Amazon drought and forest response: Largely reduced forest photosynthesis but slightly increased canopy greenness during the extreme drought of 2015/2016

Yang Jia; Tian Hanqin; Pan Shufen; Chen Guangsheng; Zhang Bowen; Dangal Shree

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Amazon drought and forest response: Largely reduced forest photosynthesis but slightly increased canopy greenness during the extreme drought of 2015/2016

机译：亚马逊干旱和森林反应：大部分减少森林光合作用，但在2015/2016的极端干旱期间均略微增加了冠层绿色

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来源
《Global change biology》 |2018年第5期|共16页
作者
Yang Jia; Tian Hanqin; Pan Shufen; Chen Guangsheng; Zhang Bowen; Dangal Shree;
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作者单位

Research Center for Eco‐Environmental SciencesChinese Academy of SciencesBeijing China;

Research Center for Eco‐Environmental SciencesChinese Academy of SciencesBeijing China;

International Center for Climate and Global Change ResearchAuburn UniversityAuburn AL USA;

International Center for Climate and Global Change ResearchAuburn UniversityAuburn AL USA;

International Center for Climate and Global Change ResearchAuburn UniversityAuburn AL USA;

International Center for Climate and Global Change ResearchAuburn UniversityAuburn AL USA;

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原文格式 PDF
正文语种 eng
中图分类物候学;
关键词
drought; El Ni?o‐Southern Oscillation; forest productivity; satellite observations; tropical forests;

机译：干旱;el nino-southern振荡;森林生产力;卫星观察;热带森林;

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1. Stand dynamics of the drought-affected floodplain forests of Araguaia River, Brazilian Amazon [J] . Jürgen Homeier, Dariusz Kurzatkowski, Christoph Leuschner 中国林学（英文版） . 2017,第003期
2. Stand dynamics of the drought-affected floodplain forests of Araguaia River,Brazilian Amazon [J] . Jürgen Homeier, Dariusz Kurzatkowski, Christoph Leuschner 森林生态系统：英文版 . 2017,第003期
3. Amazon drought and forest response: Largely reduced forest photosynthesis but slightly increased canopy greenness during the extreme drought of 2015/2016 [J] . Yang Jia, Tian Hanqin, Pan Shufen, Global change biology . 2018,第5期

机译：亚马逊干旱和森林反应：大部分减少森林光合作用，但在2015/2016的极端干旱期间均略微增加了冠层绿色
4. Causes of reduced leaf‐level photosynthesis during strong El Ni?o drought in a Central Amazon forest [J] . Santos Victor Alexandre Hardt Ferreira dos, Ferreira Marciel José, Rodrigues Jo?o Victor Figueiredo Cardoso, Global change biology . 2018,第9期

机译：亚马逊中央森林强埃尔尼诺干旱期间减少叶级光合作用的原因
5. El Ni?o drought increased canopy turnover in Amazon forests [J] . Leitold Veronika, Morton Douglas C., Longo Marcos, The New Phytologist . 2018,第3期

机译：El Ni？O干旱增加了亚马逊森林的冠层周转
6. PERFORMANCE OF THE ENHANCED VEGETATION INDEX TO DETECT INNER-ANNUAL DRY SEASON AND DROUGHT IMPACTS ON AMAZON FOREST CANOPIES [C] . Benjamin Brede, Jan Verbesselt, Loic P. Dutrieux, International Symposium on Remote Sensing of Environment . 2015

机译：增强植被指数的性能检测年度年度旱季和干旱影响亚马逊森林檐篷
7. Mesophication of Tree Species Increases Impact of Drought on Tree Growth by Altering Seasonality of Climate Response in Eastern US Forests [D] . Au, Tsun Fung. 2019

机译：通过改变美国东部森林的气候响应季节性，树种的细化可以增加干旱对树木生长的影响
8. From the CoverPNAS Plus: Progressive forest canopy water loss during the 2012–2015 California drought [O] . Gregory P. Asner, Philip G. Brodrick, Christopher B. Anderson, 2016

机译：来自CoverPNAS Plus：2012-2015年加州干旱期间渐进性森林冠层失水
9. Causes of reduced leaf‐level photosynthesis during strong El Niño drought in a Central Amazon forest [O] . Victor Alexandre Hardt Ferreira dos Santos, Marciel José Ferreira, João Victor Figueiredo Cardoso Rodrigues, 2018

机译：亚马逊林中强埃尔尼诺农森林干旱期间降低叶级光合作用的原因
10. Amazon Forests Maintain Consistent Canopy Structure and Greenness During the Dry Season. [R] . Morton, D. C., Nagol, J., Carabajal, C. C., 2014

机译：亚马逊森林在干燥季节保持一致的冠层结构和绿色。

Amazon drought and forest response: Largely reduced forest photosynthesis but slightly increased canopy greenness during the extreme drought of 2015/2016

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