机译:无论其对植物多样性的影响如何,氮气添加降低了生态系统稳定性
Northeast Normal Univ Sch Life Sci Key Lab Vegetat Ecol Minist Educ Inst Grassland Sci Changchun Jilin Peoples R China;
Northeast Normal Univ Sch Life Sci Key Lab Vegetat Ecol Minist Educ Inst Grassland Sci Changchun Jilin Peoples R China;
Northeast Normal Univ Sch Life Sci Key Lab Vegetat Ecol Minist Educ Inst Grassland Sci Changchun Jilin Peoples R China;
Northeast Normal Univ Sch Life Sci Key Lab Vegetat Ecol Minist Educ Inst Grassland Sci Changchun Jilin Peoples R China;
Northeast Normal Univ Sch Life Sci Key Lab Vegetat Ecol Minist Educ Inst Grassland Sci Changchun Jilin Peoples R China;
Univ Minnesota Dept Ecol Evolut &
Behav St Paul MN 55108 USA;
Northeast Normal Univ Sch Life Sci Key Lab Vegetat Ecol Minist Educ Inst Grassland Sci Changchun Jilin Peoples R China;
biodiversity; dominance; dominant species; grassland; nitrogen enrichment; species asynchrony; stability;
机译:无论其对植物多样性的影响如何,氮气添加降低了生态系统稳定性
机译:氮富集对草地生态系统稳定性的影响取决于氮的添加量
机译:植物物种多样性影响人工湿地微观世界中氮的去除和一氧化二氮的排放以及碳的添加
机译:氮气添加与收获残余物管理对林林碳化学成分的影响
机译:从头开始的多样性和功能:通过固氮技术对湿地植物结构和生态系统功能进行微生物调节
机译:植物功能多样性可以独立于物种多样性:基于高氮草甸中4年氮和磷添加量影响的观察
机译:植物功能多样性可以独立于物种多样性:基于4年的氮和磷添加对高山草甸的影响的观测。