Hayman, G. and Poulter, B. and Ghude, S.D. and Blyth, E. and Sinha, V. and Archibald, S. and Ashworth, K. and Barlow, V. and Fares, S. and Feig, G. and Hiyama, T. and Jin, J. and Juhola, S. and Lee, M. and Leuzinger, S. and Mahecha, M.D. and Meng, X. and Odee, D. and Purser, G. and Sato, H. and Saxena, P. and Semeena, V.S. and Steiner, A. and Wang, X. and Wolff, S. (2024) Research into land atmosphere interactions supports the Sustainable Development agenda. Global Sustainability, 7: e12.
Full text not available from this repository.Abstract
Non-technical summary Greenhouse gas emissions and land use change - from deforestation, forest degradation, and agricultural intensification - are contributing to climate change and biodiversity loss. Important land-based strategies such as planting trees or growing bioenergy crops (with carbon capture and storage) are needed to achieve the goals of the Paris Climate Agreement and to enhance biodiversity. The integrated Land Ecosystems Atmospheric Processes Study (iLEAPS) is an international knowledge-exchange and capacity-building network, specializing in ecosystems and their role in controlling the exchange of water, energy and chemical compounds between the land surface and the atmosphere. We outline priority directions for land-atmosphere interaction research and its contribution to the sustainable development agenda. Technical summary Greenhouse-gas emissions from human activities and land use change (from deforestation, forest degradation, and agricultural intensification) are contributing to climate change and biodiversity loss. Afforestation, reforestation, or growing bioenergy crops (with carbon capture and storage) are important land-based strategies to achieve the goals of the Paris Climate Agreement and to enhance biodiversity. The effectiveness of these actions depends on terrestrial ecosystems and their role in controlling or moderating the exchange of water, heat, and chemical compounds between the land surface and the atmosphere. The integrated Land Ecosystems Atmospheric Processes Study (iLEAPS), a global research network of Future Earth, enables the international community to communicate and remain up to date with developments and concepts about terrestrial ecosystems and their role in global water, energy, and biogeochemical cycles. Covering critically important topics such as fire, forestry, wetlands, methane emissions, urban areas, pollution, and climate change, the iLEAPS Global Research Programme sits center stage for some of the most important environmental questions facing humanity. In this paper, we outline the new challenges and opportunities for land-atmosphere interaction research and its role in supporting the broader sustainable development agenda.