Lake sedimentary biogenic silica from diatoms constitutes a significant global sink for aluminium

Diatoms drive biogeochemical cycling of aluminum by incorporating this element into their shells, but this process has not been quantified in freshwater systems. Here the authors quantify diatom-mediated aluminum fluxes in lakes and determine that they rival the aluminum sink in the global ocean.

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Bibliographic Details
Main Authors:	Dong Liu, Peng Yuan, Qian Tian, Hongchang Liu, Liangliang Deng, Yaran Song, Junming Zhou, Dusan Losic, Jieyu Zhou, Hongzhe Song, Haozhe Guo, Wenxiao Fan
Format:	article
Language:	EN
Published:	Nature Portfolio 2019
Subjects:	Science Q
Online Access:	https://doaj.org/article/3b60cc8f65534ea8a4b83f1f28ccb0a8
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Summary:	Diatoms drive biogeochemical cycling of aluminum by incorporating this element into their shells, but this process has not been quantified in freshwater systems. Here the authors quantify diatom-mediated aluminum fluxes in lakes and determine that they rival the aluminum sink in the global ocean.

Lake sedimentary biogenic silica from diatoms constitutes a significant global sink for aluminium

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