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Soil, nail, hair, and skin samples were collected from thirteen sites in Najaf Ashraf, Iraq, between March and May 2023. Nine fungal species were identified: Aspergillus flavus, A. niger, A. glaucus, Fusarium sp., Mucor sp., Paecilomyces sp., Penicillium sp., Syncephalastrum sp., and Cladosporium allicinum. Fungal counts in soil ranged from 40 to 5280 ± 3 CFU, with the highest count in site 2 and the lowest in site 12. In human samples, fungal counts varied: hair (0-1360 ± 2 CFU), nails (0-600 ± 1 CFU), and skin (40–680 ± 2 CFU). Aspergillus niger was the dominant species across all samples. Notably, the fungal species detected in human samples were consistent with those found in the soil, supporting the hypothesis of environmental transmission of these potentially hazardous biological contaminants. Mycology Dermatology Landfill Fungal Species Dermatophytes Nail Hair Skin Fungi Figures Figure 1 Introduction Environmental pollution is one of the significant international concerns today (Chowdhary, 2018), it can affects ecosystems, biodiversity and human health worldwide by contaminant air, soil and water. Environmental pollution could be defined as the change in the composition of one of the main elements in the environment, and this change may occur naturally or by the influence of humans or animals, most current environmental problems are the result of the unacceptable behavior of humans, which causes environmental pollution to achieve self-interest (Al-Haidarey, et al., 2016 ). The environmental pollution can occur under three types that are: physical, chemical and biological pollution. Biological pollutants are substances in environment that comes from living organisms and can affect our health. They include insects or insect parts, certain fungi, some bacteria and viruses (Albazoni et al., 2024 ). Soil pollution refers to the presence in the soil of a chemical or substance out of place and/or present at a higher than normal concentration that has adverse effects on any non-targeted. The different types of soil pollutants can be classified into inorganic, organic, or biological (Majolagbe et al., 2017 ). Biological pollution, also known as bio-pollution, refers to the introduction of non-native or invasive species into ecosystems, which can disrupt the natural balance and biodiversity of these environments. These invasive species often outcompete native species for resources, leading to declines in native populations and potential ecosystem collapse. Biological pollution can occur through various means, such as accidental transport via human activities, intentional introductions for agriculture or aquaculture, or even as a consequence of climate change altering habitat ranges. This phenomenon poses a significant threat to global ecosystems, with far-reaching ecological and economic implications (Simberloff ,2014). Soil is the thin layer of organic and inorganic materials that covers the earth's rocky surface. The organic portion, which is derived from the decayed remains of plants and animal, is concentrated in the dark uppermost topsoil. The inorganic portion made up of rock fragments, was formed over thousands of years by physical and chemical weathering of bedrock. Productive soils are necessary for agriculture to supply the world with sufficient food (Belluck et al., 2003 ). Soil also contains a great number of biological contaminants such as pathogens, (tetanus), parasites, (hookworm), and fungi which cause many well-documented impacts on human health (Burgess, 2013 ). There are many different ways that soil can become polluted (such as: Seepage from a landfill, Discharge of industrial waste into the soil, Percolation of contaminated water into the soil, Rupture of underground storage tanks, and Solid waste seepage) and in general can be classified into inorganic, organic, or biological (Majolagbe et al., 2017 ): Biological pollutants that are anthropogenic derived. The key types of biological pollutants within the environment include viruses, bacteria, fungi and/or several forms of pathogens (Marfe and Di Stefano, 2016 ). Biological is essential to the maintenance of ecosystem functioning (Loreau et al., 2001 , Byrnes et al., 2014 ). Increasing evidence suggests that the loss in biodiversity is becoming an issue of global concern, which may negatively affect ecosystem sustainability and food security (Al-Haidarey & Abdul-Jabbar, 2020). The belowground microbial communities play important roles in driving Earth’s biogeochemical cycles, decomposing organic matter, suppressing soil-borne disease, and promoting plant growth (Bardgett and van der Putten, 2014 ). This has triggered growing concern that loss in soil microbial diversity may impair key ecosystem functions with potential consequences for plant productivity (Singh et al., 2015 ). Fungi are tiny living organisms and a number of fungi cause diseases to plants, animals and humans. Fungi are abundant in the surface layer of the soil and are found in large numbers in every gram of soil. Fungi multiply when the soil acidity or humidity is high. Fungi also play a role in the decomposition of complex organic compounds and also help Fungi also live everywhere parasitizing on soil grains on something that contains organic matter, and the age of fungi may exceed the age of fungi to become longer-lived than some living organisms, so some of the fungi reach an age of (4500) years (Vogt, 2012 ). Fungal infections affecting the skin, nails, and hair are a widespread health concern, with diverse etiological agents and varying degrees of severity (Klimas et al., 2025 ). These infections, collectively known as cutaneous mycoses, significantly impact human health and quality of life (Sharma & Nonzom, 2021 ). Dermatophytes is a primary group of fungi responsible for many skin, nail, and hair infections, these fungi possess the ability to utilize keratin, a protein found in these tissues, as a nutrient source (Sharma et al., 2015 ). Transmission can occur through direct contact with infected individuals or animals. Indirect transmission can occur through contaminated objects or environments, including soil (Moriello & Coyner, 2021 ). Soil serves as a natural reservoir for numerous fungal species, including dermatophytes and other potential