhuijsen M, Gascon M, Perez-Leon D, et al.: Green spaces and mortality: a systematic review and meta-analysis of cohort studies. The Lancet Planetary Health. 2019; 3 (11): e469-e477 Thank you for summarising your recommendations. We have responded to each comment and recommendation separately above. We are grateful for the valuable and detailed comments on our manuscript. We have thoughtfully reviewed and integrated your recommendations to the extent possible. Transparency of Study Design in Meta-Analyses: The results derived from meta-analyses pooling data primarily from cross-sectional or ecological studies are highly problematic for inferring causality or defining risk, as they are "only useful to define a hypothesis, not to identify that relationship". Even though the paper provides a narrative discussion of the overall study design distribution (Table 2), Table 5 should be enhanced to specify the underlying study designs for each quantitative finding. For example, Bianconi et al. (2023) summarized cardiovascular outcomes pulling from 15 ecological, 13 cohort, 7 cross-sectional, and 1 case-control study. If their quantitative estimates in Table 5 are derived from this mixed pool, a risk assessor cannot easily distinguish the quality of the pooled result. Recommendation: Clarify in the text or in an expanded version of Table 5 the type and proportion of original studies (e.g., Cohort/RCT vs. Cross-sectional/Ecological) contributing to each meta-analysis result. This prevents the perpetuation of bias where the meta-analysis result might be interpreted as a strong causal effect when the underlying evidence base is correlational. We have added the study designs and numbers to the third column of Table 5. Enhancing Dose-Response Information (Table 5) Table 5, listing quantitative data from meta-analyses, is the most crucial section for PRA. However, it currently lacks the standardization needed for clear risk modeling. Dose-Response Functions and Exposure Units: Dose Definition and Units: Many entries in Table 5 rely on the Normalised Difference Vegetation Index (NDVI). The protective effect should be explicitly linked to a defined unit of change in exposure (the dose). The table labels the Exposure Measure generally (e.g., "NDVI 500m buffer") but rarely defines the exposure increment associated with the effect estimate (e.g., OR/HR per 0.1 unit increase in NDVI). One example where relative dose information is present is Ahmer et al. (2024), where the standardized regression coefficient (beta) is listed for Birth weight (BW) relative to NDVI 250m and 500m buffers. Similarly, Zhao et al. (2022) provides standardized regression coefficients for systolic and diastolic BP in relation to "Overall greenspace" exposure. Recommendation: Systematically list the implied "dose" unit for all non-binary exposures (i.e., NDVI, Area of greenspace, etc.) in Table 5. If the original meta-analysis reported relative risk for quartile comparison, this should be noted (e.g., "Highest Quartile NDVI vs. Lowest Quartile"). If the study provided results per standard deviation or a standard incremental increase (like the 0.1-unit increment in NDVI mentioned in the narrative for asthma incidence), this information must be made explicit within the table. We have added the dose or categories being compared to the fifth column of Table 5. Missing Contextual Information (Population and Geography) For effective public health targeting, understanding which populations and regions derive the most benefit is essential. Population Specificity (Age Groups and Health Status) While the review states that it aims to encompass all age groups and mentions studies focused on children and adolescents and older adults, this information is not consistently integrated into the core summary tables. Age and Health Status Context in Tables: The utility of a finding for a risk assessor depends heavily on the population studied. For instance, the protective effect of greenspace exposure on mortality might be different in a cohort of healthy adults versus older adults with pre-existing cardiovascular conditions. Yuan et al. (2021) focused on mortality and cardiovascular outcomes in older adults. Ye et al. (2022) focused on health outcomes in childhood and adolescence. Recommendation: Systematically add a column to Table 1 (or Table 5 for quantitative data) explicitly identifying the primary population group (e.g., Children/Adolescents, Adults, Older Adults, Mixed) studied in the included systematic reviews. This improves contextual relevance for targeted policy recommendations. We have added the age range of studies in each systematic review to the fifth column of Table 1. Geographical Context and Disparities The paper notes crucial findings regarding socioeconomic status (SES) and urbanicity, such as stronger protective associations in urban areas compared to less urban areas, and larger benefits for individuals with lower SES. This is highly important for addressing health equity (a key component of modern environmental health). Geographical Reporting: The review includes Rojas-Rueda et al. (2021) which specifically addresses evidence in Latin America. Similarly, Rahimi-Ardabili et al. (2021) covers green space and health in Mainland China. However, the primary geographical focus of other contributing reviews is not consistently highlighted in the data summary tables. Recommendation: Include a column in Table 1 that explicitly identifies the geographic region or primary focus population (e.g., China, Latin America, Global/Mixed HIC) for each included systematic review. This information is vital, allowing policymakers to evaluate generalizability. We have added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Missing Key Literature Rojas-Rueda D, Nieuwenhuijsen MJ, Gascon M, Perez-Leon D, Mudu P. Green spaces and mortality: a systematic review and meta-analysis of cohort studies. (REFER TO 1) Finding: This review, published in 2019, appears to be missing from the current umbrella review, which restricted its search to articles published between December 2020 and June 2024. Critique on Exclusion: While adherence to the established search protocol (December 2020 onward) is understandable for an update to a previous review, the excluded Rojas-Rueda (2019) paper is a systematic review and meta-analysis of cohort studies specifically on mortality, an outcome discussed in detail here. Because cohort studies provide stronger evidence for causality than cross-sectional studies (which dominate the current base), and because the authors are looking to update knowledge based on previous work (Bryer et al., 2024), it is essential to contextualize the current findings against high-quality pre-2020 meta-analyses that remain highly relevant. Recommendation: The authors should clarify if the 2019 Rojas-Rueda mortality review was included in their prior umbrella review (Bryer et al., 2024) and, if so, explicitly reference it in the narrative (e.g., when discussing all-cause mortality findings based on cohort data) to maintain a complete historical context of the highest-quality evidence available in this domain. If this 2019 meta-analysis (focusing solely on cohort data) contradicted or strongly reinforced the results summarized from Yuan et al. (2021) and Bianconi et al. (2023), noting this distinction would significantly improve the