Land-use emissions play a critical role in land-based mitigation for Paris climate targets

被引:0
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作者
Anna B. Harper
Tom Powell
Peter M. Cox
Joanna House
Chris Huntingford
Timothy M. Lenton
Stephen Sitch
Eleanor Burke
Sarah E. Chadburn
William J. Collins
Edward Comyn-Platt
Vassilis Daioglou
Jonathan C. Doelman
Garry Hayman
Eddy Robertson
Detlef van Vuuren
Andy Wiltshire
Christopher P. Webber
Ana Bastos
Lena Boysen
Philippe Ciais
Narayanappa Devaraju
Atul K. Jain
Andreas Krause
Ben Poulter
Shijie Shu
机构
[1] University of Exeter,College of Engineering, Mathematics, and Physical Sciences
[2] University of Exeter,College of Life and Environmental Sciences
[3] University of Bristol,School of Geographical Sciences
[4] Centre for Ecology and Hydrology,Department of Meteorology
[5] Met Office Hadley Centre,Department of Climate, Air and Energy
[6] University of Leeds,Copernicus Institute of Sustainable Development
[7] University of Reading,Department of Geography
[8] Netherlands Environmental Assessment Agency (PBL),Laboratoire des Sciences du Climat et de l’Environnement, LSCE/IPSL, CEA
[9] Utrecht University,CNRS
[10] Ludwig Maximilians University Munich,UVSQ
[11] Université Paris-Saclay,The Land in the Earth System
[12] Max-Planck Institute for Meteorology,Department of Atmospheric Sciences
[13] University of Illinois,Karlsruhe Institute of Technology
[14] Institute of Meteorology and Climate Research—Atmospheric Environmental Research (IMK-IFU),undefined
[15] NASA GSFC,undefined
[16] Biospheric Sciences Lab.,undefined
来源
Nature Communications | / 9卷
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摘要
Scenarios that limit global warming to below 2 °C by 2100 assume significant land-use change to support large-scale carbon dioxide (CO2) removal from the atmosphere by afforestation/reforestation, avoided deforestation, and Biomass Energy with Carbon Capture and Storage (BECCS). The more ambitious mitigation scenarios require even greater land area for mitigation and/or earlier adoption of CO2 removal strategies. Here we show that additional land-use change to meet a 1.5 °C climate change target could result in net losses of carbon from the land. The effectiveness of BECCS strongly depends on several assumptions related to the choice of biomass, the fate of initial above ground biomass, and the fossil-fuel emissions offset in the energy system. Depending on these factors, carbon removed from the atmosphere through BECCS could easily be offset by losses due to land-use change. If BECCS involves replacing high-carbon content ecosystems with crops, then forest-based mitigation could be more efficient for atmospheric CO2 removal than BECCS.
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