Journal
TRENDS IN PLANT SCIENCE
Volume 26, Issue 12, Pages 1210-1212Publisher
CELL PRESS
DOI: 10.1016/j.tplants.2021.09.007
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Funding
- National Natural Science Foundation of China [32171635, 31870497]
- Fundamental Research Funds for the Central Universities
- East China Normal University Multifunctional Platform for Innovation [008]
- Forest Growers Levy Trust [QT-7272]
- Scion
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Forest soils are the largest atmospheric methane sinks in terrestrial ecosystems, but there are considerable uncertainties in models simulating this uptake. Soil organic matter derived from aboveground vegetation net primary productivity significantly influences methane uptake. Therefore, incorporating NPP into global methane uptake models can greatly improve model predictions.
Forest soils are the largest atmospheric methane (CH4) sinks in terrestrial ecosystems, but models simulating this uptake have considerable uncertainties. Soil organic matter derived from aboveground vegetation net primary productivity (NPP) significantly influences CH4 uptake; therefore, we propose that the incorporation of NPP into global CH4 uptake models will greatly improve model predictions.
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