pathogens (Ajello, 1956 ). Contamination of soil with organic matter, such as decaying plant and animal debris, can promote fungal growth (Masciandaro et al., 2013 ). Landfill sites, in particular, pose a significant risk due to the accumulation of organic waste and the creation of favorable conditions for fungal proliferation (Nair, 2021 ). Fungi present in landfill soil can become airborne or be transferred through direct contact, increasing the risk of human exposure (Breza-Boruta, 2016 ). Individuals with weakened immune systems, those who work in or frequent contaminated environments, and those with poor hygiene are at increased risk of infection (Rook et al., 2015 ). Understanding the prevalence and diversity of fungal species in soil, particularly in high-risk environments like landfills, is crucial for assessing potential health risks. Also, investigating the link between soil contamination and human fungal infections can inform public health strategies for prevention and control. In essence, soil, particularly in contaminated environments, can act as a vector for fungal transmission, highlighting the importance of studying the mycological composition of soil and its potential impact on human health. Therefore, this study comes to determine some of potentially fungus hazardous to human health in some polluted soil in Najaf Provence. Materials and methods Lab detergent and a brush was used to clean glassware before autoclaving. The glassware was sterilize using autoclave at 121°C for 15–20 minutes. Also, if glassware contacts biohazards, disinfect before rinsing. Then, the clean glassware stored in a dust-free environment, after labeling. For prevent Cross-Contamination, we kept glassware sets separate. Al-Najaf Provence is one of the most important holy cities in Iraq, about 180 kilometers southern Baghdad – Iraq. Samples were taken from thirteen sites, during march 2023 to May 2023. About three replicates were collected for each site in Najaf Provence. Site 1 it was sanitary Landfill Near Karbala Road Site 2 it was Sanitary Landfill in Al-Herfiyen Neighborhood. Site 3 it was a Random Waste Dumping in Industrial Neighborhood. Site 4 it was a Farm Area in Kufa Irrigated with municipal wastewater. Site 5 it was Area in Bahr al-Najaf Brick Factories. Site 6 it was a Farm in the Abu Sakhir Area. Site 7 it was a Farm in the Qazwiniya Area Near Hilla Najaf road. Site 8 it was at Entrance to the round Street. Site 9 it was near Al-Zahraa Bridges Crossroad. Site 10 it was near Airport Crossroad. Site 11 it was near Crossroad of Al Salam Park. Site 12 it was Crossroad near Najaf Teaching Hospital. Site 13 it was beside Askareeyn Tunnel Crossroad near Maysan Neighborhood (Fig. 1 ; Table 1) Table (2): Geographical locations of the studied stations in Najaf Provence Station Longitude(East) Latitude (North) º ’ " º ’ " St1 44 26 83 32 13 01 St2 44 27 01 31 98 31 St3 44 38 57 32 01 20 St4 44 44 76 32 04 36 St5 44 29 00 31 95 63 St6 44 44 76 31 91 39 St7 44 35 92 32 12 86 St8 44 31 86 32 06 16 St9 44 35 66 32 04 37 St10 44 37 82 31 99 92 St11 44 34 09 32 02 01 St12 44 33 32 32 03 54 St13 44 32 58 32 01 47 Soil, hair, nail, and skin samples were collected using aseptic techniques to minimize contamination. For soil fungal isolation, 5-gram samples were collected in sterile tubes. Hair samples were obtained using sterile scissors, carefully cut, and placed in pre-weighed, sterile tubes for analysis. Nail samples were aseptically collected from each participant and transferred to sterile containers, with nail clippers sterilized between samples to prevent cross-contamination. Skin smears were aseptically collected from a 10 cm² area of the forehead for each individual, and the sterile swab used for each sample was placed in a pre-sterilized container. Potato dextrose agar (PDA) and CHROMagar were utilized, prepared following the manufacturer's protocols. For soil fungal quantification, serial dilutions of 1 g soil extracts were performed. Nail and hair samples were homogenized, weighed, and subjected to serial dilution in sterile distilled water (10 mL per dilution step) to achieve appropriate concentrations for fungal culture. Fungal isolation was performed using the direct plating method on Potato Dextrose Agar (PDA), prepared according to Himedia's instructions. One milliliter of each sample was plated onto Petri dishes, with three replicates per site. Dishes were incubated at 25 ± 2°C for 4–7 days. Fungal colonies were then purified and identified morphologically (Wei et al., 2022 ). Result & Discussion Table 2 presents the identified fungal species and their total colony-forming units (CFU) in soil, hair, nail, and skin samples. Soil fungal counts ranged from 40 CFU at site 12 to 5280 CFU at site 2. Hair samples showed counts between 40 and 1360 CFU, with site 11 and 3 exhibiting the extremes. Nail samples ranged from 40 to 600 CFU, and skin samples from 40 to 680 CFU, both with the lowest counts at site 12 and the highest at sites 2 and 4, respectively. Higher fungal counts were observed during the study period characterized by lower temperatures and increased humidity compared to the drier, warmer period. Table (2): Total count of bacteria and fungi isolated from human samples and soil samples Table 3 presents the fungal species isolated from soil and human samples collected from the study area. Aspergillus species, including A. flavus , A. glaucus , and A. niger , were identified. A. flavus , a prevalent soil fungus, is known to produce hepatotoxic aflatoxins and can cause diverse human diseases, including gangrene and invasive aspergillosis, potentially affecting various organs (Kew, 2013). A. glaucus , primarily an environmental mold, is associated with opportunistic infections in immunocompromised individuals (Latgé, 1999; Pitt & Hocking, 2022; Patterson et al., 2016). A. niger , an opportunistic human pathogen, is also linked to invasive aspergillosis (Latgé, 1999). Other isolated fungal genera include Cladosporium, Fusarium, Mucor, Paecilomyces, Penicillium , and Syncephalastrum . Cladosporium species, while generally considered of low pathogenicity, can cause skin and nail infections in immunocompromised individuals (Guarro & Gené, 1995). Fusarium species, common soil and plant pathogens, can also cause skin and nail