Scientific rigour must underpin assessment of Australian nature-based solutions to climate change

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Abstract

Limiting global warming below 2 degrees C requires nature-based climate solutions which are expected to supply more than a third of cost-effective climate mitigation by 2030. Regenerating native forests under the Australian Government’s Australian Carbon Credit Unit (ACCU) program are delivering large-scale carbon storage across approximately 3.4 million hectares. Projects using the Human Induced regeneration (HIR) method3 25 aim to restore native forests through improved land management, generating ACCUs that underpin both legislated emissions reduction and voluntary decarbonisation targets. Scientific rigour and transparency must underpin the integrity of the ACCU program. Constructive critiques of carbon crediting programs allow refinement over time, strengthening climate action. However, flawed analyses can undermine investment decisions and diminish real outcomes when it impacts critical policy decisions. Macintosh et al. (2024; https://doi.org/10.1038/s43247-024-01313-x) contend that HIR activities are having limited influence on changes in woody vegetation cover in Australia. Macintosh analysed the National Forest and Sparse Woody Vegetation Dataset (NFSWVD) and, elsewhere, Woody Cover Fraction (WCF) to compare vegetation trends between credited HIR areas and adjacent comparison areas. Here, we show their assessment relies on two flawed assumptions: 1. that publicly available, national-scale datasets can accurately detect and quantify vegetation cover at the scale of individual projects, and 2. that adjacent comparison areas represent valid experimental controls. We provide high quality reference data, collected on HIR projects as standard practice, as empirical evidence that these national-scale datasets systematically underestimate regeneration success on HIR projects, and are therefore not fit for purpose as used by Macintosh. We also demonstrate that Macintosh' s experimental design undermines and does not support their stated conclusions.
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This is a Preprint and has not been peer reviewed. This is version 3 of this Preprint. You must log in to post a comment. There are no comments or no comments have been made public for this article. This is a Preprint and has not been peer reviewed. This is version 3 of this Preprint. Add a Comment You must log in to post a comment. Comments There are no comments or no comments have been made public for this article. Limiting global warming below 2C requires nature-based climate solutions which are expected to supply more than a third of cost-effective climate mitigation by 2030, while prioritising avoiding fossil fuel emissions. Regenerating native forests under the Australian Government’s Australian Carbon Credit Unit (ACCU) program are delivering large-scale carbon storage across approximately 3.4 million hectares. Projects using the human-induced regeneration (HIR) method aim to restore native forests through improved land management, generating ACCUs that underpin both legislated emissions reduction and voluntary decarbonisation targets. Scientific rigour must underpin the integrity of the ACCU program. Constructive critiques of carbon crediting programs allow refinement over time, strengthening climate action4. However, flawed analyses that lack necessary analytical rigour can undermine investment decisions and diminish real outcomes when they impact critical policy decisions. . Macintosh et al. (2024; hereafter Macintosh) contend that HIR activities are having limited influence on changes in woody vegetation cover in Australia. Macintosh analysed the National Forest and Sparse Woody Vegetation Dataset (NFSWVD) and, elsewhere, Woody Cover Fraction (WCF) to compare vegetation trends between credited HIR areas and adjacent comparison areas. However, Macintosh provides no valid empirical support to validate the data sets they applied were fit for purpose, a standard scientific convention. Here, we provide evidence that their assessment relies on two untested assumptions: - that publicly available, national-scale datasets can accurately detect and quantify vegetation cover at the scale of individual projects, and - that adjacent comparison areas represent valid experimental controls. We applied high quality reference data, collected on HIR projects as standard practice, as empirical evidence that the national-scale datasets (NFSWVD & WCF) used by Macintosh systematically underestimate regeneration success on HIR projects in the Australian rangelands, and are therefore not fit for purpose as used by Macintosh. We also demonstrate that Macintosh's experimental design has significant fundamental design failures that undermines their findings. https://doi.org/10.32942/X2CW5W Environmental Monitoring Published: 2025-06-11 02:40 Last Updated: 2025-07-05 18:11 CC BY Attribution 4.0 International Conflict of interest statement: The authors receive financial remuneration for administering carbon farming projects and monitoring their performance. Language: English

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