paper's utility. The scope of this umbrella review was restricted to systematic reviews published between December 2020 and June 2024. As a result, the systematic review by Rojas-Rueda et al. (2019) fell outside the predefined eligibility window and was therefore not included. The study by Rojas-Rueda et al. (2019) was, however, included in our previous umbrella review, which considered systematic reviews published between January 2010 and December 2020. Because this is not a living review and the time window was established a priori, we did not re-include studies published before December 2020 in this umbrella review. Summary of Key Recommendations for Improving Utility To maximize the utility of this excellent work for public health policy, I strongly recommend the following improvements: Enhance Table 5 (Quantitative Data): Systematically include columns detailing: The unit or increment of exposure corresponding to the effect estimate (Dose-Response function). The primary study designs (e.g., % Cohort/RCT vs. % Cross-sectional/Ecological) underlying the meta-analysis result. Enhance Table 1 (Review Characteristics): Systematically include columns detailing: The primary demographic group studied (e.g., Children/Adolescents, Older Adults, Mixed Population). The geographic region or scope (e.g., China, Latin America, Global/HIC). Narrative Contextualization: Ensure that the discussion of high-quality pre-2020 systematic reviews (like the 2019 Rojas-Rueda mortality paper) is provided, justifying how the current "update" relates to established, high-causality evidence. These additions would transform the paper into a far more actionable resource for environmental epidemiologists and urban planners focused on targeted green space policies and health risk quantification. References 1. Rojas-Rueda D, Nieuwenhuijsen M, Gascon M, Perez-Leon D, et al.: Green spaces and mortality: a systematic review and meta-analysis of cohort studies. The Lancet Planetary Health. 2019; 3 (11): e469-e477 Thank you for summarising your recommendations. We have responded to each comment and recommendation separately above. Competing Interests: No competing interests. Close Report a concern COMMENT ON THIS REPORT Comments on this article Comments (0) Version 2 VERSION 2 PUBLISHED 24 Jul 2025 ADD YOUR COMMENT Comment keyboard_arrow_left keyboard_arrow_right Open Peer Review Reviewer Status info_outline Alongside their report, reviewers assign a status to the article: Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions Reviewer Reports Invited Reviewers 1 2 3 Version 2 (revision) 18 Apr 26 read read Version 1 24 Jul 25 read read read David Rojas-Rueda , Colorado State University, Fort Collins, USA Mingwei Liu , Huazhong University of Science and Technology, Wuhan, China Anna Soerensen , Hasselt University, Hasselt, Belgium Comments on this article All Comments (0) Add a comment Sign up for content alerts Sign Up You are now signed up to receive this alert Browse by related subjects keyboard_arrow_left Back to all reports Reviewer Report 0 Views copyright © 2026 Soerensen A. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 08 May 2026 | for Version 2 Anna Soerensen , Hasselt University, Hasselt, Belgium 0 Views copyright © 2026 Soerensen A. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. format_quote Cite this report speaker_notes Responses (0) Approved With Reservations info_outline Alongside their report, reviewers assign a status to the article: Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions I thank the authors for implementing my previous suggestions. The revisions have enhanced the clarity of the manuscript, making it straightforward to follow throughout. However, I still have one comment: Could the authors clarify the rationale for calculating the overall CCA rather than per category? Low overall overlap is somewhat expected, as most review studies only span one or two categories out of the 8 included. This might not accurately reflect the degree of overlap within each category, where it's most relevant for interpreting the evidence. Competing Interests No competing interests were disclosed. Reviewer Expertise Environmental epidemiology I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. reply Respond to this report Responses (0) Soerensen A. Peer Review Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.198281.r476283) NOTE: it is important to ensure the information in square brackets after the title is included in this citation. The direct URL for this report is: https://f1000research.com/articles/14-726/v2#referee-response-476283 keyboard_arrow_left Back to all reports Reviewer Report 0 Views copyright © 2026 Liu M. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 23 Apr 2026 | for Version 2 Mingwei Liu , Huazhong University of Science and Technology, Wuhan, China 0 Views copyright © 2026 Liu M. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. format_quote Cite this report speaker_notes Responses (0) Approved With Reservations info_outline Alongside their report, reviewers assign a status to the article: Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions I appreciate that the authors have nicely addressed my previous comments. I still have one comment regarding the quality and bias assessment. This is feedback on points 3 and 5 of my previous comments. To point 3: The CCA should be calculated for each outcome. Because the results were synthesized for each outcome. The CCA shall demonstrate the degree of overlap of primary studies that was synthesized. And if there is a large overlap for an outcome, authors can choose the input studies. To point 5: The results were interpreted for each health outcome. Therefore, authors need to know the quality and bias of each result by outcome. The quality and bias should be analyzed for each outcome, so that it is more informative for future studies. Competing Interests No competing interests were disclosed. Reviewer Expertise Environmental epidemiology I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. reply Respond to this report Responses (0) Liu M. Peer Review Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.198281.r476281) NOTE: it is important to ensure the information in square brackets after the title is included in this citation. The direct URL for this report is: https://f1000research.com/articles/14-726/v2#referee-response-476281 keyboard_arrow_left Back to all reports Reviewer Report 0 Views copyright © 2026 Soerensen A. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 13 Jan 2026 | for Version 1 Anna Soerensen , Hasselt University, Hasselt, Belgium 0 Views copyright © 2026 Soerensen A. