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微生物介导的海洋磷转化:旧循环的新观点。

Microbially mediated transformations of phosphorus in the sea: new views of an old cycle.

机构信息

Daniel K. Inouye Center for Microbial Oceanography: Research and Education, University of Hawaii, Honolulu, Hawaii 96822; email:

出版信息

Ann Rev Mar Sci. 2014;6:279-337. doi: 10.1146/annurev-marine-010213-135046.

Abstract

Phosphorus (P) is a required element for life. Its various chemical forms are found throughout the lithosphere and hydrosphere, where they are acted on by numerous abiotic and biotic processes collectively referred to as the P cycle. In the sea, microorganisms are primarily responsible for P assimilation and remineralization, including recently discovered P reduction-oxidation bioenergetic processes that add new complexity to the marine microbial P cycle. Human-induced enhancement of the global P cycle via mining of phosphate-bearing rock will likely influence the pace of P-cycle dynamics, especially in coastal marine habitats. The inextricable link between the P cycle and cycles of other bioelements predicts future impacts on, for example, nitrogen fixation and carbon dioxide sequestration. Additional laboratory and field research is required to build a comprehensive understanding of the marine microbial P cycle.

摘要

磷(P)是生命必需的元素。它的各种化学形态存在于岩石圈和水圈中,在那里它们受到众多非生物和生物过程的作用,这些过程统称为磷循环。在海洋中,微生物主要负责磷的同化和再矿化,包括最近发现的磷还原氧化生物能量过程,这为海洋微生物磷循环增添了新的复杂性。人类通过开采含磷酸盐的岩石来增强全球磷循环,这可能会影响磷循环动力学的速度,特别是在沿海海洋生境中。磷循环与其他生物元素循环之间不可分割的联系预示着未来对固氮和二氧化碳固存等方面的影响。需要进行更多的实验室和现场研究,以全面了解海洋微生物磷循环。

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