PHENOLOGY

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相关作者:周磊王佳音章东明张军辉孙晓敏更多>>
相关机构:中国科学院中国科学院大学北京第二外国语大学云南大学更多>>
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Phenological control of vegetation biophysical feedbacks to the regional climate
《Geography and Sustainability》2025年第1期223-237,共15页Lingxue Yu Ye Liu Fengqin Yan Lijie Lu Xuan Li Shuwen Zhang Jiuchun Yang 
supported by the Strategic Pri-ority Research Program(A)of the Chinese Academy of Sciences(Grant No.XDA28080503);the National Natural Science Foundation of China(Grant No.42071025);the Youth Innovation Promotion Associa-tion of Chinese Academy of Sciences(Grant No.2023240);the Pacific Northwest National Laboratory which is operated for DOE by Battelle Memorial Institute under Contract DE-A06-76RLO 1830.
Phenology shifts influence regional climate by altering energy,and water fluxes through biophysical processes.However,a quantitative understanding of the phenological control on vegetation’s biophysical feedbacks to ...
关键词:Phenology shifts Biophysical feedback Land-atmosphere interactions Regional climate simulation 
Hybrid ecophysiological growth model for deciduous Populus tomentosa plantation in northern China
《Forest Ecosystems》2025年第1期112-120,共9页Serajis Salekin Mark Bloomberg Benye Xi Jinqiang Liu Yang Liu Doudou Li Euan G.Mason 
The National Key Research and Development Program of China(Grant No.2021YFD2201203);the 5·5 Engineering Research&Innovation Team Project of Beijing Forestry University(No.BLRC2023C05);the Key Research and Development Program of Shandong Province(No.2021SFGC02050102)。
Short rotation plantation forestry(SRF)is being widely adopted to increase wood production,in order to meet global demand for wood products.However,to ensure maximum gains from SRF,optimised management regimes need to...
关键词:Growth-yield model Populus species Hybrid ecophysiological modelling Deciduous trees PHENOLOGY 
Impact of extreme weather and climate events on crop yields in the Tarim River Basin,China
《Journal of Arid Land》2025年第2期200-223,共24页WANG Xiaochen LI Zhi CHEN Yaning ZHU Jianyu WANG Chuan WANG Jiayou ZHANG Xueqi FENG Meiqing LIANG Qixiang 
funded by the Tianshan Yingcai Program of the Xinjiang Uygur Autonomous Region(2022TSYCCX0038);the Youth Innovation Promotion Association of the Chinese Academy of Sciences(Y2022108);the Postdoctoral Fellowship Program of Chinese Postdoctoral Science Foundation(CPSF)(GZC20232962).
The Tarim River Basin(TRB)is a vast area with plenty of light and heat and is an important base for grain and cotton production in Northwest China.In the context of climate change,however,the increased frequency of ex...
关键词:extreme events extreme nighttime heat Tarim River Basin crop yield random forest model WHEAT MAIZE cotton PHENOLOGY 
Modeling of Spring Phenology of Boreal Forest by Coupling Machine Learning and Diurnal Temperature Indicators
《Chinese Geographical Science》2025年第1期38-54,共17页DENG Guorong ZHANG Hongyan HONG Ying GUO Xiaoyi YI Zhihua EHSAN BINIYAZ 
Under the auspices of National Natural Science Foundation of China(No.42201374,42071359)。
The roles of diurnal temperature in providing heat accumulation and chilling requirements for vegetation spring phenology differ.Although previous studies have established a stronger correlation between leaf onset and...
关键词:spring phenology diurnal temperature machine learning future climate scenarios boreal forest 
Spatio-temporal evolution of complex agricultural land use and its drivers in a super-large irrigation district(Hetao)of the upper Yellow River Basin(2000-2021)
《Journal of Geographical Sciences》2025年第2期273-292,共20页LI Xinyi SUN Chen XIAO Xue LI Zhengzhong MA Xin WANG Jun XU Xu 
National Natural Science Foundation of China,No.52379053,No.52022108;The Key Research Project of Science and Technology in Inner Mongolia Autonomous Region of China,No.NMKJXM202208,No.NMKJXM202301;The Project Funded by the Water Resources Department of Inner Mongolia Autonomous Region of China,No.NSK202103。
Accurate spatio-temporal land cover information in agricultural irrigation districts is crucial for effective agricultural management and crop production.Therefore,a spectralphenological-based land cover classificatio...
关键词:land cover cropping system classification PHENOLOGY remote sensing agricultural irrigated area 
Spatio-temporal patterns and climatic drivers of spring phenology in eight forest communities across the north-south transitional zone of China
《Journal of Geographical Sciences》2025年第1期17-38,共22页ZHU Wenbin LU Yu 
National Key Research and Development Program of China,No.2023YFE0208100,No.2021YFC3000201;Natural Science Foundation of Henan Province,No.232300420165。
The Qinba Mountains are climatically and ecologically recognized as the north-south transitional zone of China.Analysis of its phenology is critical for comprehending the response of vegetation to climatic change.We r...