infections, particularly in immunocompromised individuals, characterized by lesions, discoloration, and brittleness (Guarro & Gené, 1995). Mucor species, associated with severe infections in immunocompromised individuals, can cause necrotic skin lesions, especially following trauma or burns (Spellberg et al., 2005 ). Paecilomyces species, typically found in diverse environments, can cause skin and subcutaneous infections in immunocompromised individuals, characterized by nodules, abscesses, and inflammation (Alharbi et al., 2022 ). Penicillium species, known for antibiotic production, can cause nail infections (onychomycosis), especially in individuals with pre-existing nail conditions (Elewski, 1998 ). Syncephalastrum species, rare and generally of low pathogenic potential, have been implicated in cutaneous infections in immunocompromised individuals, leading to lesions, abscesses, and cellulitis (Guarro & Gené, 1995). The isolation of these fungal species from both soil and human samples suggests a potential environmental source for human infections in the study area Table (3): Fungi species isolated from soil and human samples References Ajello L (1956) Soil as natural reservoir for human pathogenic fungi. Science 123(3203):876–879 Albazoni HJ, Al-Haidarey MJS, Nasir AS (2024) A review of microplastic pollution: Harmful effect on environment and animals, remediation strategies. J Ecol Eng, 25(2) Al-Haidarey MJ, Abdul-Jabbar RM (2020), November Potential Shift in Zooplankton Diversity during Late Winter in Response to Climate Change. In Journal of Physics: Conference Series (Vol. 1660, No. 1, p. 012082). IOP Publishing Al-Haidarey MJ, Abdumunem IA, Abbas MC, Al-Ansari N (2016) The trophic state index of Bahr Al-Najaf depression reservoir. Iraq J Environ hydrology 24:1–10 Alharbi M, Alruqaie N, Alzahrani A, Almuneef M (2022) Paecilomyces/Purpureocillium infection in children, case report, and review of the literature. J Fungi 8(9):930 Bardgett RD, Van Der Putten WH (2014) Belowground biodiversity and ecosystem functioning. Nature 515(7528):505–511 Belluck DA, Benjamin SL, Baveye P, Sampson J, Johnson B (2003) Widespread arsenic contamination of soils in residential areas and public spaces: an emerging regulatory or medical crisis? Int J Toxicol 22(2):109–128 Breza-Boruta B (2016) The assessment of airborne bacterial and fungal contamination emitted by a municipal landfill site in Northern Poland. Atmospheric Pollution Res 7(6):1043–1052 Burgess LC (2013) Organic pollutants in soil. Soils Hum health, 83–106 Byrnes JE, Gamfeldt L, Isbell F, Lefcheck JS, Griffin JN, Hector A, Duffy E, J (2014) Investigating the relationship between biodiversity and ecosystem multifunctionality: challenges and solutions. Methods Ecol Evol 5(2):111–124 Chowdhary P, Raj A, Bharagava RN (2018) Environmental pollution and health hazards from distillery wastewater and treatment approaches to combat the environmental threats: a review. Chemosphere 194:229–246 Elewski BE (1998) Onychomycosis: pathogenesis, diagnosis, and management. Clin Microbiol Rev 11(3):415–429 Guarro J, Gene J (1995) Opportunistic fusarial infections in humans. Eur J Clin Microbiol Infect Dis 14:741–754 Kew MC (2013) Aflatoxins as a cause of hepatocellular carcinoma. J Gastrointest Liver Dis, 22(3) Klimas F, Zatłoka-Mazur D, Rusiński K, Zając P, Pawłowski B, Sienkiewicz M, Pudełko I (2025) Fungal Infections: Epidemiology, Clinical Challenges, and Advances in Diagnosis and Treatment-a review. Qual Sport 38:57928–57928 Latgé JP (1999) Aspergillus fumigatus and aspergillosis. Clin Microbiol Rev 12(2):310–350 Loreau M, Naeem S, Inchausti P, Bengtsson J, Grime JP, Hector A, Wardle DA (2001) Biodiversity and ecosystem functioning: current knowledge and future challenges. Science 294(5543):804–808 Majolagbe AO, Adeyi AA, Osibanjo O, Adams AO, Ojuri OO (2017) Pollution vulnerability and health risk assessment of groundwater around an engineering Landfill in Lagos. Nigeria Chem Int 3(1):58–68 Marfe G, Di Stefano C (2016) The evidence of toxic wastes dumping in Campania, Italy. Crit Rev Oncol/Hematol 105:84–91 Masciandaro G, Macci C, Peruzzi E, Ceccanti B, Doni S (2013) Organic matter–microorganism–plant in soil bioremediation: a synergic approach. Reviews Environ Sci Bio/Technology 12:399–419 Moriello KA, Coyner K (2021) Dermatophytosis. Greene's Infectious Diseases of the Dog and Cat. WB Saunders, pp 961–977 Nair AT (2021) Bioaerosols in the landfill environment: an overview of microbial diversity and potential health hazards. Aerobiologia 37(2):185–203 Patterson TF, Thompson III, Denning GR, Fishman DW, Hadley JA, Herbrecht S, Bennett R, J. E (2016) Practice guidelines for the diagnosis and management of aspergillosis: 2016 update by the Infectious Diseases Society of America. Clin Infect Dis 63(4):e1–e60 Pitt JI, Hocking AD (2022) Ecology of fungal food spoilage. Fungi and food spoilage. Springer International Publishing, Cham, pp 3–12 Rook GA, Lowry CA, Raison CL (2015) Hygiene and other early childhood influences on the subsequent function of the immune system. Brain Res 1617:47–62 Sharma B, Nonzom S (2021) Superficial mycoses, a matter of concern: Global and Indian scenario-an updated analysis. Mycoses 64(8):890–908 Sharma V, Kumawat TK, Sharma A, Seth R, Chandra S (2015) Dermatophytes: Diagnosis of dermatophytosis and its treatment. Afr J Microbiol Res 9(19):1286–1293 Simberloff D (2014) Biological invasions: What's worth fighting and what can be won? Ecol Eng 65:112–121 Singh A, Singh DP, Tiwari R, Kumar K, Singh RV, Singh S, Nain L (2015) Taxonomic and functional annotation of gut bacterial communities of Eisenia foetida and Perionyx excavatus. Microbiol Res 175:48–56 Spellberg B, Edwards J Jr, Ibrahim A (2005) Novel perspectives on mucormycosis: pathophysiology, presentation, and management. Clin Microbiol Rev 18(3):556–569 Vogt G (2012) Ageing and longevity in the Decapoda (Crustacea): a review. Zoologischer Anzeiger-A J Comp Zool 251(1):1–25 Wei Y, Li L, Liu Y, Xiang S, Zhang H, Yi L, Xu W (2022) Identification techniques and detection methods of edible fungi species. Food Chem 374:131803 Additional Declarations The authors declare no competing interests. Cite Share Download PDF Status: Posted Version 1 posted You are reading this latest preprint version Research Square lets you share your work early, gain feedback from the community, and start making changes to your manuscript prior to peer review in a journal. 