机译:改变陆地氮循环的视角:风化和演化资源利用特征的重要性,了解生态系统对全球变革的反应
Department of Ecology and Evolutionary BiologyUniversity of TennesseeKnoxville Tennessee;
Department of Earth System ScienceStanford UniversityStanford California;
Department of BiologyUtah State UniversityLogan Utah;
Department of Land Air and Water ResourcesUniversity of California DavisDavis California;
Department of BiologyBoston UniversityBoston Massachusetts;
Department of Ecology Evolution and Marine BiologyUniversity of California Santa BarbaraSanta Barbara California;
Department of Ecology and Evolutionary BiologyPrinceton UniversityPrinceton New Jersey;
Department of Ecology and Evolutionary BiologyUniversity of TennesseeKnoxville Tennessee;
Department of Ecology and Evolutionary BiologyUniversity of TennesseeKnoxville Tennessee;
carbon storage; eco‐evolutionary feedbacks; ecosystem processes; global change; nitrogen deposition; resource‐use traits; rock nitrogen weathering;
机译:改变陆地氮循环的视角:风化和演化资源利用特征的重要性,了解生态系统对全球变革的反应
机译:将氮循环动力学整合到综合科学评估模型中,以研究陆地生态系统对全球变化的响应
机译:陆地风化变化在全球碳循环的千年发展中的重要性:二维视角
机译:从生长氮沉积中的陆地氮循环潜在变化的全局规模建模
机译:全球变化下生态系统碳,氮和水循环之间的相互作用:田间试验和中观试验的结果。
机译:评估地球生态系统气候和二氧化碳对地质时期内风化的影响:基于过程的全球规模方法
机译:氮循环动力学将氮素循环动力集成到全球变革陆地生态系统应对研究中的综合科学评估模型