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1.
35 p, 1021.3 KB Fire facilitates warming-induced upward shifts of alpine treelines by altering interspecific interactions / Wang, Yafeng (Chinese Academy of Sciences. Institute of Tibetan Plateau Research) ; Case, Bradley (Auckland University of Technology (New Zealand)) ; Lu, Xiaoming (Chinese Academy of Sciences. Institute of Tibetan Plateau Research) ; Ellison, Aaron M. (Harvard University. Harvard Forest) ; Peñuelas, Josep (Centre de Recerca Ecològica i d'Aplicacions Forestals) ; Zhu, Haifeng (Chinese Academy of Sciences. Institute of Tibetan Plateau Research) ; Liang, Eryuan (Chinese Academy of Sciences. Institute of Tibetan Plateau Research) ; Camarero, J. Julio (Instituto Pirenaico de Ecología - CSIC)
Biotic interactions between trees and other plants may modulate the responses of alpine treelines to climate. Moderate disturbances could, therefore, accelerate upward shifts of alpine treelines as the climate warms by reducing the coverage of competitor plants and resetting interspecific interactions. [...]
2019 - 10.1007/s00468-019-01841-6
Trees, structure and function, Vol. 33 (March 2019) , p. 1051-1061  
2.
50 p, 1.9 MB Urban−rural gradients reveal joint control of elevated CO₂ and temperature on extended photosynthetic seasons / Wang, Songhan (Nanjing University. International Institute for Earth System Science) ; Ju, Weimin (Nanjing University. International Institute for Earth System Science) ; Peñuelas, Josep (Centre de Recerca Ecològica i Aplicacions Forestals) ; Cescatti, Alessandro (European Commission. Joint Research Centre. Directorate for Sustainable Resources) ; Zhou, Yuyu (Iowa State University. Department of Geological and Atmospheric Sciences) ; Fu, Yongshuo (Beijing Normal University. College of Water Sciences) ; Huete, Alfredo (University of Technology Sydney. School of Life Sciences) ; Liu, Min (East China Normal University. School of Ecological and Environmental Sciences) ; Zhang, Yongguang (Nanjing University. International Institute for Earth System Science)
Photosynthetic phenology has large effects on the land-atmosphere carbon exchange. Due to limited experimental assessments, a comprehensive understanding of the variations of photosynthetic phenology under future climate and its associated controlling factors is still missing, despite its high sensitivities to climate. [...]
2019 - 10.1038/s41559-019-0931-1
Nature ecology and evolution, Vol. 3 (March 2019) , p. 1076-1085
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