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Also discoverable on Platform About Our Team In Review Editorial Policies Advisory Board Help Center Resources Author Services Accessibility API Access RSS feed Manage Cookie Preferences © Research Square 2026 | ISSN 2693-5015 (online) Privacy Policy Terms of Service Do Not Sell My Personal Information {"props":{"pageProps":{"initialData":{"identity":"rs-6386902","acceptedTermsAndConditions":true,"allowDirectSubmit":true,"archivedVersions":[],"articleType":"Research Article","associatedPublications":[],"authors":[{"id":439042145,"identity":"52c757cd-4526-470d-9ff1-fe9b291b71d5","order_by":0,"name":"Mohammed Jawad Al-Haidarey","email":"data:image/png;base64,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","orcid":"","institution":"Kufa University","correspondingAuthor":true,"prefix":"","firstName":"Mohammed","middleName":"Jawad","lastName":"Al-Haidarey","suffix":""},{"id":439042146,"identity":"752486cd-4721-413d-a2cb-e8275b7d5759","order_by":1,"name":"Islam Tahseen Rasool Mohy-aldeen","email":"","orcid":"","institution":"Manistry of Health","correspondingAuthor":false,"prefix":"","firstName":"Islam","middleName":"Tahseen Rasool","lastName":"Mohy-aldeen","suffix":""}],"badges":[],"createdAt":"2025-04-06 13:16:48","currentVersionCode":1,"declarations":{"humanSubjects":true,"vertebrateSubjects":false,"conflictsOfInterestStatement":false,"humanSubjectEthicalGuidelines":true,"humanSubjectConsent":true,"humanSubjectClinicalTrial":false,"humanSubjectCaseReport":false,"vertebrateSubjectEthicalGuidelines":false},"doi":"10.21203/rs.3.rs-6386902/v1","doiUrl":"https://doi.org/10.21203/rs.3.rs-6386902/v1","draftVersion":[],"editorialEvents":[],"editorialNote":"","failedWorkflow":false,"files":[{"id":80135006,"identity":"a05bbb58-a7f8-4dc1-88b3-386da7afa2c4","added_by":"auto","created_at":"2025-04-08 09:54:05","extension":"png","order_by":1,"title":"Figure 1","display":"","copyAsset":false,"role":"figure","size":1124259,"visible":true,"origin":"","legend":"\u003cp\u003eMap of the study site (Najaf Provence / Iraq).\u003c/p\u003e","description":"","filename":"1.png","url":"https://assets-eu.researchsquare.com/files/rs-6386902/v1/191135b7a00fdfa3076dfc23.png"},{"id":80136447,"identity":"5458969e-1d05-46ea-90a3-099b5321949d","added_by":"auto","created_at":"2025-04-08 10:18:06","extension":"pdf","order_by":0,"title":"","display":"","copyAsset":false,"role":"manuscript-pdf","size":1832936,"visible":true,"origin":"","legend":"","description":"","filename":"manuscript.pdf","url":"https://assets-eu.researchsquare.com/files/rs-6386902/v1/8b43aafb-55a2-4312-9f3e-a97526d223d4.pdf"}],"financialInterests":"The authors declare no competing interests.","formattedTitle":"\u003cp\u003e\u003cstrong\u003eCharacterization and Human Health Risk Assessment of Fungal Species Isolated from Landfill Soil in Najaf Ashraf, Iraq\u003c/strong\u003e\u003c/p\u003e","fulltext":[{"header":"Introduction","content":"\u003cp\u003eEnvironmental pollution is one of the significant international concerns today (Chowdhary, 2018), it can affects ecosystems, biodiversity and human health worldwide by contaminant air, soil and water. Environmental pollution could be defined as the change in the composition of one of the main elements in the environment, and this change may occur naturally or by the influence of humans or animals, most current environmental problems are the result of the unacceptable behavior of humans, which causes environmental pollution to achieve self-interest (Al-Haidarey, et al., \u003cspan citationid=\"CR4\" class=\"CitationRef\"\u003e2016\u003c/span\u003e).\u003c/p\u003e \u003cp\u003eThe environmental pollution can occur under three types that are: physical, chemical and biological pollution. Biological pollutants are substances in environment that comes from living organisms and can affect our health. They include insects or insect parts, certain fungi, some bacteria and viruses (Albazoni et al., \u003cspan citationid=\"CR2\" class=\"CitationRef\"\u003e2024\u003c/span\u003e).\u003c/p\u003e \u003cp\u003eSoil pollution refers to the presence in the soil of a chemical or substance out of place and/or present at a higher than normal concentration that has adverse effects on any non-targeted. The different types of soil pollutants can be classified into inorganic, organic, or biological (Majolagbe et al., \u003cspan citationid=\"CR18\" class=\"CitationRef\"\u003e2017\u003c/span\u003e).\u003c/p\u003e \u003cp\u003eBiological pollution, also known as bio-pollution, refers to the introduction of non-native or invasive species into ecosystems, which can disrupt the natural balance and biodiversity of these environments. These invasive species often outcompete native species for resources, leading to declines in native populations and potential ecosystem collapse. Biological pollution can occur through various means, such as accidental transport via human activities, intentional introductions for agriculture or aquaculture, or even as a consequence of climate change altering habitat ranges. This phenomenon poses a significant threat to global ecosystems, with far-reaching ecological and economic implications (Simberloff ,2014).\u003c/p\u003e \u003cp\u003eSoil is the thin layer of organic and inorganic materials that covers the earth's rocky surface. The organic portion, which is derived from the decayed remains of plants and animal, is concentrated in the dark uppermost topsoil. The inorganic portion made up of rock fragments, was formed over thousands of years by physical and chemical weathering of bedrock. Productive soils are necessary for agriculture to supply the world with sufficient food (Belluck et al., \u003cspan citationid=\"CR7\" class=\"CitationRef\"\u003e2003\u003c/span\u003e).\u003c/p\u003e \u003cp\u003eSoil also contains a great number of biological contaminants such as pathogens, (tetanus), parasites, (hookworm), and fungi which cause many well-documented impacts on human health (Burgess, \u003cspan citationid=\"CR9\" class=\"CitationRef\"\u003e2013\u003c/span\u003e).