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. format_quote Cite this report speaker_notes Responses (1) Approved With Reservations info_outline Alongside their report, reviewers assign a status to the article: Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions Thank you for giving me the opportunity to review the manuscript entitled “Greenspace exposure and associated health outcomes: an updated systematic review of reviews”. This umbrella review provides an overview of the latest reviews within the field of green space exposure and health outcomes. Overall, the manuscript succeeds in providing this overview and clearly reflects the substantial effort invested in its preparation. It also highlights the important observation that the vast majority of included systematic reviews and meta-analyses are of low quality. Additionally, the structure and writing are clear and well organized, making the manuscript a pleasure to read. However, I do have some comments. Major comments: The search strategy is not entirely clear. Referring to your previous review article gives the impression that the full search strategy can be found there. For instance, in your previous review you state: “To ensure that relevant systematic reviews were retrieved, we also conducted forward and backward reference searching on screened reviews, as well as manual searching of reference lists of relevant reviews”, which makes it unclear whether this was also conducted for the current manuscript. I would also recommend explicitly stating that the search terms and strategies can be found in Supplementary Table S1, and perhaps providing a few examples of the search terms used. This is a well-conducted umbrella review, but it would be markedly strengthened by an assessment of study overlap. If no assessment of study overlap is conducted, I would suggest including a statement in the limitations section and/or providing a rationale for why this was not considered relevant. Including age groups and geographical location in Table 1 would further strengthen the manuscript, particularly as coverage across all age groups is one of the rationales for conducting this review. Minor comments: The abstract is well written, to the point, and correctly summarizes the findings of the manuscript. My only suggestion is to add “green space” and " greenness " as keywords, if possible. In the methods section, I would appreciate clarification regarding “iv) reported health outcome(s) directly attributable to greenspace exposure” . The results section has a logical flow and is easy to follow. However, I am missing a definition of “overall greenspace exposure” and “forest-based interventions” . It is not clear which types of studies are included under these terms. On page 4, the sentence “with mediating factors such as air quality, perceived stress, and physical activity identified (Zhang et al., 2021)” is included, but Zhang et al. (2021) is not mentioned in the preceding sentence, making it unclear which type of green space exposure they assessed. I would consider adding one or two sentences at the end of each outcome subsection summarizing the overall findings. Almost all outcome subsections include at least one review article that does not align with the findings of the other reviews, which makes it difficult to determine whether there is an overall effect. While you do summarize the main findings and conclusions in the discussion, I believe it would be helpful to include such summary statements throughout the results section, for example at the end of the “Cardiovascular and metabolic outcomes” subsection. The findings suggesting that associations may be moderated by SES, urbanicity, or related contextual factors are interesting and add nuance to the results. However, as this aspect was not described in the methods section, its inclusion in the results came somewhat unexpectedly. Clarifying this in the methods and/or presenting these findings in a dedicated subsection of the results would improve readability On page 34, you state: “Similarly, a 0.1-unit increment in NDVI was associated with a reduced risk of asthma incidence (Tang et al., 2023)” , which gives the impression that an odds ratio or another effect estimate is missing. On page 35, “Gardening interventions were associated with better physical health” was stated. Could you clarify how physical health was defined? Are the rationale for, and objectives of, the Systematic Review clearly stated? Yes Are sufficient details of the methods and analysis provided to allow replication by others? Partly Is the statistical analysis and its interpretation appropriate? Yes Are the conclusions drawn adequately supported by the results presented in the review? Partly If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) Not applicable Competing Interests No competing interests were disclosed. Reviewer Expertise Environmental epidemiology I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. reply Respond to this report Responses (1) Author Response 18 Apr 2026 Darsy Darssan, The University of Queensland School of Public Health, Herston, Australia We are thankful for your thorough and valuable comments on our manuscript. We have carefully reviewed and integrated your recommendations to the extent possible. Thank you for giving me the opportunity to review the manuscript entitled “Greenspace exposure and associated health outcomes: an updated systematic review of reviews”. This umbrella review provides an overview of the latest reviews within the field of green space exposure and health outcomes. Overall, the manuscript succeeds in providing this overview and clearly reflects the substantial effort invested in its preparation. It also highlights the important observation that the vast majority of included systematic reviews and meta-analyses are of low quality. Additionally, the structure and writing are clear and well organized, making the manuscript a pleasure to read. However, I do have some comments. Major comments: 1. The search strategy is not entirely clear. Referring to your previous review article gives the impression that the full search strategy can be found there. For instance, in your previous review you state: “To ensure that relevant systematic reviews were retrieved, we also conducted forward and backward reference searching on screened reviews, as well as manual searching of reference lists of relevant reviews”, which makes it unclear whether this was also conducted for the current manuscript. I would also recommend explicitly stating that the search terms and strategies can be found in Supplementary Table S1, and perhaps providing a few examples of the search terms used. We have updated the methods section to ensure that the location of the search strategy is stated more explicitly. 2. This is a well-conducted umbrella review, but it would be markedly strengthened by an assessment of study overlap. If no assessment of study overlap is conducted, I would suggest including a statement in the limitations section and/or providing a rationale for why this was not considered relevant. We have calculated the CCA value and have added this and its interpretation to the article. 3. Including age groups and geographical location in Table 1 would further strengthen the manuscript, particularly as coverage across all age groups is one of the rationales for conducting this review. We have added the age range studies in each systematic review to the fifth column of Table 1. We have also added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Minor comments: 1. The abstract is well written, to the point, and correctly summarizes the findings of the manuscript. My only suggestion is to add “green space” and " greenness " as keywords, if possible. Thank you for this suggestion. 2. In the methods section, I would appreciate clarification regarding “iv) reported health outcome(s) directly attributable to greenspace exposure”. We have clarified this criterion in the methods section by noting that eligible reviews needed to examine health outcomes specifically attributable to greenspace exposure, independent of blue space. 