Tree ecophysiology in the context of climate change  被引量:1

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作  者:Yanbo Hu Raul Antonio Sperotto Georgios Koubouris Srđan Stojnić Nacer Bellaloui 

机构地区:[1]Northeast Forestry University,Harbin 150040,People’s Republic of China [2]Graduate Program in Biotechnology,Life Sciences Area,University of Taquari Valley-Univates,Lajeado,Brazil [3]Graduate Program in Plant Physiology,Federal University of Pelotas,Pelotas,Brazil [4]Laboratory of Olive Cultivation,Institute of Olive Tree,Subtropical Crops and Viticulture,Hellenic Agricultural Organization DIMITRA,Leoforos Karamanli 167,73134 Chania,Crete,Greece [5]Institute of Lowland Forestry and Environment,University of Novi Sad,AntonaČehova 13d,Novi Sad,Serbia [6]Crop Genetics Research Unit,Agricultural Research Service,USDA,141 Experiment Station Road,Stoneville,MS 38776,USA

出  处:《Journal of Forestry Research》2023年第1期1-5,共5页林业研究(英文版)

基  金:the Excellence Action Plan for China STM Journals(EAPCSTMJ-C-077);International Infl uence Promotion Project of China STM Journals(Journal of Forestry Research;PIIJ2-B-18).

摘  要:Forest structure and function strongly depend on and concurrently influence environmental conditions.Tree performance is generally governed by its genetics and environment;thus,recent hotspots in this field include tree genotype×environment,phenotype×environment,and functional trait×environment interactions.The editorial,review,and 22 original research articles in this Special Issue,"Tree ecophysiology in the context of climate change",highlight ecophysiological phenomena(e.g.,climate hormesis,seed germination,tree mortality),processes(e.g.,tree metabolism,photosynthate allocation,nutrient uptake and transport),indicators(e.g.,carbon sequestration,pollutants),measurements(e.g.,thermal time methods,soil quality indices,vegetation spectral index,and near-infrared leaf reflectance),and modeling(e.g.,climate correlations with tree growth,photo synthetic phenology,hydraulic strategies,OliveCan model)in the context of global climate change.Understanding forest-environment interactions from an ecophysiological perspective as climate changes provides insights into species fitness in suboptimal environments,species competition for limited resources,and phylogenetic divergence or convergence of species,and predicting species distributions.

关 键 词:Tree ecophysiology Climate change Climate hormesis PHENOLOGY Thermostability Forest resilience Hydraulics 

分 类 号:S718[农业科学—林学]

 

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