典型文献
Vegetation phenology and its ecohydrological implications from individual to global scales
文献摘要:
The Earth is experiencing unprecedented climate change. Vegetation phenology has already showed strong re-sponse to the global warming, which alters mass and energy fluxes on terrestrial ecosystems. With technology and method developments in remote sensing, computer science and citizen science, many recent phenology-related studies have been focused on macrophenology. In this perspective, we 1) reviewed the responses of vegetation phenology to climate change and its impacts on carbon cycling, and reported that the effect of shifted phenology on the terrestrial carbon fluxes is substantially different between spring and autumn; 2) elaborated how vege-tation phenology affects ecohydrological processes at different scales, and further listed the key issues for each scale, i.e., focusing on seasonal effect, local feedbacks and regional vapor transport for individual, watershed and global respectively; 3) envisioned the potentials to improve current hydrological models by coupling vegeta-tion phenology-related processes, in combining with machine learning, deep learning and scale transformation methods. We propose that comprehensive understanding of climate-macrophenology-hydrology interactions are essential and urgently needed for enhancing our understanding of the ecosystem response and its role in hydro-logical cycle under future climate change.
文献关键词:
中图分类号:
作者姓名:
Shouzhi Chen;Yongshuo H. Fu;Fanghua Hao;Xiaoyan Li;Sha Zhou;Changming Liu;Jing Tang
作者机构:
College of Water Sciences, Beijing Normal University, Beijing 100875, China;College of Urban and Environmental Sciences, Central China Normal University, Wuhan 430079, China;State Key Laboratory of Earth Surface Processes and Resource Ecology, Faculty of Geographical Science, Beijing Normal University, Beijing 100875, China;Key Laboratory of Terrestrial Water Cycle and Land Surface Processes, Institute of Geographic Sciences and Natural Resources Research, CAS, Beijing 100101, China;Department of Physical Geography and Ecosystem Science, Lund University, S?lvegatan 12, SE-22362, Lund, Sweden;Terrestrial Ecology Section, Department of Biology, University of Copenhagen, Copenhagen DK-2100, Denmark
文献出处:
引用格式:
[1]Shouzhi Chen;Yongshuo H. Fu;Fanghua Hao;Xiaoyan Li;Sha Zhou;Changming Liu;Jing Tang-.Vegetation phenology and its ecohydrological implications from individual to global scales)[J].地理学与可持续性(英文),2022(04):334-338
A类:
ecohydrological,macrophenology
B类:
Vegetation,its,implications,from,individual,global,scales,Earth,experiencing,unprecedented,climate,change,has,already,showed,strong,warming,which,alters,mass,energy,fluxes,terrestrial,ecosystems,With,technology,developments,remote,sensing,computer,science,citizen,many,recent,related,studies,have,been,focused,In,this,perspective,reviewed,responses,vegetation,impacts,carbon,cycling,reported,that,effect,shifted,substantially,different,between,spring,autumn,elaborated,affects,processes,further,listed,key,issues,each,focusing,seasonal,local,feedbacks,regional,vapor,transport,watershed,respectively,envisioned,potentials,improve,current,models,by,coupling,combining,machine,learning,deep,transformation,methods,We,propose,comprehensive,understanding,hydrology,interactions,are,essential,urgently,needed,enhancing,our,role,cycle,future
AB值:
0.556222
相似文献
机标中图分类号,由域田数据科技根据网络公开资料自动分析生成,仅供学习研究参考。