\u003c/p\u003e \u003cp\u003eThere are many different ways that soil can become polluted (such as: Seepage from a landfill, Discharge of industrial waste into the soil, Percolation of contaminated water into the soil, Rupture of underground storage tanks, and Solid waste seepage) and in general can be classified into inorganic, organic, or biological (Majolagbe et al., \u003cspan citationid=\"CR18\" class=\"CitationRef\"\u003e2017\u003c/span\u003e):\u003c/p\u003e \u003cp\u003eBiological pollutants that are anthropogenic derived. The key types of biological pollutants within the environment include viruses, bacteria, fungi and/or several forms of pathogens (Marfe and Di Stefano, \u003cspan citationid=\"CR19\" class=\"CitationRef\"\u003e2016\u003c/span\u003e). Biological is essential to the maintenance of ecosystem functioning (Loreau et al., \u003cspan citationid=\"CR17\" class=\"CitationRef\"\u003e2001\u003c/span\u003e, Byrnes et al., \u003cspan citationid=\"CR10\" class=\"CitationRef\"\u003e2014\u003c/span\u003e). Increasing evidence suggests that the loss in biodiversity is becoming an issue of global concern, which may negatively affect ecosystem sustainability and food security (Al-Haidarey \u0026amp; Abdul-Jabbar, 2020).\u003c/p\u003e \u003cp\u003eThe belowground microbial communities play important roles in driving Earth\u0026rsquo;s biogeochemical cycles, decomposing organic matter, suppressing soil-borne disease, and promoting plant growth (Bardgett and van der Putten, \u003cspan citationid=\"CR6\" class=\"CitationRef\"\u003e2014\u003c/span\u003e). This has triggered growing concern that loss in soil microbial diversity may impair key ecosystem functions with potential consequences for plant productivity (Singh et al., \u003cspan citationid=\"CR29\" class=\"CitationRef\"\u003e2015\u003c/span\u003e).\u003c/p\u003e \u003cp\u003eFungi are tiny living organisms and a number of fungi cause diseases to plants, animals and humans. Fungi are abundant in the surface layer of the soil and are found in large numbers in every gram of soil. Fungi multiply when the soil acidity or humidity is high. Fungi also play a role in the decomposition of complex organic compounds and also help Fungi also live everywhere parasitizing on soil grains on something that contains organic matter, and the age of fungi may exceed the age of fungi to become longer-lived than some living organisms, so some of the fungi reach an age of (4500) years (Vogt, \u003cspan citationid=\"CR31\" class=\"CitationRef\"\u003e2012\u003c/span\u003e\u003cb\u003e).\u003c/b\u003e\u003c/p\u003e \u003cp\u003eFungal infections affecting the skin, nails, and hair are a widespread health concern, with diverse etiological agents and varying degrees of severity (Klimas et al., \u003cspan citationid=\"CR15\" class=\"CitationRef\"\u003e2025\u003c/span\u003e). These infections, collectively known as cutaneous mycoses, significantly impact human health and quality of life (Sharma \u0026amp; Nonzom, \u003cspan citationid=\"CR26\" class=\"CitationRef\"\u003e2021\u003c/span\u003e). Dermatophytes is a primary group of fungi responsible for many skin, nail, and hair infections, these fungi possess the ability to utilize keratin, a protein found in these tissues, as a nutrient source (Sharma et al., \u003cspan citationid=\"CR27\" class=\"CitationRef\"\u003e2015\u003c/span\u003e).\u003c/p\u003e \u003cp\u003eTransmission can occur through direct contact with infected individuals or animals. Indirect transmission can occur through contaminated objects or environments, including soil (Moriello \u0026amp; Coyner, \u003cspan citationid=\"CR21\" class=\"CitationRef\"\u003e2021\u003c/span\u003e).\u003c/p\u003e \u003cp\u003eSoil serves as a natural reservoir for numerous fungal species, including dermatophytes and other potential pathogens (Ajello, \u003cspan citationid=\"CR1\" class=\"CitationRef\"\u003e1956\u003c/span\u003e). Contamination of soil with organic matter, such as decaying plant and animal debris, can promote fungal growth (Masciandaro et al., \u003cspan citationid=\"CR20\" class=\"CitationRef\"\u003e2013\u003c/span\u003e). Landfill sites, in particular, pose a significant risk due to the accumulation of organic waste and the creation of favorable conditions for fungal proliferation (Nair, \u003cspan citationid=\"CR22\" class=\"CitationRef\"\u003e2021\u003c/span\u003e). Fungi present in landfill soil can become airborne or be transferred through direct contact, increasing the risk of human exposure (Breza-Boruta, \u003cspan citationid=\"CR8\" class=\"CitationRef\"\u003e2016\u003c/span\u003e). Individuals with weakened immune systems, those who work in or frequent contaminated environments, and those with poor hygiene are at increased risk of infection (Rook et al., \u003cspan citationid=\"CR25\" class=\"CitationRef\"\u003e2015\u003c/span\u003e).\u003c/p\u003e \u003cp\u003eUnderstanding the prevalence and diversity of fungal species in soil, particularly in high-risk environments like landfills, is crucial for assessing potential health risks. Also, investigating the link between soil contamination and human fungal infections can inform public health strategies for prevention and control. In essence, soil, particularly in contaminated environments, can act as a vector for fungal transmission, highlighting the importance of studying the mycological composition of soil and its potential impact on human health. Therefore, this study comes to determine some of potentially fungus hazardous to human health in some polluted soil in Najaf Provence.\u003c/p\u003e"},{"header":"Materials and methods","content":"\u003cp\u003eLab detergent and a brush was used to clean glassware before autoclaving. The glassware was sterilize using autoclave at 121\u0026deg;C for 15\u0026ndash;20 minutes. Also, if glassware contacts biohazards, disinfect before rinsing. Then, the clean glassware stored in a dust-free environment, after labeling. For prevent Cross-Contamination, we kept glassware sets separate.