3. The results section has a logical flow and is easy to follow. However, I am missing a definition of “overall greenspace exposure” and “forest-based interventions”. It is not clear which types of studies are included under these terms. We have added an explanation of what these terms encompass. 4. On page 4, the sentence “with mediating factors such as air quality, perceived stress, and physical activity identified (Zhang et al., 2021)” is included, but Zhang et al. (2021) is not mentioned in the preceding sentence, making it unclear which type of green space exposure they assessed. We have revised this section to improve clarity. 5. I would consider adding one or two sentences at the end of each outcome subsection summarizing the overall findings. Almost all outcome subsections include at least one review article that does not align with the findings of the other reviews, which makes it difficult to determine whether there is an overall effect. While you do summarize the main findings and conclusions in the discussion, I believe it would be helpful to include such summary statements throughout the results section, for example at the end of the “Cardiovascular and metabolic outcomes” subsection. We have added a sentence at the end of each health outcome section to summarise the results. 6. The findings suggesting that associations may be moderated by SES, urbanicity, or related contextual factors are interesting and add nuance to the results. However, as this aspect was not described in the methods section, its inclusion in the results came somewhat unexpectedly. Clarifying this in the methods and/or presenting these findings in a dedicated subsection of the results would improve readability The findings related to SES and urbanicity as moderators of the association between greenspace and human health outcomes were not part of the predefined objectives of the umbrella review. For this reason, we have not added them to the methods section or expanded their presentation in the results section. We have kept them only as brief contextual notes to avoid over‑interpreting the evidence. 7. On page 34, you state: “Similarly, a 0.1-unit increment in NDVI was associated with a reduced risk of asthma incidence (Tang et al., 2023)”, which gives the impression that an odds ratio or another effect estimate is missing. We have added the effect estimate for this association. 8. On page 35, “Gardening interventions were associated with better physical health” was stated. Could you clarify how physical health was defined? Physical health was generally self-reported and encompassed perceived general health, acute health complaints, physical constraints, and chronic illnesses. View more View less Competing Interests No competing interests. reply Respond Report a concern Soerensen A. Peer Review Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.183900.r444035) NOTE: it is important to ensure the information in square brackets after the title is included in this citation. The direct URL for this report is: https://f1000research.com/articles/14-726/v1#referee-response-444035 keyboard_arrow_left Back to all reports Reviewer Report 0 Views copyright © 2025 Liu M. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 27 Dec 2025 | for Version 1 Mingwei Liu , Huazhong University of Science and Technology, Wuhan, China 0 Views copyright © 2025 Liu M. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. format_quote Cite this report speaker_notes Responses (1) Approved With Reservations info_outline Alongside their report, reviewers assign a status to the article: Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions The current umbrella review updated the current evidence of the association between greenspace exposure and various health outcomes. The review is conducted in a systematic approach and has a comprehensive coverage of evidence. However, some measures like corrected covered area (CCA), robustness of evidence, and time scale can be added when synthesizing the evidence. The implications should be more specific. Major 1. Are there reviews of a topic (health outcome) that were identified only in the previous umbrella review you conducted, but not in this updated review? 2. This umbrella review builds upon your previous review. It is good to specify that the previous review included publications between January 2010 and December 2020 at the beginning. 3. Have you considered the overlap of primary studies in the included systematic review? It is usually assessed by a measure of CCA. If some reviews had a high level of overlap of primary studies, you may consider only including one of them. 4. The study should provide the specific search strategy (the combination of search terms) in a supplementary file or clearly refer to where to find it. 5. The methodological quality, risk of bias, and robustness of each evidence are not reported in the Results text. It is clearer to label them alongside the evidence. It is the same for table 1 and table 5. Table 6 can be put into the supplementary file. The overall quality, risk of bias, and robustness of each evidence should be made clear in the corresponding text and tables. 6. What about the robustness of each quantitative evidence? The robustness comprehensively reflects the magnitude of the p-value, the sample size, the heterogeneity, and the risk of bias. There is a simple rule for assessing robustness suggested before. Please refer to the literature below. 1. Aromataris E, Fernandez R, Godfrey CM, Holly C, Khalil H, Tungpunkom P. Summarizing systematic reviews: methodological development, conduct and reporting of an umbrella review approach. Int J Evid Based Healthc 2015;13:132–140. 2. Aromataris E, Fernandez RS, Godfrey CHolly C, Khalil H, Tungpunkom P. Methodology for JBI umbrella reviews 2014;1. 3. Cleophas TJ, Zwinderman AH. Meta-meta-analysis. In: Modern meta-analysis: review and update of methodologies. Cham: Springer International Publishing; 2017, p135–143. 4. Fusar-Poli P, Radua J. Ten simple rules for conducting umbrella reviews. Evid Based Ment Health 2018;21:95–100. 7. Even though the included systematic reviews are different between the current umbrella review and the previous umbrella review, the included original studies (evidence) of the current umbrella review should cover most of the original studies in the previous umbrella review. Because the included systematic review did not set the criteria to include only original studies between December 2020 and June 2024, rather, they should have included earlier original studies. How do you interpret this? The readers should be aware of it when interpreting results. 8. The current review included a wide range of diseases and various study designs. The effective exposure time of green space may vary among diseases. For example, the time scale of the association between green space and CVD is usually years, whereas the time scale of the association between green space and mental health can be days. This should be reported in tables and results. And it could be an interesting discussion point. 9. What is the limitation of the current study? 