Biochar application to temperate grasslands: challenges and opportunities for delivering multiple ecosystem services

Grasslands (natural, semi-natural and improved) occupy approximately one-third of the terrestrial biosphere and are key for global ecosystem service provision, storing up to 30% of soil organic carbon (SOC). To date, most research on soil carbon (C) sequestration has focused on croplands where the l...

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Bibliographic Details
Published in:Biochar (Online) 2023-06, Vol.5 (1), p.33-33, Article 33
Main Authors: Brown, Robert W., Chadwick, David R., Bott, Tom, West, Helen M., Wilson, Paul, Hodgins, Genevieve R., Snape, Colin E., Jones, Davey L.
Format: Article
Language:English
Subjects:
Agriculture
Carbon storage
Ceramics
Composites
Earth and Environmental Science
Environment
Environmental Engineering/Biotechnology
Fossil Fuels (incl. Carbon Capture)
Glass
Greenhouse gas emissions
Natural Materials
Offsetting
Pastureland
Perspective
Renewable and Green Energy
Soil Science & Conservation
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Summary:Grasslands (natural, semi-natural and improved) occupy approximately one-third of the terrestrial biosphere and are key for global ecosystem service provision, storing up to 30% of soil organic carbon (SOC). To date, most research on soil carbon (C) sequestration has focused on croplands where the levels of native soil organic matter (SOM) are typically low and significant potential exists to replenish SOM stocks. However, with the renewed push to achieve “net zero” C emissions by 2050, grasslands may offer an additional C store, utilising tools such as biochar. Here, we critically evaluate the potential for biochar as a technology for increasing grassland C stocks, identifying a number of practical, economic, social and legislative challenges that need to be addressed before the widescale adoption of biochar may be achieved. We critically assess the current knowledge within the field of grassland biochar research in the context of ecosystem service provision and provide opinions on the applicability of biochar as an amendment to different types of grassland (improved, semi-improved and unimproved) and the potential effect on ecosystem provision using a range of application techniques in the topsoil and subsoil. We concluded that the key question remains, is it possible for managed grasslands to store more C, without causing a loss in additional ecosystem services? To address this question future research must take a more multidisciplinary and holistic approach when evaluating the potential role of biochar at sequestering C in grasslands to mitigate climate change. Graphical Abstract Highlights Carbon (C) rich grassland soils may offer an additional C store, utilising tools such as biochar Identification of practical, economic, social and legislative challenges for scaled adoption of biochar in grasslands Key question: will enhanced C storage in grasslands soils cause a loss in additional ecosystem services?
ISSN:2524-7867
2524-7972
2524-7867
DOI:10.1007/s42773-023-00232-y