机译:生长季节温度和降水是木门液压导电性全球变化的独立驱动因素
Chinese Acad Sci Key Lab Vegetat Restorat &
Management Degraded Ec Xingke Rd 723 Guangzhou 510650 Guangdong Peoples R China;
USDA ARS Water Management &
Syst Res Unit Ft Collins CO 80522 USA;
Macquarie Univ Dept Biol Sci Sydney NSW Australia;
Columbia Univ Ctr Climate Syst Res New York NY USA;
Chinese Acad Sci Key Lab Vegetat Restorat &
Management Degraded Ec Xingke Rd 723 Guangzhou 510650 Guangdong Peoples R China;
Guangxi Univ Coll Forestry Guangxi Key Lab Forest Ecol &
Conservat Nanning Peoples R China;
Princeton Univ Dept Ecol &
Evolutionary Biol Princeton NJ 08544 USA;
Univ Chinese Acad Sci Coll Resources &
Environm Beijing Peoples R China;
South China Agr Univ Inst Trop &
Subtrop Ecol Guangzhou Guangdong Peoples R China;
Chinese Acad Sci Key Lab Vegetat Restorat &
Management Degraded Ec Xingke Rd 723 Guangzhou 510650 Guangdong Peoples R China;
East China Normal Univ Sch Ecol &
Environm Sci Shanghai Peoples R China;
East China Normal Univ Sch Ecol &
Environm Sci Shanghai Peoples R China;
Chinese Acad Sci Inst Bot State Key Lab Vegetat &
Environm Change Beijing Peoples R China;
Chinese Acad Sci Inst Appl Ecol Key Lab Forest Ecol &
Management Shenyang Liaoning Peoples R China;
Univ Minnesota Dept Forest Resources St Paul MN 55108 USA;
Chinese Acad Sci Key Lab Vegetat Restorat &
Management Degraded Ec Xingke Rd 723 Guangzhou 510650 Guangdong Peoples R China;
Western Sydney Univ Hawkesbury Inst Environm Penrith NSW Australia;
Chinese Acad Sci Key Lab Vegetat Restorat &
Management Degraded Ec Xingke Rd 723 Guangzhou 510650 Guangdong Peoples R China;
biome; climate; functional types; hydraulic diversity; species distribution; water transport;
机译:生长季节温度和降水是木门液压导电性全球变化的独立驱动因素
机译:离子介导的功能木质部的水力传导性增加缓解了木质部栓塞:现场测量的见解
机译:水势梯度,根管道尺寸和根XYLEM液压导电率决定了温带树木液压再分布的程度
机译:伤口诱导的Xylem过氧化氧化物有助于茎中液压导率的采后丧失吗?
机译:土工合成材料粘土衬里的水力传导性在高温下渗透。
机译:与病原体感染挪威云杉树苗的栓塞和木质液压导率偏移相关的木质SAP表面张力减少?
机译:通过离子介导的函数木耳液压导率的增加而减轻了Xylem栓塞:现场测量的见解