10. The authors should give more implications for policy and future studies regarding health domains, respectively. Minor 1. In the first paragraph of the Introduction, you said "However, limitations in the methodology of these umbrella reviews have resulted in some gaps in the literature." But not all of the listed reviews are umbrella review. You can consider to rephrase it to "these umbrella or systematic reviews". 2. In the second paragraph of the Introduction, you first said "these reviews often present their findings narratively", then you gave an example review that "focused solely on quantitative results". It is not clear what you suggest from here? Should study include both quantitative and qualitative analyses? Or maybe you want to demonstrate that previous reviews did not include both quantitative and qualitative results. But you should give more example reviews. 3. Some texts are not well cited. For example, in the Discussion section, "Systematic reviews examining respiratory outcomes such as asthma and AR presented mixed findings - some reporting protective effects, others showing null or conflicting associations". Please examine thoroughly to make sure the texts have citations where it is necessary. Are the rationale for, and objectives of, the Systematic Review clearly stated? Partly Are sufficient details of the methods and analysis provided to allow replication by others? Partly Is the statistical analysis and its interpretation appropriate? Yes Are the conclusions drawn adequately supported by the results presented in the review? Yes If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) Not applicable Competing Interests No competing interests were disclosed. Reviewer Expertise Environmental epidemiology I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. reply Respond to this report Responses (1) Author Response 18 Apr 2026 Darsy Darssan, The University of Queensland School of Public Health, Herston, Australia We sincerely appreciate the thorough and insightful feedback on the manuscript. We have carefully considered and incorporated your suggestions wherever feasible. The current umbrella review updated the current evidence of the association between greenspace exposure and various health outcomes. The review is conducted in a systematic approach and has a comprehensive coverage of evidence. However, some measures like corrected covered area (CCA), robustness of evidence, and time scale can be added when synthesizing the evidence. The implications should be more specific. Major 1. Are there reviews of a topic (health outcome) that were identified only in the previous umbrella review you conducted, but not in this updated review? While the major health outcome categories remained consistent with those in our previous umbrella review, some individual outcomes did not appear in this umbrella review. These include gestational age, pregnancy complications, head circumference, atherosclerosis, hypotension, oxidative stress, and inflammation markers. However, it is important to note that these outcomes may have been investigated under larger categories, such as overall cardiovascular health and physiological outcomes, by systematic reviews. 2. This umbrella review builds upon your previous review. It is good to specify that the previous review included publications between January 2010 and December 2020 at the beginning. We have added the date range of our previous umbrella review to the methods section. 3. Have you considered the overlap of primary studies in the included systematic review? It is usually assessed by a measure of CCA. If some reviews had a high level of overlap of primary studies, you may consider only including one of them. We have calculated the CCA value and have added this and its interpretation to the results section under Quality of Evidence and Risk of Bias. 4. The study should provide the specific search strategy (the combination of search terms) in a supplementary file or clearly refer to where to find it. The full search strategy is available in the extended data section (per the F1000 guidelines) as Supplementary Table 1. We have added a sentence in the methods section to make finding the full search strategy clearer. 5. The methodological quality, risk of bias, and robustness of each evidence are not reported in the Results text. It is clearer to label them alongside the evidence. It is the same for table 1 and table 5. Table 6 can be put into the supplementary file. The overall quality, risk of bias, and robustness of each evidence should be made clear in the corresponding text and tables. Because quality and risk‑of‑bias ratings apply to the systematic reviews as a whole (not to each specific outcome), linking them directly to individual findings could be misleading. For this reason, we present these assessments separately and discuss their implications in the narrative synthesis. 6. What about the robustness of each quantitative evidence? The robustness comprehensively reflects the magnitude of the p-value, the sample size, the heterogeneity, and the risk of bias. There is a simple rule for assessing robustness suggested before. Please refer to the literature below. Aromataris E, Fernandez R, Godfrey CM, Holly C, Khalil H, Tungpunkom P. Summarizing systematic reviews: methodological development, conduct and reporting of an umbrella review approach. Int J Evid Based Healthc 2015;13:132–140. Aromataris E, Fernandez RS, Godfrey CHolly C, Khalil H, Tungpunkom P. Methodology for JBI umbrella reviews 2014;1. Cleophas TJ, Zwinderman AH. Meta-meta-analysis. In: Modern meta-analysis: review and update of methodologies. Cham: Springer International Publishing; 2017, p135–143. Fusar-Poli P, Radua J. Ten simple rules for conducting umbrella reviews. Evid Based Ment Health 2018;21:95–100. We assessed the methodological quality and risk of bias of all included systematic reviews using both AMSTAR-2 and ROBIS. These validated tools evaluate key domains relevant to the robustness of evidence, including risk of bias, heterogeneity, and overall methodological rigour. The references above primarily recommend critical appraisal of the included systematic reviews and transparent reporting of heterogeneity, potential biases, and study characteristics. None of these sources explicitly mandates an additional composite "robustness" index that integrates p-value magnitude, sample size, heterogeneity, and risk of bias for each quantitative result beyond standard quality appraisal tools. 7. Even though the included systematic reviews are different between the current umbrella review and the previous umbrella review, the included original studies (evidence) of the current umbrella review should cover most of the original studies in the previous umbrella review. Because the included systematic review did not set the criteria to include only original studies between December 2020 and June 2024, rather, they should have included earlier original studies. How do you interpret this? The readers should be aware of it when interpreting results. We have added a discussion of this to the limitations section of the discussion. 8. The current review included a wide range of diseases and various study designs. The effective exposure time of green space may vary among diseases. For example, the time scale of the association between green space and CVD is usually years, whereas the time scale of the association between green space and mental health can be days. This should be reported in tables and results. And it could be an interesting discussion point. We agree that exposure timeframes may differ across diseases. However, many of the systematic reviews included in our umbrella review do not report exposure duration and deriving or assigning exposure timeframes would require re‑interpreting primary studies, which is beyond the scope of an umbrella review. For these reasons, we have not added exposure‑time information to the tables or results. 