机译:古代极地森林常绿和落叶乔木中碳吸收的反季节模式
Dana L. Royer, Colin P. Osborne, and David J. Beerling. Department of Animal and Plant Sciences, University of Sheffield, Sheffield S10 2TN, United Kingdom. c.p.osborne@sheffield.ac.uk, d.j.beerling@sheffield.ac.uk|Present address: Department of Geosciences, Pennsylvania State University, University Park, Pennsylvania 16802. droyer@psu.edu;
Dana L. Royer, Colin P. Osborne, and David J. Beerling. Department of Animal and Plant Sciences, University of Sheffield, Sheffield S10 2TN, United Kingdom. c.p.osborne@sheffield.ac.uk, d.j.beerling@sheffield.ac.uk;
Dana L. Royer, Colin P. Osborne, and David J. Beerling. Department of Animal and Plant Sciences, University of Sheffield, Sheffield S10 2TN, United Kingdom. c.p.osborne@sheffield.ac.uk, d.j.beerling@sheffield.ac.uk|Corresponding author;
机译:古代极地森林常绿和落叶乔木中碳吸收的反季节模式
机译:通过全树稳定碳同位素标记评估的60岁落叶落叶(Fagus sylvatica)和常绿(Picea abies)树的呼吸池碳分配的季节性模式
机译:泰国热带落叶和常绿森林之间树冠树的季节性叶习性的对比
机译:IGCN发现与GLC2000产品比较GLCNMO中的针叶落叶林和针叶常绿林
机译:落叶和常绿森林中与生理相关的大小变化,碳增加和树木生长。
机译:树木对地下碳的分配通过改变山毛榉森林土壤中的微生物群落组成来驱动细胞外酶活性的季节性模式
机译:遗传相关(兄弟姐妹)落叶和常绿桃树的树皮和木糖中的季节性模式。