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A Review of Phytoplankton Sinking Rates: Mechanisms, Methodologies, and Biogeochemical Implications

Jie Zhu, Jiahong Cheng, Jiangning Zeng, Wenquan Zhang, Chenggang Liu, Kokoette Effiong, Qiang Hao

2026Biology5 citationsDOIOpen Access PDF

Abstract

Phytoplankton sinking is a pivotal process within the biological carbon pump that drives the vertical transport of organic carbon in the ocean. Its rates and underlying mechanisms directly influence the efficiency of the global carbon cycle and the potential for long-term sequestration. This review synthesizes current knowledge of phytoplankton sinking, encompassing buoyancy regulation mechanisms, environmental and physiological controls, methodological approaches such as settling column (SETCOL), and comparative evidence from laboratory and field studies. The aim is to elucidate the regulatory processes governing sinking and to provide a foundation for improving ecological models and refining estimates of carbon export. Evidence demonstrates that sinking rates vary considerably among phytoplankton groups, with nutrient limitation and aggregation emerging as critical modulators of export efficiency. By integrating results from experimental and in situ research, this review identifies unresolved questions and highlights priority areas: (1) quantitative coupling between aggregation and carbon flux; (2) mechanistic understanding of group-specific sinking responses; (3) integration of novel technologies, including in situ imaging and high-resolution modeling with established methods; and (4) development of interdisciplinary frameworks. Overall, this review consolidates current knowledge and underscores phytoplankton sinking as a crucial yet insufficiently resolved process within the marine carbon cycle.

Topics & Concepts

PhytoplanktonBiogeochemical cycleCarbon cycleBiologyOceanographyBiological pumpEcologyCarbon fibersBiogeochemistryTotal inorganic carbonWater columnBiological oceanographyEnvironmental sciencePlanktonBiochemical engineeringAtmospheric carbon cycleProcess (computing)NutrientPrimary producersEmiliania huxleyiCarbon fluxSettlingGlobal changeCurrent (fluid)Microbial loopCarbon sinkMarine and coastal ecosystemsOcean Acidification Effects and ResponsesOceanographic and Atmospheric Processes