Changes in photosynthesis and soil moisture drive the seasonal soil respiration-temperature hysteresis relationship
Quan Zhang(Wuhan University), Kimberly A. Novick(Indiana University Bloomington), Stefano Manzoni(Stockholm University), Richard P. Phillips(Indiana University Bloomington), A. Christopher Oishi(Duke University), Rodrigo Vargas(University of Delaware), Adrien C. Finzi(Università degli Studi della Tuscia), Edoardo Daly(Seqwater), Russell L. Scott(Agricultural Research Service)
Cited by 103
Related Papers
Forest response to elevated CO <sub>2</sub> is conserved across a broad range of productivity
|Proceedings of the National Academy of Sciences|2005|1k
Soil Water Balance and Ecosystem Response to Climate Change
|The American Naturalist|2004|697
Iterative near-term ecological forecasting: Needs, opportunities, and challenges
|Proceedings of the National Academy of Sciences|2018|613
Increases in nitrogen uptake rather than nitrogen-use efficiency support higher rates of temperate forest productivity under elevated CO <sub>2</sub>
|Proceedings of the National Academy of Sciences|2007|402
Remote sensing of dryland ecosystem structure and function: Progress, challenges, and opportunities
|Remote Sensing of Environment|2019|399