Spatiotemporal Topic Modeling Reveals Storm-Driven Advection and Stirring Control Plankton Community Variability in an Open Ocean Eddy

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY Journal of Geophysical Research-Oceans Pub Date : 2024-11-07 DOI:10.1029/2024JC020907
John E. San Soucie, Yogesh Girdhar, Leah Johnson, Emily E. Peacock, Alexi Shalapyonok, Heidi M. Sosik
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Abstract

Phytoplankton communities in the open ocean are high-dimensional, sparse, and spatiotemporally heterogeneous. The advent of automated imaging systems has enabled high-resolution observation of these communities, but the amounts of data and their statistical properties make analysis with traditional approaches challenging. Spatiotemporal topic models offer an unsupervised and interpretable approach to dimensionality reduction of sparse, high-dimensional categorical data. Here we use topic modeling to analyze neural-network-classified phytoplankton imagery taken in and around a retentive eddy during the 2021 North Atlantic EXport Processes in the Ocean from Remote Sensing (EXPORTS) field campaign. We investigate the role physical-biological interactions play in altering plankton community composition within the eddy. Analysis of a water mass mixing framework suggests that storm-driven surface advection and stirring were major drivers of the progression of the eddy plankton community away from a diatom bloom over the course of the cruise.

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时空主题建模揭示风暴驱动的平流和搅拌控制着开阔洋涡流中浮游生物群落的变化
开阔海洋中的浮游植物群落具有高维、稀疏和时空异质性等特点。自动成像系统的出现实现了对这些群落的高分辨率观测,但数据量及其统计特性使传统的分析方法面临挑战。时空主题模型为稀疏、高维分类数据的降维提供了一种无监督、可解释的方法。在此,我们利用主题模型分析了在 2021 年北大西洋海洋遥感过程(EXPORTS)实地考察活动中在一个潴留涡内和周围拍摄的神经网络分类浮游植物图像。我们研究了物理-生物相互作用在改变漩涡内浮游生物群落组成中所起的作用。对水团混合框架的分析表明,风暴驱动的表面平流和搅拌是漩涡浮游生物群落在巡航过程中脱离硅藻大量繁殖的主要驱动力。
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来源期刊
Journal of Geophysical Research-Oceans
Journal of Geophysical Research-Oceans Earth and Planetary Sciences-Oceanography
CiteScore
7.00
自引率
13.90%
发文量
429
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