生物质再循环与地球早期磷循环。

Biomass recycling and Earth's early phosphorus cycle.

机构信息

Department of Earth and Space Sciences and Astrobiology Program, University of Washington, Seattle, WA 98195, USA.

NASA Astrobiology Institute Virtual Planetary Laboratory, Seattle, WA 98195, USA.

出版信息

Sci Adv. 2017 Nov 22;3(11):eaao4795. doi: 10.1126/sciadv.aao4795. eCollection 2017 Nov.

DOI:10.1126/sciadv.aao4795

PMID:29202032

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5706743/

Abstract

Phosphorus sets the pace of marine biological productivity on geological time scales. Recent estimates of Precambrian phosphorus levels suggest a severe deficit of this macronutrient, with the depletion attributed to scavenging by iron minerals. We propose that the size of the marine phosphorus reservoir was instead constrained by muted liberation of phosphorus during the remineralization of biomass. In the modern ocean, most biomass-bound phosphorus gets aerobically recycled; but a dearth of oxidizing power in Earth's early oceans would have limited the stoichiometric capacity for remineralization, particularly during the Archean. The resulting low phosphorus concentrations would have substantially hampered primary productivity, contributing to the delayed rise of atmospheric oxygen.

摘要

磷决定了海洋生物生产力在地质时间尺度上的速度。最近对前寒武纪磷水平的估计表明，这种大量营养素严重缺乏，其消耗归因于铁矿物的清除。我们提出，海洋磷储量的大小反而受到在生物量再矿化过程中磷释放受到抑制的限制。在现代海洋中，大部分与生物量结合的磷通过好氧循环回收；但早期地球海洋中氧化能力的缺乏会限制再矿化的化学计量容量，特别是在前寒武纪时期。由此产生的低磷浓度将极大地阻碍初级生产力，导致大气氧气的延迟上升。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7c39/5706743/f9a104b721ae/aao4795-F1.jpg

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生物质再循环与地球早期磷循环。

Biomass recycling and Earth's early phosphorus cycle.

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