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删除16字节 、 2022年4月5日 (二) 19:40
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===生物圈===
 
===生物圈===
 
[[File:Role of marine organisms in biogeochemical cycling.jpg|thumb|upright=2.1| {{center|Role of marine organisms in biogeochemical cycling in the Southern Ocean{{hsp}}<ref name=Henley2020>{{cite journal |title = Changing Biogeochemistry of the Southern Ocean and Its Ecosystem Implications|year = 2020|doi = 10.3389/fmars.2020.00581|doi-access = free|last1 = Henley|first1 = Sian F.|last2 = Cavan|first2 = Emma L.|last3 = Fawcett|first3 = Sarah E.|last4 = Kerr|first4 = Rodrigo|last5 = Monteiro|first5 = Thiago|last6 = Sherrell|first6 = Robert M.|last7 = Bowie|first7 = Andrew R.|last8 = Boyd|first8 = Philip W.|last9 = Barnes|first9 = David K. A.|last10 = Schloss|first10 = Irene R.|last11 = Marshall|first11 = Tanya|last12 = Flynn|first12 = Raquel|last13 = Smith|first13 = Shantelle|journal = Frontiers in Marine Science|volume = 7}} [[File:CC-BY icon.svg|50px]] Material was copied from this source, which is available under a [https://creativecommons.org/licenses/by/4.0/ Creative Commons Attribution 4.0 International License].</ref>}}]]
 
[[File:Role of marine organisms in biogeochemical cycling.jpg|thumb|upright=2.1| {{center|Role of marine organisms in biogeochemical cycling in the Southern Ocean{{hsp}}<ref name=Henley2020>{{cite journal |title = Changing Biogeochemistry of the Southern Ocean and Its Ecosystem Implications|year = 2020|doi = 10.3389/fmars.2020.00581|doi-access = free|last1 = Henley|first1 = Sian F.|last2 = Cavan|first2 = Emma L.|last3 = Fawcett|first3 = Sarah E.|last4 = Kerr|first4 = Rodrigo|last5 = Monteiro|first5 = Thiago|last6 = Sherrell|first6 = Robert M.|last7 = Bowie|first7 = Andrew R.|last8 = Boyd|first8 = Philip W.|last9 = Barnes|first9 = David K. A.|last10 = Schloss|first10 = Irene R.|last11 = Marshall|first11 = Tanya|last12 = Flynn|first12 = Raquel|last13 = Smith|first13 = Shantelle|journal = Frontiers in Marine Science|volume = 7}} [[File:CC-BY icon.svg|50px]] Material was copied from this source, which is available under a [https://creativecommons.org/licenses/by/4.0/ Creative Commons Attribution 4.0 International License].</ref>}}]]
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[[File:Oxygen Cycle.jpg|thumb| {{center|[[Oxygen cycle]]}}]]
 
[[File:Oxygen Cycle.jpg|thumb| {{center|[[Oxygen cycle]]}}]]
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微生物驱动了地球系统中大部分的生物地球化学循环。<ref>{{cite journal |title = The Microbial Engines That Drive Earth's Biogeochemical Cycles|year = 2008|doi = 10.1126/science.1153213|last1 = Falkowski|first1 = P. G.|last2 = Fenchel|first2 = T.|last3 = Delong|first3 = E. F.|journal = Science|volume = 320|issue = 5879|pages = 1034–1039|pmid = 18497287|bibcode = 2008Sci...320.1034F}}</ref><ref name=Zakem2020>{{cite journal |title = Redox-informed models of global biogeochemical cycles|year = 2020|doi = 10.1038/s41467-020-19454-w|last1 = Zakem|first1 = Emily J.|last2 = Polz|first2 = Martin F.|last3 = Follows|first3 = Michael J.|journal = Nature Communications|volume = 11|issue = 1|page = 5680|pmid = 33173062|pmc = 7656242|bibcode = 2020NatCo..11.5680Z}} [[File:CC-BY icon.svg|50px]] Material was copied from this source, which is available under a [https://creativecommons.org/licenses/by/4.0/ Creative Commons Attribution 4.0 International License].</ref>
 
微生物驱动了地球系统中大部分的生物地球化学循环。<ref>{{cite journal |title = The Microbial Engines That Drive Earth's Biogeochemical Cycles|year = 2008|doi = 10.1126/science.1153213|last1 = Falkowski|first1 = P. G.|last2 = Fenchel|first2 = T.|last3 = Delong|first3 = E. F.|journal = Science|volume = 320|issue = 5879|pages = 1034–1039|pmid = 18497287|bibcode = 2008Sci...320.1034F}}</ref><ref name=Zakem2020>{{cite journal |title = Redox-informed models of global biogeochemical cycles|year = 2020|doi = 10.1038/s41467-020-19454-w|last1 = Zakem|first1 = Emily J.|last2 = Polz|first2 = Martin F.|last3 = Follows|first3 = Michael J.|journal = Nature Communications|volume = 11|issue = 1|page = 5680|pmid = 33173062|pmc = 7656242|bibcode = 2020NatCo..11.5680Z}} [[File:CC-BY icon.svg|50px]] Material was copied from this source, which is available under a [https://creativecommons.org/licenses/by/4.0/ Creative Commons Attribution 4.0 International License].</ref>
       
===大气圈===
 
===大气圈===
{{main|Atmosphere}}
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===水圈===
 
===水圈===
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===岩石圈===
 
===岩石圈===
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==快速和慢速循环==
 
==快速和慢速循环==
 
生物地球化学循环包括快速和慢速循环。快速循环在生物圈中运行,慢速循环在岩石中运行。快速循环或生物循环可以在数年内完成,将物质从大气转移到生物圈,再转移到大气。慢速或地质循环可能需要数百万年才能完成,使物质穿过岩石、土壤、海洋和大气在地壳中运移。<ref name=Libes2015>Libes, Susan M. (2015). [https://books.google.com/books?hl=en&lr=&id=5tC9CgAAQBAJ&oi=fnd&pg=PA89&dq=%22blue+planet%22+libes&ots=oesDSXq1NZ&sig=B7HrLG0Y6iE9p_AqfDfSVktQGN4#v=onepage&q=%22blue%20planet%22%20libes&f=false Blue planet: The role of the oceans in nutrient cycling, maintain the atmosphere system, and modulating climate change] In: ''Routledge Handbook of Ocean Resources and Management'', Routledge, pages 89–107. .</ref>
 
生物地球化学循环包括快速和慢速循环。快速循环在生物圈中运行,慢速循环在岩石中运行。快速循环或生物循环可以在数年内完成,将物质从大气转移到生物圈,再转移到大气。慢速或地质循环可能需要数百万年才能完成,使物质穿过岩石、土壤、海洋和大气在地壳中运移。<ref name=Libes2015>Libes, Susan M. (2015). [https://books.google.com/books?hl=en&lr=&id=5tC9CgAAQBAJ&oi=fnd&pg=PA89&dq=%22blue+planet%22+libes&ots=oesDSXq1NZ&sig=B7HrLG0Y6iE9p_AqfDfSVktQGN4#v=onepage&q=%22blue%20planet%22%20libes&f=false Blue planet: The role of the oceans in nutrient cycling, maintain the atmosphere system, and modulating climate change] In: ''Routledge Handbook of Ocean Resources and Management'', Routledge, pages 89–107. .</ref>
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