关键词:spring phenology climatic drivers altitude forest communities lag effect Qinba Mountains 
Optimizing selective withdrawal strategies to mitigate hypoxia under water-level reduction in Germany’s largest drinking water reservoir
《Journal of Environmental Sciences》2024年第12期127-139,共13页Chenxi Mi Karsten Rinke Tom Shatwell 
supported by the German Research Founda-tion(DFG,grant RI 2040/4-1);the InventWater ITN(Inventive forecasting tools for adapting water quality management to a new climate)through the European Union’s Horizon 2020 research,innovation program under the Marie Skłodowska-Curie grant agreement No.956623 and UFZ Program Integra-tion Budget;Chenxi Mi acknowledges the financial support from the National Natural Science Foundation of China(No.42107060);Liaoning Provincial Doctoral Research Startup Fund Project(No.2022-BS-174);supported by the“Xingliao Talents Plan”science and technology in-novation leading talents project of Liaoning Province(No.XLYC2002054);the National Key Research and Develop-ment Program of China(NO.2022YFF1301000-4).
Water-level reduction frequently occurs in deep reservoirs,but its effect on dissolved oxygen concentration is not well understood.In this study we used a well-established water qual-itymodel to illustrate effects of ...
关键词:HYPOXIA Water-level reduction Hypolimnetic water withdrawal Stratification phenology Water quality simulation Sediment oxygen demand 
Climate warming advances plant reproductive phenology in China’s northern grasslands
《Journal of Plant Ecology》2024年第6期225-240,共16页Lu Bai Lei Tian Zhiguo Ren Xiaohui Song Kailiang Yu Lin Meng Zhanfeng Hou Haiyan Ren 
supported by the National Key Research and Development Program of China(2022YFF1302300);National Center of Pratacultural Technology Innovation(CCPTZX2023B02);the National Natural Science Foundation of China(32260301);Distinguished Young Scholars Program of Inner Mongolia(2023JQ09,BR230301);Program for Innovative Research Team in Universities of Inner Mongolia Autonomous Region(NMGIRT2403);First-Class Discipline Research Program(YLXKZX-NND-002).
Despite much recent progress,our understanding of plant phenology response to climate change remains incomplete.In particular,how and to what extent climate warming affects the vegetative and reproductive phenology of...
关键词:Climate change GRASSLAND reproductive phenology vegetative phenology plant functional groups 
Earlier peak photosynthesis timing potentially escalates global wildfires
《National Science Review》2024年第9期165-174,共10页Gengke Lai Jialing Li Jun Wang Chaoyang Wu Yongguang Zhang Constantin M.Zohner Josep Peñuelas Quansheng Ge 
supported by the National Key Research and Development Program of China(2019YFA0606603 and 2019YFA0606601);supported by the National Natural Science Foundation of China(42125105);supported by the National Natural Science Foundation of China(42125101);supported by the Programme of Kezhen-Bingwei Excellent Young Scientists of the Institute of Geographic Sciences and Natural Resources Research,Chinese Academy of Sciences(2022RC006);supported by SNF Ambizione(PZ00P3_193646);supported by the TED2021-132627B-I00 grant funded by the Spanish MCIN(AEI/10.13039/501100011033);the European Union NextGenerationEU/PRTR,the Fundación Ramón Areces project(CIVP20A6621);the Catalan government(SGR221-1333).
More intense fire weather due to climate change is implicated as a key driver of recent extreme wildfire events.As fuel stock,the role of vegetation and its phenology changes in wildfire dynamics,however is not fully ...
关键词:vegetation photosynthesis phenology WILDFIRE climate feedback Earth System model 
Autumn sunlight promotes aboveground carbon loss in a temperate mixed forest被引量:1
《Ecological Processes》2024年第3期92-107,共16页Xingzhi Li Yanan Wang Juanjuan Zhang Thomas Matthew Robson Hiroko Kurokawa Huan Peng Li Zhou Dapao Yu Jiaojiao Deng Qing‑Wei Wang 
funded by the National Natural Science Foundation of China(32122059);the National Key R&D Program of China(2021YFD2200402);Chi‑nese Academy of Sciences Young Talents Program,and Liaoning Revitalization Talents Program(XLYC2007016)to QWW;by Chinese Academy of Sciences President’s International Fellowship Initiative(2022VCA0010);the Japan Society for the Promotion of Science(KAKENHI,17F17403)to QWW and HK;Academy of Finland Project(324555)to TMR.
Background Photodegradation of plant litter plays a pivotal role in the global carbon(C) cycle. In temperate forest ecosystems, the exposure of plant litter to solar radiation can be significantly altered by changes i...
关键词:Carbon cycling Canopy phenology Snow cover Climate warming Solar radiation Photodegradation 
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