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The coupling of Phanerozoic continental weathering and marine phosphorus cycle.


ABSTRACT: Organic matter production and decomposition primarily modulate the atmospheric O2 and CO2 levels. The long term marine primary productivity is controlled by the terrestrial input of phosphorus (P), while the marine P cycle would also affect organic matter production. In the past 540 million years, the evolution of terrestrial system, e.g. colonization of continents by vascular land plants in late Paleozoic, would certainly affect terrestrial P input into the ocean, which in turn might have impacted the marine primary productivity and organic carbon burial. However, it remains unclear how the marine P cycle would respond to the change of terrestrial system. Here we reconstruct the secular variations of terrestrial P input and biological utilization of seawater P in Phanerozoic. Our study indicates that riverine dissolved P input and marine P biological utilization (i.e. the fraction of P being buried as organophosphorus) are inversely correlated, suggesting the coupling of continental P input and marine P cycle. We propose an increase of P input would elevate surface ocean productivity, which in turn enhances marine iron redox cycle. Active Fe redox cycle favors the scavenging of seawater P through FeOOH absorption and authigenic phosphate formation in sediments, and accordingly reduces the bioavailability of seawater P. The negative feedback of marine P cycle to terrestrial P input would keep a relatively constant organic carbon burial, limiting the variations of surface Earth temperature and atmospheric O2 level.

SUBMITTER: Wang R 

PROVIDER: S-EPMC7118102 | biostudies-literature | 2020 Apr

REPOSITORIES: biostudies-literature

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The coupling of Phanerozoic continental weathering and marine phosphorus cycle.

Wang Ruimin R   Lang Xianguo X   Ding Weiming W   Liu Yarong Y   Huang Tianzheng T   Tang Wenbo W   Shen Bing B  

Scientific reports 20200402 1


Organic matter production and decomposition primarily modulate the atmospheric O<sub>2</sub> and CO<sub>2</sub> levels. The long term marine primary productivity is controlled by the terrestrial input of phosphorus (P), while the marine P cycle would also affect organic matter production. In the past 540 million years, the evolution of terrestrial system, e.g. colonization of continents by vascular land plants in late Paleozoic, would certainly affect terrestrial P input into the ocean, which in  ...[more]

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