Flooding and prolonged drought have differential legacy impacts on soil nitrogen cycling, microbial communities and plant productivity

Nguyen Linh T. T.; Osanai Yui; Anderson Ian C.; Bange Michael P.; Tissue David T.; Singh Brajesh K.

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Flooding and prolonged drought have differential legacy impacts on soil nitrogen cycling, microbial communities and plant productivity

机译：洪水和延长的干旱对土壤氮循环，微生物社区和植物生产率具有差异遗产影响

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Extreme climate events, including flooding and prolonged drought, may establish long-lasting (legacy) effects on soil abiotic and biotic properties, potentially influencing soil N-cycling, microbial communities, and plant productivity. Nitrogen (N) fertilizer often stimulates plant growth, but it remains unknown whether N addition can alleviate the impact of legacy drought or waterlogging events on crops. Our aim was to assess the interactive effects of legacy extreme climate events and N-addition on these processes.

机译：极端气候事件，包括洪水和延长的干旱，可能对土壤非生物和生物特性建立持久（遗产）影响，潜在地影响土壤N-循环，微生物群落和植物生产率。氮气（N）肥料常常刺激植物生长，但是否添加了N添加可以减轻遗产干旱或水涝事件对作物的影响尚不清楚。我们的目标是评估遗产极端气候事件的互动影响，并在这些过程中添加了N-Ander。

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来源
《Plant and Soil 》 |2018年第2期| 共17页
作者
Nguyen Linh T. T.; Osanai Yui; Anderson Ian C.; Bange Michael P.; Tissue David T.; Singh Brajesh K.;
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作者单位

Western Sydney Univ Hawkesbury Inst Environm Locked Bag 1797 Penrith NSW 2751 Australia;

Western Sydney Univ Hawkesbury Inst Environm Locked Bag 1797 Penrith NSW 2751 Australia;

Western Sydney Univ Hawkesbury Inst Environm Locked Bag 1797 Penrith NSW 2751 Australia;

CSIRO Agr &

Food Australian Cotton Res Inst Locked Bag 59 Narrabri NSW 2390 Australia;

Western Sydney Univ Hawkesbury Inst Environm Locked Bag 1797 Penrith NSW 2751 Australia;

Western Sydney Univ Hawkesbury Inst Environm Locked Bag 1797 Penrith NSW 2751 Australia;

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原文格式 PDF
正文语种 eng
中图分类土壤学 ;
关键词
Legacy effects; Extreme weather events; Cotton (Gossypium hirsutum L.); N fertilizer supply; N cycling;

机译：遗产效果;极端天气事件;棉花（Gossypium hirsutum l。）;n肥料供应;n循环;

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专利

1. Flooding and prolonged drought have differential legacy impacts on soil nitrogen cycling, microbial communities and plant productivity [J] . Nguyen Linh T. T., Osanai Yui, Anderson Ian C., Plant and Soil . 2018 ,第1a2期

机译：洪水和延长的干旱对土壤氮循环，微生物社区和植物生产率具有差异遗产影响
2. Biochar Impacts Soil Microbial Community Composition and Nitrogen Cycling in an Acidic Soil Planted with Rape [J] . Hui-Juan Xu, Xiao-Hui Wang, Hu Li, Environmental Science & Technology . 2014 ,第16期

机译：生物炭对油菜种植酸性土壤中微生物群落组成和氮循环的影响
3. Impact of the plant community composition on labile soil organic carbon,TI Impact of the plant community composition on labile soil organic carbon, soil microbial activity and community structure in semi-natural grassland ecosystems of different productivity [J] . Breulmann M, Schulz E, Weisshuhn K, Plant and Soil . 2012 ,第1a2期

机译：不同生产力的半天然草地生态系统植物群落组成对不稳定土壤有机碳，土壤微生物活性和群落结构的影响
4. The Impact of Long-Term Nitrogen Addition on Microbial Community Composition in Three Hawaiian Forest Soils [C] . Teri C. Balser 2nd International Nitrogen Conference , Oct 14-18, 2001, Potomac, Maryland, USA . 2001

机译：长期添加氮对三种夏威夷森林土壤微生物群落组成的影响
5. Plant productivity, soil microorganisms, and soil nitrogen cycling in peat amendments used for oil sands reclamation [D] . Hemstock, Sandra Stephanie 2008

机译：用于油砂开垦的泥炭改良剂中的植物生产力，土壤微生物和土壤氮循环
6. Changes in land use driven by urbanization impact nitrogen cycling and the microbial community composition in soils [O] . Haitao Wang, Christopher W. Marshall, Minying Cheng, -1

机译：城市化驱动的土地利用变化影响氮循环和土壤微生物群落组成
7. Biochar Impacts Soil Microbial Community Composition and Nitrogen Cycling in an Acidic Soil Planted with Rape [O] . Xu, Hui-Juan, Wang, Xiao-Hui, Li, Hu, 2014

机译：生物炭对油菜种植酸性土壤中微生物群落组成和氮循环的影响

Flooding and prolonged drought have differential legacy impacts on soil nitrogen cycling, microbial communities and plant productivity

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