\u003c/p\u003e\n\u003cp\u003eAl-Najaf Provence is one of the most important holy cities in Iraq, about 180 kilometers southern Baghdad \u0026ndash; Iraq. Samples were taken from thirteen sites, during march 2023 to May 2023. About three replicates were collected for each site in Najaf Provence. Site 1 it was sanitary Landfill Near Karbala Road Site 2 it was Sanitary Landfill in Al-Herfiyen Neighborhood. Site 3 it was a Random Waste Dumping in Industrial Neighborhood. Site 4 it was a Farm Area in Kufa Irrigated with municipal wastewater. Site 5 it was Area in Bahr al-Najaf Brick Factories. Site 6 it was a Farm in the Abu Sakhir Area. Site 7 it was a Farm in the Qazwiniya Area Near Hilla Najaf road. Site 8 it was at Entrance to the round Street. Site 9 it was near Al-Zahraa Bridges Crossroad. Site 10 it was near Airport Crossroad. Site 11 it was near Crossroad of Al Salam Park. Site 12 it was Crossroad near Najaf Teaching Hospital. Site 13 it was beside Askareeyn Tunnel Crossroad near Maysan Neighborhood (Fig.\u0026nbsp;\u003cspan class=\"InternalRef\"\u003e1\u003c/span\u003e; Table\u0026nbsp;1)\u003c/p\u003e\n\u003cp\u003eTable\u0026nbsp;(2): Geographical locations of the studied stations in Najaf Provence\u003c/p\u003e\n\u003cdiv class=\"gridtable\"\u003e\n\u003cdiv class=\"colspec\" align=\"left\"\u003e\u0026nbsp;\u003c/div\u003e\n\u003ctable id=\"Taba\" border=\"1\"\u003e\n\u003cthead\u003e\n\u003ctr\u003e\n\u003cth align=\"left\"\u003e\n\u003cp\u003eStation\u003c/p\u003e\n\u003c/th\u003e\n\u003cth colspan=\"3\" align=\"left\"\u003e\n\u003cp\u003eLongitude(East)\u003c/p\u003e\n\u003c/th\u003e\n\u003cth colspan=\"4\" align=\"left\"\u003e\n\u003cp\u003eLatitude (North)\u003c/p\u003e\n\u003c/th\u003e\n\u003c/tr\u003e\n\u003c/thead\u003e\n\u003ctbody\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\u0026nbsp;\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e\u0026ordm;\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e\u0026rsquo;\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e\"\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e\u0026ordm;\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e\u0026rsquo;\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e\"\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt1\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e26\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e83\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e13\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e01\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt2\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e27\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e01\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e31\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e98\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e31\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt3\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e38\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e57\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e01\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e20\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt4\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e76\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e04\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e36\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt5\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e29\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e00\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e31\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e95\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e63\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt6\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e76\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e31\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e91\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e39\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt7\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e35\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e92\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e12\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e86\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt8\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e31\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e86\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e06\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e16\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt9\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e35\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e66\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e04\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e37\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt10\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e37\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e82\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e31\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e99\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e92\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt11\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e34\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e09\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e02\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e01\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt12\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e33\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e03\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e54\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003ctr\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003eSt13\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e44\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd colspan=\"2\" align=\"left\"\u003e\n\u003cp\u003e58\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e32\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e01\u003c/p\u003e\n\u003c/td\u003e\n\u003ctd align=\"left\"\u003e\n\u003cp\u003e47\u003c/p\u003e\n\u003c/td\u003e\n\u003c/tr\u003e\n\u003c/tbody\u003e\n\u003c/table\u003e\n\u003c/div\u003e\n\u003cp\u003eSoil, hair, nail, and skin samples were collected using aseptic techniques to minimize contamination. For soil fungal isolation, 5-gram samples were collected in sterile tubes. Hair samples were obtained using sterile scissors, carefully cut, and placed in pre-weighed, sterile tubes for analysis. Nail samples were aseptically collected from each participant and transferred to sterile containers, with nail clippers sterilized between samples to prevent cross-contamination. Skin smears were aseptically collected from a 10 cm\u0026sup2; area of the forehead for each individual, and the sterile swab used for each sample was placed in a pre-sterilized container.