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机译:叶片电导对升高CO<升高的植被响应的影响
Department of Biogeochemical IntegrationMax Planck Institute for BiogeochemistryJena Germany;
Department of Biogeochemical IntegrationMax Planck Institute for BiogeochemistryJena Germany;
ARC Centre of Excellence for Climate Extremes and the Climate Change Research CentreUniversity of New South WalesSydney NSW Australia;
ARC Centre of Excellence in Plant Energy Biology Division of Plant SciencesResearch School of Biology Australian National UniversityCanberra ACT Australia;
ARC Centre of Excellence for Translational Photosynthesis Division of Plant SciencesResearch School of Biology Australian National UniversityCanberra ACT Australia;
Hawkesbury Institute for the EnvironmentWestern Sydney UniversityRichmond NSW Australia;
Department of Biogeochemical IntegrationMax Planck Institute for BiogeochemistryJena Germany;
Department of Ecosystem PhysiologyUniversity of FreiburgFreiburg Germany;
elevated CO 2 concentrations; land surface modeling; mesophyll conductance; photosynthetic CO 2 sensitivity; representative concentration pathways;
机译:叶片电导对升高CO<升高的植被响应的影响
机译:观测的植被覆盖度对社区土地模型土地表面气候的影响
机译:观测的植被覆盖度对社区土地模型土地表面气候的影响
机译:大气二氧化碳浓度升高对草原生态系统氮循环的影响
机译:一年生青云杉幼苗的11种安大略种源对二氧化碳浓度升高的生理和生长响应。
机译:叶面电导对植被对陆地表面CO 2浓度升高响应的影响
机译:叶片电导对陆地模型升高二氧化碳浓度植被应答的影响
机译:地表水分状况和/或土地利用变化对湿地植被可利用水体垂直分布的影响。第一部分曝气区的动态模型