Fire history and plant community composition outweigh decadal multi-factor global change as drivers of microbial composition in an annual grassland

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Fire history and plant community composition outweigh decadal multi-factor global change as drivers of microbial composition in an annual grassland

机译：消防历史和植物群落构成占年度草原中微生物组成的驱动器的截止数多因素全球变化

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1. Soil microbial communities regulate and respond to key biogeochemical cycles and influence plant community patterns. However, microbial communities also respond to disturbance events, motivating an assessment of the relative roles of decadal multi-factor global change, disturbance and plant community structure on microbial community responses.

机译：土壤微生物群落调节并响应关键生物地球化学循环，影响植物群落模式。然而，微生物社区也应对扰动事件，激励对多元多因素全球变化，干扰和植物群落结构对微生物群落反应的相对作用的评估。

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《The Journal of Ecology》 |2020年第2期|共15页
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正文语种 eng
中图分类植物生态学和植物地理学;生态学（生物生态学）;
关键词
carbon dioxide; disturbance; grassland; historical contingency; nitrogen; soil microbial community; warming; wildfire;

机译：二氧化碳;干扰;草原;历史应急;氮气;土壤微生物群落;变暖;野火;

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1. Fire history and plant community composition outweigh decadal multi-factor global change as drivers of microbial composition in an annual grassland [J] . The Journal of Ecology . 2020,第2期

机译：消防历史和植物群落构成占年度草原中微生物组成的驱动器的截止数多因素全球变化
2. Temperature leads to annual changes of plant community composition in alpine grasslands on the Qinghai-Tibetan Plateau [J] . Ganjurjav Hasbagan, Gornish Elise S., Hu Guozheng, Environmental Monitoring and Assessment . 2018,第10期

机译：温度导致青藏高原高寒草原植物群落组成的年度变化
3. Shifts in microbial communities do not explain the response of grassland ecosystem function to plant functional composition and rainfall change [J] . Fry Ellen L., Manning Peter, Macdonald Catriona, Soil Biology & Biochemistry . 2016,第Null期

机译：微生物群落的变化不能解释草原生态系统功能对植物功能组成和降雨变化的响应
4. Plant species composition and soil microbial community structure in a semi‐natural grassland in Japan [C] . Shu-ichi Sugiyama, Atushi Okubo, M.Zabed Hossain, 2008世界草地与草原大会论文集 . 2008

机译：日本半天然草原的植物物种组成和土壤微生物群落结构
5. Disentangling Anthropogenic and Natural Drivers of Change in Vegetation and Fire History Along the Forest-grassland Ecotones of the Central United States and Patagonia [D] . Nanavati, William Parashar. 2020

机译：沿着美国中部和巴塔哥尼亚林草地杂草植被和火灾历史变化的解开人为和自然驱动因素
6. Do invasive plants structure microbial communities to accelerate decomposition in intermountain grasslands? [O] . Michael R. McTee, Ylva Lekberg, Dan Mummey, 2017

机译：外来入侵植物是否构造微生物群落以加速山间草地的分解？
7. Shifts in microbial communities do not explain the response of grassland ecosystem function to plant functional composition and rainfall change [O] . Fry, Ellen L., Manning, Peter, Macdonald, Catriona, 2018

机译：微生物群落的变化不能解释草原生态系统功能对植物功能组成和降雨变化的响应

Fire history and plant community composition outweigh decadal multi-factor global change as drivers of microbial composition in an annual grassland

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