\u003c/p\u003e\n\u003cp\u003ePotato dextrose agar (PDA) and CHROMagar were utilized, prepared following the manufacturer's protocols. For soil fungal quantification, serial dilutions of 1 g soil extracts were performed. Nail and hair samples were homogenized, weighed, and subjected to serial dilution in sterile distilled water (10 mL per dilution step) to achieve appropriate concentrations for fungal culture.\u003c/p\u003e\n\u003cp\u003eFungal isolation was performed using the direct plating method on Potato Dextrose Agar (PDA), prepared according to Himedia's instructions. One milliliter of each sample was plated onto Petri dishes, with three replicates per site. Dishes were incubated at 25\u0026thinsp;\u0026plusmn;\u0026thinsp;2\u0026deg;C for 4\u0026ndash;7 days. Fungal colonies were then purified and identified morphologically (Wei et al., \u003cspan class=\"CitationRef\"\u003e2022\u003c/span\u003e).\u003c/p\u003e\n\u003cdiv id=\"Sec3\" class=\"Section2\"\u003e\u0026nbsp;\u003c/div\u003e"},{"header":"Result \u0026 Discussion","content":"\u003cp\u003eTable\u0026nbsp;2 presents the identified fungal species and their total colony-forming units (CFU) in soil, hair, nail, and skin samples. Soil fungal counts ranged from 40 CFU at site 12 to 5280 CFU at site 2. Hair samples showed counts between 40 and 1360 CFU, with site 11 and 3 exhibiting the extremes. Nail samples ranged from 40 to 600 CFU, and skin samples from 40 to 680 CFU, both with the lowest counts at site 12 and the highest at sites 2 and 4, respectively. Higher fungal counts were observed during the study period characterized by lower temperatures and increased humidity compared to the drier, warmer period.\u003c/p\u003e\n\u003cp\u003eTable\u0026nbsp;(2): Total count of bacteria and fungi isolated from human samples and soil samples\u003c/p\u003e\n\u003cp\u003e\u003cimg 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\"\u003e\u003c/p\u003e\n\u003cp\u003eTable 3 presents the fungal species isolated from soil and human samples collected from the study area. \u003cem\u003eAspergillus\u003c/em\u003e species, including \u003cem\u003eA. flavus\u003c/em\u003e, \u003cem\u003eA. glaucus\u003c/em\u003e, and \u003cem\u003eA. niger\u003c/em\u003e, were identified. \u003cem\u003eA. flavus\u003c/em\u003e, a prevalent soil fungus, is known to produce hepatotoxic aflatoxins and can cause diverse human diseases, including gangrene and invasive aspergillosis, potentially affecting various organs (Kew, 2013). \u003cem\u003eA. glaucus\u003c/em\u003e, primarily an environmental mold, is associated with opportunistic infections in immunocompromised individuals (Latg\u0026eacute;, 1999; Pitt \u0026amp; Hocking, 2022; Patterson et al., 2016). \u003cstrong\u003eA. niger\u003c/strong\u003e, an opportunistic human pathogen, is also linked to invasive aspergillosis (Latg\u0026eacute;, 1999).\u003c/p\u003e\n\u003cp\u003eOther isolated fungal genera include \u003cem\u003eCladosporium, Fusarium, Mucor, Paecilomyces, Penicillium\u003c/em\u003e, and \u003cem\u003eSyncephalastrum\u003c/em\u003e. \u003cem\u003eCladosporium\u003c/em\u003e species, while generally considered of low pathogenicity, can cause skin and nail infections in immunocompromised individuals (Guarro \u0026amp; Gen\u0026eacute;, 1995). \u003cem\u003eFusarium\u003c/em\u003e species, common soil and plant pathogens, can also cause skin and nail infections, particularly in immunocompromised individuals, characterized by lesions, discoloration, and brittleness (Guarro \u0026amp; Gen\u0026eacute;, 1995). \u003cem\u003eMucor\u003c/em\u003e species, associated with severe infections in immunocompromised individuals, can cause necrotic skin lesions, especially following trauma or burns (Spellberg et al., \u003cspan class=\"CitationRef\"\u003e2005\u003c/span\u003e). Paecilomyces species, typically found in diverse environments, can cause skin and subcutaneous infections in immunocompromised individuals, characterized by nodules, abscesses, and inflammation (Alharbi et al., \u003cspan class=\"CitationRef\"\u003e2022\u003c/span\u003e). Penicillium species, known for antibiotic production, can cause nail infections (onychomycosis), especially in individuals with pre-existing nail conditions (Elewski, \u003cspan class=\"CitationRef\"\u003e1998\u003c/span\u003e). Syncephalastrum species, rare and generally of low pathogenic potential, have been implicated in cutaneous infections in immunocompromised individuals, leading to lesions, abscesses, and cellulitis (Guarro \u0026amp; Gen\u0026eacute;, 1995).\u003c/p\u003e\n\u003cp\u003eThe isolation of these fungal species from both soil and human samples suggests a potential environmental source for human infections in the study area\u003c/p\u003e\n\u003cp\u003eTable\u0026nbsp;(3): Fungi species isolated from soil and human samples\u003c/p\u003e\n\u003cp\u003e\u0026nbsp;\u003cimg 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L (1956) Soil as natural reservoir for human pathogenic fungi. Science 123(3203):876\u0026ndash;879\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eAlbazoni HJ, Al-Haidarey MJS, Nasir AS (2024) A review of microplastic pollution: Harmful effect on environment and animals, remediation strategies. J Ecol Eng, 25(2)\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eAl-Haidarey MJ, Abdul-Jabbar RM (2020), November Potential Shift in Zooplankton Diversity during Late Winter in Response to Climate Change. In Journal of Physics: Conference Series (Vol. 1660, No. 1, p. 012082). IOP Publishing\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eAl-Haidarey MJ, Abdumunem IA, Abbas MC, Al-Ansari N (2016) The trophic state index of Bahr Al-Najaf depression reservoir. Iraq J Environ hydrology 24:1\u0026ndash;10\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eAlharbi M, Alruqaie N, Alzahrani A, Almuneef M (2022) Paecilomyces/Purpureocillium infection in children, case report, and review of the literature. J Fungi 8(9):930\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eBardgett RD, Van Der Putten WH (2014) Belowground biodiversity and ecosystem functioning. Nature 515(7528):505\u0026ndash;511\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eBelluck