机译:物种关联压倒了非生物条件,决定了木材腐烂真菌社区的结构和功能
Department of Ecology and Evolution University of Chicago 1101 E 57th Street Chicago Illinois 60637 USA;
School of Forestry and Environmental Studies Yale University 370 Prospect Street New Haven Connecticut 06511 USA;
Institute of Integrative Biology ETH Zurich Univerit?tstrasse 16 8006 Zurich Switzerland;
School of Forestry and Environmental Studies Yale University 370 Prospect Street New Haven Connecticut 06511 USA;
Department of Natural Resources and the Environment University of New Hampshire Durham New Hampshire 03824 USA;
Department of Natural Resources and the Environment University of New Hampshire Durham New Hampshire 03824 USA;
Department of Ecosystem Science and Management University of Wyoming 1000 East University Avenue Laramie Wyoming 82071 USA;
School of Forestry and Environmental Studies Yale University 370 Prospect Street New Haven Connecticut 06511 USA;
basidiomycete; biodiversity; community assembly; co-occurrence; diversity–function; interference competition;
机译:物种关联压倒了非生物条件,决定了木材腐烂真菌社区的结构和功能
机译:非生物背景始终如一地影响菌根功能,独立于合成丛枝菌根真菌社区的组成
机译:世系淹没了确定国际入侵植物根际细菌群落结构的环境条件
机译:黑龙江省不同纬度农土土壤种植真菌群落结构分析
机译:受真菌来源,植物种类和非生物胁迫影响的植被恢复中的丛枝菌根。
机译:在确定国际入侵植物的根际细菌群落结构时世系压倒了环境条件
机译:物种协会压倒了非生物条件,规定了木材腐烂真菌社区的结构和功能