Joint research conducted by an interdisciplinary international team geospatially modeled and quantified above and belowground biomass carbon on agricultural land, assessing the mitigation benefits of increasing tree cover in agricultural lands under scenarios of incremental and systemic change.
Kunming, People’s Republic of China, 25 May 2022 – Increased use of trees in agriculture can lead the way towards a transformation of the global food system, according to a new study released in May revealing that even small incremental increases in global tree cover on agricultural land could provide short-term respite to carbon accumulation in the atmosphere, benefiting the livelihoods of smallholder farmers, biodiversity, ecosystems, and ecosystem services.
Building on multi-year work to quantify the extent, geographic distribution, and carbon mitigation potential of agroforestry, the study— led by scientists from the Centre for Mountain Futures of the Kunming Institute for Botany (Chinese Academy of Science), the Centre for International Forestry Research-World Agroforestry (CIFOR-ICRAF), The Nature Conservancy (TNC), and the Euro-Mediterranean Centre of Climate Change (CMCC)—is a clarion call to policymakers and institutions to promote the widespread implementation of agroforestry practices to mitigate the effects of climate change while bolstering ecosystems, restoring degraded land and enhancing food security.
Published in the new journal Circular Agricultural Systems and entitled ‘Global Carbon Sequestration Potential of Agroforestry and Increased Tree Cover on Agricultural Land’, the study represents the latest iteration of research on agroforestry, and its potential for carbon mitigation, over a 15-year period of interdisciplinary collaboration.
‘Recently, there has been growing recognition in the land-use sector about the role of agroforestry to bolster mitigation efforts and strengthen small farmer adaptive resilience,’ said Robert Zomer, lead author of the study. ‘Trees on farms are now seen as the road forward for transitioning to improved agricultural systems with lower carbon footprints and environmentally sound practices.’
The recently released IPCC Mitigation report placed agroforestry as one of the top three Agriculture, Forestry and Other Land Use (AFOLU) mitigation pathways, noting that it delivers multiple biophysical and socioeconomic co-benefits such as increased land productivity, diversified livelihoods, reduced soil erosion, improved water quality, and more hospitable regional climates, ultimately concluding there is ‘high confidence’ in agroforestry’s mitigation potential at field scale.
‘The opportunity to achieve beneficial outcomes for both conservation and food production by increasing tree cover on farms and in farming landscapes, including building resilience and soil health benefits, cannot be overstated,’ said Deborah Bossio, lead scientist at The Nature Conservancy.
‘Resilient agroforestry systems can therefore offer great opportunities to link adaptation and mitigation with climate change, and should be further stimulated within agriculture policy frameworks,’ added Antonio Trabucco, senior scientist at CMCC.
The research also plugs holes in carbon accounting schemes.
‘This recent report noted a discrepancy in anthropogenic land-based carbon accounting between the numbers countries submit in their national GHG inventories and what global modelling assumes,’ said Meine van Noordwijk, lead scientist at the Centre for International Forestry Research-World Agroforestry (CIFOR-ICRAF), ‘suggesting the need for finer representation of trees outside forests. The updated dataset we present here helps address this gap in the literature.’
The current study used updated carbon density maps to estimate biomass carbon present on agricultural land. It then posed the question — how much additional carbon would be sequestered if tree cover were increased? Two ecologically reasonable land-use scenarios were generated to answer this question.
The first scenario modelled changes in biomass carbon if just small incremental changes were adopted. ‘Incremental changes’ were defined as practices that increased tree cover within existing or slightly modified agricultural systems, such as adding trees to field edges, along roadsides and canals, or as windbreaks and hedgerows.
The second scenario modelled changes in biomass carbon if systems change was adopted. ‘System changes’ were defined as wide-scale adoption of agroforestry or other practices that integrate trees within the production system.
Incremental change in existing agricultural landscapes increased biomass carbon from 4-6 PgC (petagrams of carbon), and up to 12-19 PgC for a systemic change to tree-based systems. Increasing tree cover on agricultural land by just 10% globally, that is, by 1% per year for the next ten years, would sequester more than 18 PgC. By comparison, aboveground losses due to tropical land use conversion have been estimated at 0.6–1.2 Pg yr-1, with net emissions from land use, land-use change, and forestry for the year 2020 estimated to be 1.6 ± 0.7 PgC yr−1.
Given the numerous ways to integrate trees and shrubs with crops and/or livestock, agroforestry practices can be implemented around the world. The study also used geospatial modelling techniques to show which regional bioclimatic conditions were most suitable to increasing tree cover on agricultural land, concluding that South America, Southeast Asia, West and Central Africa, and North America had the most potential to increase biomass carbon given their large land areas and tropical/humid conditions that facilitate plant growth.
‘Increasing on-farm tree cover is not a panacea for runaway carbon emissions,’ said Xu Jianchu, Director of the Centre for Mountain Futures and Regional Coordinator of East & Central Asia for CIFOR-ICRAF. ‘However, it can help blunt the most severe effects short-term while laying the groundwork for future political and financial support, as part of the long-term transformation of our global food system.’
For more information:
Citation: Zomer, R.J., Bossio, D.A., Trabucco, A., Noordwijk, M., Xu, J. 2022. Global carbon sequestration potential of agroforestry and increased tree cover on agricultural land. Circular Agricultural Systems 2: 3 https://doi.org/10.48130/CAS-2022-0003
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Euro-Mediterranean Center of Climate Change (CMCC)
The Euro-Mediterranean Center of Climate Change CMCC aims at furthering knowledge and model our climate system and its interactions with society to provide reliable, rigorous, and timely scientific results to stimulate sustainable growth, protect the environment and develop science driven adaptation and mitigation policies in a changing climate. To this end, CMCC is engaged with extensive research methods to develop foresights and quantitative analysis of our future planet and society.
Center for International Forestry Research (CIFOR) and World Agroforestry (ICRAF)
The Center for International Forestry Research (CIFOR) and World Agroforestry (ICRAF) envision a more equitable world where forestry and landscapes enhance the environment and well-being for all. CIFOR-ICRAF are non-profit, scientific institutions that conduct research on the most pressing challenges of forest and landscape management around the world. Using a global, multidisciplinary approach, the aim is to improve human well-being, protect the environment, and increase equity. Their work focuses on innovative research, developing partners’ capacity, and actively engaging in dialogue with all stakeholders to inform policies and practices that affect forests and people. Their work spans the globe, with expertise in the ‘global South’. Founded in 1993 and 1978 respectively, CIFOR-ICRAF are members of CGIAR, a global research partnership for a food secure future dedicated to reducing poverty, enhancing food and nutrition security, and improving natural resources.
The Nature Conservancy (TNC)
The Nature Conservancy is a global environmental nonprofit working to create a world where people and nature can thrive. Founded in the U.S. through grassroots action in 1951, The Nature Conservancy has grown to become one of the most effective and wide-reaching environmental organizations in the world. Thanks to more than a million members and the dedicated efforts of our diverse staff and over 400 scientists, we impact conservation in 76 countries and territories: 37 by direct conservation impact and 39 through partners.