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Rapid shifts in picoeukaryote community structure in response to ocean acidification

机译：响应海洋酸化皮古真核生物群落结构快速变化

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Rapid shifts in picoeukaryote community structure were observed during a CO2 perturbation experiment in which we followed the development of phytoplankton blooms in nutrient-amended mesocosms under the present day or predicted future atmospheric pCO2 (750 μatm, seawater pH 7.8). Analysis of rbcL clone libraries (encoding the large subunit of RubisCO) and specific quantitative PCR assays showed that two prasinophytes closely related to Micromonas pusilla and Bathycoccus prasinos were present, but responded very differently to high CO2/acidification. We found that the abundance of Micromonas-like phylotypes was significantly higher (>20-fold) under elevated CO2/low pH, whereas the Bathycoccus-like phylotypes were more evenly distributed between treatments and dominated the prasinophyte community under ambient conditions.

机译：在CO2扰动实验中观察到了皮古真核生物群落结构的快速变化，在该实验中，我们跟踪了营养素改良型中生代中浮游植物开花的发展情况，或预测了未来的大气pCO2（750μmatm，海水pH 7.8）。对rbcL克隆文库（编码RubisCO的大亚基）的分析和特定的定量PCR分析表明，存在两种与微单胞菌和小球藻密切相关的藻类，但对高CO2 /酸化的反应却截然不同。我们发现，在升高的CO2 /低pH条件下，类似Micromonas的系统型的丰度显着更高（> 20倍），而在各种处理之间，类似于Bathycoccus的系统型的分布更均匀，并且在环境条件下占主导地位。

著录项

期刊名称 The ISME Journal
作者
Nicholas G Meakin; Michael Wyman;
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作者单位

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年(卷),期 2011(5),9
年度 2011
页码 1397–1405
总页数 9
原文格式 PDF
正文语种
中图分类病毒传染病;
关键词
picoeukaryotes ocean acidification Micromonas Bathycoccus RubisCO;

机译：微型真核生物;海洋酸化;Micromonas;Bythycoccus;RubisCO;

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专利

1. Rapid shifts in picoeukaryote community structure in response to ocean acidification [J] . Meakin N.G., Wyman M. The ISME journal emultidisciplinary journal of microbial ecology . 2011,第9期

机译：响应海洋酸化，皮古真核生物群落结构快速变化
2. Biogenic habitat shifts under long-term ocean acidification show nonlinear community responses and unbalanced functions of associated invertebrates [J] . Milazzo M., Alessi C., Quattrocchi F., The Science of the Total Environment . 2019,第JUNa1期

机译：长期海洋酸化作用下的生物生境变化表明，群落的非线性反应和相关无脊椎动物的功能失衡
3. Biogenic habitat shifts under long-term ocean acidification show nonlinear community responses and unbalanced functions of associated invertebrates [J] . Milazzo M., Alessi C., Quattrocchi F., The Science of the Total Environment . 2019,第Juna1期

机译：在长期海洋酸化下的生物栖息地转变，显示非线性群落反应和相关无脊椎动物的不平衡功能
4. The Evolution of Ocean Acidification Observing Efforts in Alaska and The Development of an Alaska Ocean Acidification Network [C] . Darcy Dugan, Carol Janzen, Molly McCammon, Oceans (Conference) . 2017

机译：阿拉斯加海洋酸化观察努力的演变与阿拉斯加海洋酸化网络的发展
5. Zooplankton community responses to acidification: The role of rapid evolution and compensatory dynamics [D] . Fischer, Janet Marie 1997

机译：浮游动物群落对酸化的反应：快速进化和补偿动力学的作用
6. Response of Posidonia oceanica seagrass and its epibiont communities to ocean acidification [O] . Katja Guilini, Miriam Weber, Dirk de Beer, -1

机译：海洋波塞冬草及其外生群落对海洋酸化的响应
7. Rapid shifts in picoeukaryote community structure in response to ocean acidification [O] . Meakin, Nicholas G, Wyman, Michael 2011

机译：响应海洋酸化，皮古真核生物群落结构快速变化

Rapid shifts in picoeukaryote community structure in response to ocean acidification

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