Ecosystem CO2 starvation and terrestrial silicate weathering: mechanisms and global-scale quantification during the late Miocene

Beerling David J.; Taylor Lyla L.; Bradshaw Catherine D. C.; Lunt Daniel J.; Valdes Paul J.; Banwart Steven A.; Pagani Mark; Leake Jonathan R.

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Ecosystem CO2 starvation and terrestrial silicate weathering: mechanisms and global-scale quantification during the late Miocene

机译：生态系统CO2饥饿和陆地硅酸盐风化：中新世晚期的机制和全球规模的量化

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1. The relative constancy of the lower limit on Earths atmospheric CO2 concentration ([CO2]a) during major tectonic episodes over the final 24 million years (Ma) of the Cenozoic is surprising because they are expected to draw-down [CO2]a by enhancing chemical weathering and carbonate deposition on the seafloor. That [CO2]a did not drop to extremely low values suggests the existence of feedback mechanisms that slow silicate weathering as [CO2]a declines. One proposed mechanism is a negative feedback mediated through CO2 starvation of land plants in active orogenic regions compromising the efficiency of the primary carboxylating enzyme in C3 plants (Rubisco) and diminishing productivity and terrestrial weathering.

机译：1.在新生代最后2400万年（Ma）的主要构造事件中，地球大气CO2浓度（[CO2] a）下限的相对恒定是令人惊讶的，因为预计它们会降低[CO2] a通过增强化学风化作用和在海底沉积碳酸盐。 [CO2] a不会降至极低的值，表明存在反馈机制，随着[CO2] a的降低，硅酸盐的风化变慢。一种提出的机制是在活动造山带上通过陆地植物的CO2饥饿介导的负反馈，从而损害了C3植物中主要羧化酶的效率（Rubisco），并降低了生产力和陆地气候。

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来源
《The Journal of Ecology》 |2012年第1期|共11页
作者
Beerling David J.; Taylor Lyla L.; Bradshaw Catherine D. C.; Lunt Daniel J.; Valdes Paul J.; Banwart Steven A.; Pagani Mark; Leake Jonathan R.;
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中图分类植物生态学和植物地理学;
关键词
biological weathering; Miocene; modelling; mycorrhiza; plant–climate interactions;

机译：生物风化中新世建模菌根植物-气候相互作用;

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1. Ecosystem CO2 starvation and terrestrial silicate weathering: mechanisms and global-scale quantification during the late Miocene [J] . Beerling David J., Taylor Lyla L., Bradshaw Catherine D. C., The Journal of Ecology . 2012,第1期

机译：生态系统CO2饥饿和陆地硅酸盐风化：中新世晚期的机制和全球规模的量化
2. Relationships between CO2, thermodynamic limits on silicate weathering, and the strength of the silicate weathering feedback [J] . Winnick Matthew J., Maher Kate Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System . 2018,第期

机译：二氧化碳，热力学限制在硅酸盐风化中的关系，以及硅酸盐风化反馈的强度
3. Silicate weathering and CO2 consumption deduced from the seven Chinese rivers originating in the Qinghai-Tibet Plateau [J] . Wu WH, Xu SJ, Yang JD, Chemical geology . 2008,第3a4期

机译：来自青藏高原的七条中国河流的硅酸盐风化和二氧化碳消耗量
4. Feedbacks between the atmospheric boundary layer and terrestrial ecosystems: implications for global-scale modelling [C] . Peter Levy, Christopher Huntingford Conference on Biometeorology and Aerobiology . 2000

机译：大气边界层和地面生态系统之间的反馈：对全球规模建模的影响
5. Quantification of the effects of angiosperms and gymnosperms on silicate weathering and related soil nutrient cycling: Implications for phanerozoic atmospheric carbon dioxide and modern soil trace metal pollution . [D] . Andrews, Megan Yori. 2008

机译：定量分析被子植物和裸子植物对硅酸盐风化和相关土壤养分循环的影响：对生代大气二氧化碳和现代土壤微量金属污染的影响。
6. Evaluating the effects of terrestrial ecosystems climate and carbon dioxide on weathering over geological time: a global-scale process-based approach [O] . Lyla L. Taylor, Steve A. Banwart, Paul J. Valdes, 2012

机译：评估地球生态系统气候和二氧化碳对地质时期内风化的影响：基于过程的全球规模方法
7. Interactive comment on amp;#8220;Decoupling silicate weathering from primary productivity amp;#8211; how ecosystems regulate nutrient uptake along a climate and vegetation gradientamp;#8221; by Ralf A. Oeser and Friedhelm von Blanckenburg [O] . 2020

机译：＆＃8220的互动评论;从初级生产率和＃8211去耦硅酸盐风化。生态系统如何规范沿着气候和植被梯度的营养吸收＆＃8221;由Ralf A. Oeser和Friedhelm Von Blanckenburg

Ecosystem CO2 starvation and terrestrial silicate weathering: mechanisms and global-scale quantification during the late Miocene

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