DA, Benjamin SL, Baveye P, Sampson J, Johnson B (2003) Widespread arsenic contamination of soils in residential areas and public spaces: an emerging regulatory or medical crisis? Int J Toxicol 22(2):109\u0026ndash;128\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eBreza-Boruta B (2016) The assessment of airborne bacterial and fungal contamination emitted by a municipal landfill site in Northern Poland. Atmospheric Pollution Res 7(6):1043\u0026ndash;1052\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eBurgess LC (2013) Organic pollutants in soil. Soils Hum health, 83\u0026ndash;106\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eByrnes JE, Gamfeldt L, Isbell F, Lefcheck JS, Griffin JN, Hector A, Duffy E, J (2014) Investigating the relationship between biodiversity and ecosystem multifunctionality: challenges and solutions. Methods Ecol Evol 5(2):111\u0026ndash;124\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eChowdhary P, Raj A, Bharagava RN (2018) Environmental pollution and health hazards from distillery wastewater and treatment approaches to combat the environmental threats: a review. Chemosphere 194:229\u0026ndash;246\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eElewski BE (1998) Onychomycosis: pathogenesis, diagnosis, and management. Clin Microbiol Rev 11(3):415\u0026ndash;429\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eGuarro J, Gene J (1995) Opportunistic fusarial infections in humans. Eur J Clin Microbiol Infect Dis 14:741\u0026ndash;754\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eKew MC (2013) Aflatoxins as a cause of hepatocellular carcinoma. J Gastrointest Liver Dis, 22(3)\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eKlimas F, Zatłoka-Mazur D, Rusiński K, Zając P, Pawłowski B, Sienkiewicz M, Pudełko I (2025) Fungal Infections: Epidemiology, Clinical Challenges, and Advances in Diagnosis and Treatment-a review. Qual Sport 38:57928\u0026ndash;57928\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eLatg\u0026eacute; JP (1999) Aspergillus fumigatus and aspergillosis. Clin Microbiol Rev 12(2):310\u0026ndash;350\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eLoreau M, Naeem S, Inchausti P, Bengtsson J, Grime JP, Hector A, Wardle DA (2001) Biodiversity and ecosystem functioning: current knowledge and future challenges. Science 294(5543):804\u0026ndash;808\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eMajolagbe AO, Adeyi AA, Osibanjo O, Adams AO, Ojuri OO (2017) Pollution vulnerability and health risk assessment of groundwater around an engineering Landfill in Lagos. Nigeria Chem Int 3(1):58\u0026ndash;68\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eMarfe G, Di Stefano C (2016) The evidence of toxic wastes dumping in Campania, Italy. Crit Rev Oncol/Hematol 105:84\u0026ndash;91\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eMasciandaro G, Macci C, Peruzzi E, Ceccanti B, Doni S (2013) Organic matter\u0026ndash;microorganism\u0026ndash;plant in soil bioremediation: a synergic approach. Reviews Environ Sci Bio/Technology 12:399\u0026ndash;419\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eMoriello KA, Coyner K (2021) Dermatophytosis. Greene's Infectious Diseases of the Dog and Cat. WB Saunders, pp 961\u0026ndash;977\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eNair AT (2021) Bioaerosols in the landfill environment: an overview of microbial diversity and potential health hazards. Aerobiologia 37(2):185\u0026ndash;203\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003ePatterson TF, Thompson III, Denning GR, Fishman DW, Hadley JA, Herbrecht S, Bennett R, J. E (2016) Practice guidelines for the diagnosis and management of aspergillosis: 2016 update by the Infectious Diseases Society of America. Clin Infect Dis 63(4):e1\u0026ndash;e60\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003ePitt JI, Hocking AD (2022) Ecology of fungal food spoilage. Fungi and food spoilage. Springer International Publishing, Cham, pp 3\u0026ndash;12\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eRook GA, Lowry CA, Raison CL (2015) Hygiene and other early childhood influences on the subsequent function of the immune system. Brain Res 1617:47\u0026ndash;62\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eSharma B, Nonzom S (2021) Superficial mycoses, a matter of concern: Global and Indian scenario-an updated analysis. Mycoses 64(8):890\u0026ndash;908\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eSharma V, Kumawat TK, Sharma A, Seth R, Chandra S (2015) Dermatophytes: Diagnosis of dermatophytosis and its treatment. Afr J Microbiol Res 9(19):1286\u0026ndash;1293\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eSimberloff D (2014) Biological invasions: What's worth fighting and what can be won? Ecol Eng 65:112\u0026ndash;121\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eSingh A, Singh DP, Tiwari R, Kumar K, Singh RV, Singh S, Nain L (2015) Taxonomic and functional annotation of gut bacterial communities of Eisenia foetida and Perionyx excavatus. Microbiol Res 175:48\u0026ndash;56\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eSpellberg B, Edwards J Jr, Ibrahim A (2005) Novel perspectives on mucormycosis: pathophysiology, presentation, and management. Clin Microbiol Rev 18(3):556\u0026ndash;569\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eVogt G (2012) Ageing and longevity in the Decapoda (Crustacea): a review. Zoologischer Anzeiger-A J Comp Zool 251(1):1\u0026ndash;25\u003c/span\u003e\u003c/li\u003e \u003cli\u003e\u003cspan\u003eWei Y, Li L, Liu Y, Xiang S, Zhang H, Yi L, Xu W (2022) Identification techniques and detection methods of edible fungi species. Food Chem 374:131803\u003c/span\u003e\u003c/li\u003e\u003c/ol\u003e"}],"fulltextSource":"","fullText":"","funders":[],"hasAdminPriorityOnWorkflow":false,"hasManuscriptDocX":true,"hasOptedInToPreprint":true,"hasPassedJournalQc":"","hasAnyPriority":true,"hideJournal":true,"highlight":"","institution":"University of Kufa","isAcceptedByJournal":false,"isAuthorSuppliedPdf":false,"isDeskRejected":"","isHiddenFromSearch":false,"isInQc":false,"isInWorkflow":false,"isPdf":false,"isPdfUpToDate":true,"isWithdrawnOrRetracted":false,"journal":{"display":true,"email":"
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