9. What is the limitation of the current study? We have added a paragraph to more explicitly discuss the limitations of this umbrella review. 10. The authors should give more implications for policy and future studies regarding health domains, respectively. While we agree that policy and research implications are important, it is difficult to provide meaningful domain‑specific implications without content analysis of existing policy worldwide. Minor 1. In the first paragraph of the Introduction, you said "However, limitations in the methodology of these umbrella reviews have resulted in some gaps in the literature." But not all of the listed reviews are umbrella review. You can consider to rephrase it to "these umbrella or systematic reviews". We have adjusted the wording in this section for clarity. 2. In the second paragraph of the Introduction, you first said "these reviews often present their findings narratively", then you gave an example review that "focused solely on quantitative results". It is not clear what you suggest from here? Should study include both quantitative and qualitative analyses? Or maybe you want to demonstrate that previous reviews did not include both quantitative and qualitative results. But you should give more example reviews. This paragraph has been revised for clarity. 3. Some texts are not well cited. For example, in the Discussion section, "Systematic reviews examining respiratory outcomes such as asthma and AR presented mixed findings – some reporting protective effects, others showing null or conflicting associations". Please examine thoroughly to make sure the texts have citations where it is necessary. The statement in question summarises findings that are already fully referenced in the Results section. Because the Discussion section synthesises previously cited material rather than introducing new evidence, we have not repeated citations here. However, we have re‑checked the manuscript to ensure that all statements requiring citation are appropriately referenced. View more View less Competing Interests No competing interests. reply Respond Report a concern Liu M. Peer Review Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.183900.r433260) NOTE: it is important to ensure the information in square brackets after the title is included in this citation. The direct URL for this report is: https://f1000research.com/articles/14-726/v1#referee-response-433260 keyboard_arrow_left Back to all reports Reviewer Report 0 Views copyright © 2025 Rojas-Rueda D. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 24 Dec 2025 | for Version 1 David Rojas-Rueda , Colorado State University, Fort Collins, USA 0 Views copyright © 2025 Rojas-Rueda D. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. format_quote Cite this report speaker_notes Responses (1) Approved With Reservations info_outline Alongside their report, reviewers assign a status to the article: Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions Feedback for Improvement: 1. Transparency of Study Design in Meta-Analyses: The results derived from meta-analyses pooling data primarily from cross-sectional or ecological studies are highly problematic for inferring causality or defining risk, as they are "only useful to define a hypothesis, not to identify that relationship". Even though the paper provides a narrative discussion of the overall study design distribution (Table 2), Table 5 should be enhanced to specify the underlying study designs for each quantitative finding. ◦ For example, Bianconi et al. (2023) summarized cardiovascular outcomes pulling from 15 ecological, 13 cohort, 7 cross-sectional, and 1 case-control study. If their quantitative estimates in Table 5 are derived from this mixed pool, a risk assessor cannot easily distinguish the quality of the pooled result. ◦ Recommendation: Clarify in the text or in an expanded version of Table 5 the type and proportion of original studies (e.g., Cohort/RCT vs. Cross-sectional/Ecological) contributing to each meta-analysis result. This prevents the perpetuation of bias where the meta-analysis result might be interpreted as a strong causal effect when the underlying evidence base is correlational. B. Enhancing Dose-Response Information (Table 5) Table 5, listing quantitative data from meta-analyses, is the most crucial section for PRA. However, it currently lacks the standardization needed for clear risk modeling. Dose-Response Functions and Exposure Units: 1. Dose Definition and Units: Many entries in Table 5 rely on the Normalised Difference Vegetation Index (NDVI) . The protective effect should be explicitly linked to a defined unit of change in exposure (the dose). ◦ The table labels the Exposure Measure generally (e.g., "NDVI 500m buffer") but rarely defines the exposure increment associated with the effect estimate (e.g., OR/HR per 0.1 unit increase in NDVI). ◦ One example where relative dose information is present is Ahmer et al. (2024), where the standardized regression coefficient (beta) is listed for Birth weight (BW) relative to NDVI 250m and 500m buffers. Similarly, Zhao et al. (2022) provides standardized regression coefficients for systolic and diastolic BP in relation to "Overall greenspace" exposure. ◦ Recommendation: Systematically list the implied "dose" unit for all non-binary exposures (i.e., NDVI, Area of greenspace, etc.) in Table 5. If the original meta-analysis reported relative risk for quartile comparison, this should be noted (e.g., "Highest Quartile NDVI vs. Lowest Quartile"). If the study provided results per standard deviation or a standard incremental increase (like the 0.1-unit increment in NDVI mentioned in the narrative for asthma incidence), this information must be made explicit within the table. 2. Missing Contextual Information (Population and Geography) For effective public health targeting, understanding which populations and regions derive the most benefit is essential. A. Population Specificity (Age Groups and Health Status) While the review states that it aims to encompass all age groups and mentions studies focused on children and adolescents and older adults, this information is not consistently integrated into the core summary tables. 1. Age and Health Status Context in Tables: The utility of a finding for a risk assessor depends heavily on the population studied. For instance, the protective effect of greenspace exposure on mortality might be different in a cohort of healthy adults versus older adults with pre-existing cardiovascular conditions. ◦ Yuan et al. (2021) focused on mortality and cardiovascular outcomes in older adults . ◦ Ye et al. (2022) focused on health outcomes in childhood and adolescence . ◦ Recommendation: Systematically add a column to Table 1 (or Table 5 for quantitative data) explicitly identifying the primary population group (e.g., Children/Adolescents, Adults, Older Adults, Mixed) studied in the included systematic reviews. This improves contextual relevance for targeted policy recommendations. B. Geographical Context and Disparities The paper notes crucial findings regarding socioeconomic status (SES) and urbanicity, such as stronger protective associations in urban areas compared to less urban areas, and larger benefits for individuals with lower SES. This is highly important for addressing health equity (a key component of modern environmental health). 