|Quantifying global soil carbon losses in response to warming|
TW Crowther, KEO Todd-Brown, CW Rowe, WR Wieder, JC Carey, ...
Nature 540 (7631), 104-108, 2016
|A global analysis of soil acidification caused by nitrogen addition|
D Tian, S Niu
Environmental Research Letters 10 (2), 024019, 2015
|Global patterns of the dynamics of soil carbon and nitrogen stocks following afforestation: a meta‐analysis|
D Li, S Niu, Y Luo
New Phytologist 195 (1), 172-181, 2012
|Water‐mediated responses of ecosystem carbon fluxes to climatic change in a temperate steppe|
S Niu, M Wu, Y Han, J Xia, L Li, S Wan
New Phytologist 177 (1), 209-219, 2008
|Aggravated phosphorus limitation on biomass production under increasing nitrogen loading: a meta‐analysis|
Y Li, S Niu, G Yu
Global Change Biology 22 (2), 934-943, 2016
|Water‐use efficiency in response to climate change: from leaf to ecosystem in a temperate steppe|
S Niu, X Xing, ZHE Zhang, J Xia, X Zhou, B Song, L Li, S Wan
Global Change Biology 17 (2), 1073-1082, 2011
|A framework for benchmarking land models|
YQ Luo, JT Randerson, G Abramowitz, C Bacour, E Blyth, N Carvalhais, ...
Biogeosciences 9 (10), 3857-3874, 2012
|Response of ecosystem carbon exchange to warming and nitrogen addition during two hydrologically contrasting growing seasons in a temperate steppe|
J Xia, S Niu, S Wan
Global Change Biology 15 (6), 1544-1556, 2009
|Joint control of terrestrial gross primary productivity by plant phenology and physiology|
J Xia, S Niu, P Ciais, IA Janssens, J Chen, C Ammann, A Arain, ...
Proceedings of the National Academy of Sciences 112 (9), 2788-2793, 2015
|Photosynthetic overcompensation under nocturnal warming enhances grassland carbon sequestration|
S Wan, J Xia, W Liu, S Niu
Ecology 90 (10), 2700-2710, 2009
|A meta-analysis of 1,119 manipulative experiments on terrestrial carbon-cycling responses to global change|
J Song, S Wan, S Piao, AK Knapp, AT Classen, S Vicca, P Ciais, ...
Nature ecology & evolution 3 (9), 1309-1320, 2019
|Nitrogen effects on net ecosystem carbon exchange in a temperate steppe|
S Niu, M Wu, YI Han, J Xia, ZHE Zhang, H Yang, S Wan
Global Change Biology 16 (1), 144-155, 2010
|Increased temperature and precipitation interact to affect root production, mortality, and turnover in a temperate steppe: implications for ecosystem C cycling|
W Bai, S Wan, S Niu, W Liu, Q Chen, Q Wang, W Zhang, X Han, L Li
Global change biology 16 (4), 1306-1316, 2010
|Air temperature optima of vegetation productivity across global biomes|
M Huang, S Piao, P Ciais, J Pe˝uelas, X Wang, TF Keenan, S Peng, ...
Nature ecology & evolution 3 (5), 772-779, 2019
|Coordinated approaches to quantify long‐term ecosystem dynamics in response to global change|
Y Luo, J Melillo, S Niu, C Beier, JS Clark, AT Classen, E Davidson, ...
Global Change Biology 17 (2), 843-854, 2011
|Microbes drive global soil nitrogen mineralization and availability|
Z Li, D Tian, B Wang, J Wang, S Wang, HYH Chen, X Xu, C Wang, N He, ...
Global Change Biology 25 (3), 1078-1088, 2019
|Global patterns and substrate-based mechanisms of the terrestrial nitrogen cycle|
S Niu, ...
Ecology Letters, 2016
|Plant growth and mortality under climatic extremes: an overview|
S Niu, Y Luo, D Li, S Cao, J Xia, J Li, MD Smith
Environmental and Experimental Botany 98, 13-19, 2014
|Non-additive effects of water and nitrogen addition on ecosystem carbon exchange in a temperate steppe|
S Niu, H Yang, Z Zhang, M Wu, Q Lu, L Li, X Han, S Wan
Ecosystems 12, 915-926, 2009
|Net primary productivity and rain‐use efficiency as affected by warming, altered precipitation, and clipping in a mixed‐grass prairie|
X Xu, RA Sherry, S Niu, D Li, Y Luo
Global change biology 19 (9), 2753-2764, 2013