The development of deep-ocean anoxia in a comprehensive ocean phosphorus model.

IF 1.9 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS GEM-International Journal on Geomathematics Pub Date : 2023-01-01 Epub Date: 2023-05-30 DOI:10.1007/s13137-023-00221-0

J G Donohue, B J Florio, A C Fowler

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Abstract

We analyse a model of the phosphorus cycle in the ocean given by Slomp and Van Cappellen (Biogeosciences 4:155-171, 2007. 10.5194/bg-4-155-2007). This model contains four distinct oceanic boxes and includes relevant parts of the water, carbon and oxygen cycles. We show that the model can essentially be solved analytically, and its behaviour completely understood without recourse to numerical methods. In particular, we show that, in the model, the carbon and phosphorus concentrations in the different ocean reservoirs are all slaved to the concentration of soluble reactive phosphorus in the deep ocean, which relaxes to an equilibrium on a time scale of 180,000 y, and we show that the deep ocean is either oxic or anoxic, depending on a critical parameter which we can determine explicitly. Finally, we examine how the value of this critical parameter depends on the physical parameters contained in the model. The presented methodology is based on tools from applied mathematics and can be used to reduce the complexity of other large, biogeochemical models.

Supplementary information: The online version contains supplementary material available at 10.1007/s13137-023-00221-0.

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海洋磷综合模式中深海缺氧的发展。

我们分析了Slomp和Van Cappellen提出的海洋磷循环模型（生物地球科学4:155-1712007）。10.5194/bg-4155-2007）。该模型包含四个不同的海洋箱，并包括水、碳和氧循环的相关部分。我们表明，该模型基本上可以解析求解，并且在不使用数值方法的情况下完全理解其行为。特别是，我们表明，在该模型中，不同海洋储层中的碳和磷浓度都与深海中可溶性活性磷的浓度有关，后者在180000年的时间尺度上放松到平衡。我们表明，深海要么是有氧的，要么是缺氧的，这取决于我们可以明确确定的一个关键参数。最后，我们研究了这个关键参数的值如何取决于模型中包含的物理参数。所提出的方法基于应用数学的工具，可用于降低其他大型生物地球化学模型的复杂性。补充信息：在线版本包含补充材料，可访问10.1007/s13137-023-00221-0。

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来源期刊

GEM-International Journal on Geomathematics MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

CiteScore

3.50

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