1. Geographical Reporting: The review includes Rojas-Rueda et al. (2021) which specifically addresses evidence in Latin America . Similarly, Rahimi-Ardabili et al. (2021) covers green space and health in Mainland China . However, the primary geographical focus of other contributing reviews is not consistently highlighted in the data summary tables. ◦ Recommendation: Include a column in Table 1 that explicitly identifies the geographic region or primary focus population (e.g., China, Latin America, Global/Mixed HIC) for each included systematic review. This information is vital, allowing policymakers to evaluate generalizability. 3. Missing Key Literature Rojas-Rueda D, Nieuwenhuijsen MJ, Gascon M, Perez-Leon D, Mudu P. Green spaces and mortality: a systematic review and meta-analysis of cohort studies. (REFER TO 1) Finding: This review, published in 2019, appears to be missing from the current umbrella review, which restricted its search to articles published between December 2020 and June 2024 . Critique on Exclusion: While adherence to the established search protocol (December 2020 onward) is understandable for an update to a previous review, the excluded Rojas-Rueda (2019) paper is a systematic review and meta-analysis of cohort studies specifically on mortality , an outcome discussed in detail here. Because cohort studies provide stronger evidence for causality than cross-sectional studies (which dominate the current base), and because the authors are looking to update knowledge based on previous work (Bryer et al., 2024), it is essential to contextualize the current findings against high-quality pre-2020 meta-analyses that remain highly relevant. Recommendation: The authors should clarify if the 2019 Rojas-Rueda mortality review was included in their prior umbrella review (Bryer et al., 2024) and, if so, explicitly reference it in the narrative (e.g., when discussing all-cause mortality findings based on cohort data) to maintain a complete historical context of the highest-quality evidence available in this domain. If this 2019 meta-analysis (focusing solely on cohort data) contradicted or strongly reinforced the results summarized from Yuan et al. (2021) and Bianconi et al. (2023), noting this distinction would significantly improve the paper's utility. Summary of Key Recommendations for Improving Utility To maximize the utility of this excellent work for public health policy, I strongly recommend the following improvements: 1. Enhance Table 5 (Quantitative Data): Systematically include columns detailing: ◦ The unit or increment of exposure corresponding to the effect estimate (Dose-Response function). ◦ The primary study designs (e.g., % Cohort/RCT vs. % Cross-sectional/Ecological) underlying the meta-analysis result. 2. Enhance Table 1 (Review Characteristics): Systematically include columns detailing: ◦ The primary demographic group studied (e.g., Children/Adolescents, Older Adults, Mixed Population). ◦ The geographic region or scope (e.g., China, Latin America, Global/HIC). 3. Narrative Contextualization: Ensure that the discussion of high-quality pre-2020 systematic reviews (like the 2019 Rojas-Rueda mortality paper) is provided, justifying how the current "update" relates to established, high-causality evidence. These additions would transform the paper into a far more actionable resource for environmental epidemiologists and urban planners focused on targeted green space policies and health risk quantification. Are the rationale for, and objectives of, the Systematic Review clearly stated? Yes Are sufficient details of the methods and analysis provided to allow replication by others? Yes Is the statistical analysis and its interpretation appropriate? Partly Are the conclusions drawn adequately supported by the results presented in the review? Partly If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) Partly References 1. Rojas-Rueda D, Nieuwenhuijsen M, Gascon M, Perez-Leon D, et al.: Green spaces and mortality: a systematic review and meta-analysis of cohort studies. The Lancet Planetary Health . 2019; 3 (11): e469-e477 Publisher Full Text Competing Interests No competing interests were disclosed. Reviewer Expertise Environmental epidemiology I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. reply Respond to this report Responses (1) Author Response 18 Apr 2026 Darsy Darssan, The University of Queensland School of Public Health, Herston, Australia We are grateful for the valuable and detailed comments on our manuscript. We have thoughtfully reviewed and integrated your recommendations to the extent possible. Transparency of Study Design in Meta-Analyses: The results derived from meta-analyses pooling data primarily from cross-sectional or ecological studies are highly problematic for inferring causality or defining risk, as they are "only useful to define a hypothesis, not to identify that relationship". Even though the paper provides a narrative discussion of the overall study design distribution (Table 2), Table 5 should be enhanced to specify the underlying study designs for each quantitative finding. For example, Bianconi et al. (2023) summarized cardiovascular outcomes pulling from 15 ecological, 13 cohort, 7 cross-sectional, and 1 case-control study. If their quantitative estimates in Table 5 are derived from this mixed pool, a risk assessor cannot easily distinguish the quality of the pooled result. Recommendation: Clarify in the text or in an expanded version of Table 5 the type and proportion of original studies (e.g., Cohort/RCT vs. Cross-sectional/Ecological) contributing to each meta-analysis result. This prevents the perpetuation of bias where the meta-analysis result might be interpreted as a strong causal effect when the underlying evidence base is correlational. We have added the study designs and numbers to the third column of Table 5. Enhancing Dose-Response Information (Table 5) Table 5, listing quantitative data from meta-analyses, is the most crucial section for PRA. However, it currently lacks the standardization needed for clear risk modeling. Dose-Response Functions and Exposure Units: Dose Definition and Units: Many entries in Table 5 rely on the Normalised Difference Vegetation Index (NDVI). The protective effect should be explicitly linked to a defined unit of change in exposure (the dose). The table labels the Exposure Measure generally (e.g., "NDVI 500m buffer") but rarely defines the exposure increment associated with the effect estimate (e.g., OR/HR per 0.1 unit increase in NDVI). One example where relative dose information is present is Ahmer et al. (2024), where the standardized regression coefficient (beta) is listed for Birth weight (BW) relative to NDVI 250m and 500m buffers. Similarly, Zhao et al. (2022) provides standardized regression coefficients for systolic and diastolic BP in relation to "Overall greenspace" exposure. Recommendation: Systematically list the implied "dose" unit for all non-binary exposures (i.e., NDVI, Area of greenspace, etc.) in Table 5. If the original meta-analysis reported relative risk for quartile comparison, this should be noted (e.g., "Highest Quartile NDVI vs. Lowest Quartile"). If the study provided results per standard deviation or a standard incremental increase (like the 0.1-unit increment in NDVI mentioned in the narrative for asthma incidence), this information must be made explicit within the table. We have added the dose or categories being compared to the fifth column of Table 5. Missing Contextual Information (Population and Geography) For effective public health targeting, understanding which populations and regions derive the most benefit is essential. Population Specificity (Age Groups and Health Status) While the review states that it aims to encompass all age groups and mentions studies focused on children and adolescents and older adults, this information is not consistently integrated into the core summary tables. Age and Health Status Context in Tables: The utility of a finding for a risk assessor depends heavily on the population studied. For instance, the protective effect of greenspace exposure on mortality might be different in a cohort of healthy adults versus older adults with pre-existing cardiovascular conditions. Yuan et al. (2021) focused on mortality and cardiovascular outcomes in older adults. Ye et al. (2022) focused on health outcomes in childhood and adolescence. Recommendation: Systematically add a column to Table 1 (or Table 5 for quantitative data) explicitly identifying the primary population group (e.g., Children/Adolescents, Adults, Older Adults, Mixed) studied in the included systematic reviews. This improves contextual relevance for targeted policy recommendations. We have added the age range of studies in each systematic review to the fifth column of Table 1. Geographical Context and Disparities The paper notes crucial findings regarding socioeconomic status (SES) and urbanicity, such as stronger protective associations in urban areas compared to less urban areas, and larger benefits for individuals with lower SES. This is highly important for addressing health equity (a key component of modern environmental health). Geographical Reporting: The review includes Rojas-Rueda et al. (2021) which specifically addresses evidence in Latin America. Similarly, Rahimi-Ardabili et al. (2021) covers green space and health in Mainland China. However, the primary geographical focus of other contributing reviews is not consistently highlighted in the data summary tables. Recommendation: Include a column in Table 1 that explicitly identifies the geographic region or primary focus population (e.g., China, Latin America, Global/Mixed HIC) for each included systematic review. This information is vital, allowing policymakers to evaluate generalizability. We have added the location(s) covered by each systematic review to the second column of Table 1. Due to the large number and wide variety of countries covered by systematic reviews, we chose to report study location by continent instead. Missing Key Literature Rojas-Rueda D, Nieuwenhuijsen MJ, Gascon M, Perez-Leon D, Mudu P. Green spaces and mortality: a systematic review and meta-analysis of cohort studies. (REFER TO 1) Finding: This review, published in 2019, appears to be missing from the current umbrella review, which restricted its search to articles published between December 2020 and June 2024. Critique on Exclusion: While adherence to the established search protocol (December 2020 onward) is understandable for an update to a previous review, the excluded Rojas-Rueda (2019) paper is a systematic review and meta-analysis of cohort studies specifically on mortality, an outcome discussed in detail here. Because cohort studies provide stronger evidence for causality than cross-sectional studies (which dominate the current base), and because the authors are looking to update knowledge based on previous work (Bryer et al., 2024), it is essential to contextualize the current findings against high-quality pre-2020 meta-analyses that remain highly relevant. Recommendation: The authors should clarify if the 2019 Rojas-Rueda mortality review was included in their prior umbrella review (Bryer et al., 2024) and, if so, explicitly reference it in the narrative (e.g., when discussing all-cause mortality findings based on cohort data) to maintain a complete historical context of the highest-quality evidence available in this domain. If this 2019 meta-analysis (focusing solely on cohort data) contradicted or strongly reinforced the results summarized from Yuan et al. (2021) and Bianconi et al. (2023), noting this distinction would significantly improve the paper's utility. The scope of this umbrella review was restricted to systematic reviews published between December 2020 and June 2024. As a result, the systematic review by Rojas-Rueda et al. (2019) fell outside the predefined eligibility window and was therefore not included. The study by Rojas-Rueda et al. (2019) was, however, included in our previous umbrella review, which considered systematic reviews published between January 2010 and December 2020. Because this is not a living review and the time window was established a priori, we did not re-include studies published before December 2020 in this umbrella review. Summary of Key Recommendations for Improving Utility To maximize the utility of this excellent work for public health policy, I strongly recommend the following improvements: Enhance Table 5 (Quantitative Data): Systematically include columns detailing: The unit or increment of exposure corresponding to the effect estimate (Dose-Response function). The primary study designs (e.g., % Cohort/RCT vs. % Cross-sectional/Ecological) underlying the meta-analysis result. Enhance Table 1 (Review Characteristics): Systematically include columns detailing: The primary demographic group studied (e.g., Children/Adolescents, Older Adults, Mixed Population). The geographic region or scope (e.g., China, Latin America, Global/HIC). Narrative Contextualization: Ensure that the discussion of high-quality pre-2020 systematic reviews (like the 2019 Rojas-Rueda mortality paper) is provided, justifying how the current "update" relates to established, high-causality evidence. These additions would transform the paper into a far more actionable resource for environmental epidemiologists and urban planners focused on targeted green space policies and health risk quantification. References 1. Rojas-Rueda D, Nieuwenhuijsen M, Gascon M, Perez-Leon D, et al.: Green spaces and mortality: a systematic review and meta-analysis of cohort studies. The Lancet Planetary Health. 2019; 3 (11): e469-e477 Thank you for summarising your recommendations. We have responded to each comment and recommendation separately above. View more View less Competing Interests No competing interests. reply Respond Report a concern Rojas-Rueda D. Peer Review Report For: Greenspace exposure and associated health outcomes: an updated systematic review of reviews [version 1; peer review: 3 approved with reservations] . F1000Research 2025, 14 :726 ( https://doi.org/10.5256/f1000research.183900.r435773) NOTE: it is important to ensure the information in square brackets after the title is included in this citation. 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