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Rapid Cycling of Bacterial Particulate Organic Matter in the Upper Layer of the Western Pacific Warm Pool

Jinqiang Guo, Bu Zhou, Eric P. Achterberg, Huamao Yuan, Jinming Song, Liqin Duan, Xuegang Li

2023Geophysical Research Letters12 citationsDOIOpen Access PDF

Abstract

Abstract Bacterial metabolism largely drives the sequestration of refractory organic matter in the ocean. However, a lack of understanding exists regarding the abundance and reactivity of bacterial particulate organic matter (POM). Here we report the bacterial contributions to suspended POM collected in the oligotrophic Western Pacific Warm Pool (WPWP). Around 27% of particulate organic carbon (POC) and ∼39% of particulate nitrogen (PN) in the surface ocean were derived from bacteria. Most of the bacterial POM (∼87%) was labile or semi‐labile, and ∼85% of bacterial POM was removed between depths of ∼100–300 m. Bacterial POM constituted only ∼8% and ∼13% of refractory POC and PN, respectively. The rapid cycling of bacterial POM in upper waters was likely related to oligotrophic conditions and facilitated by higher temperatures in the WPWP. Taken together, these observations indicate that bacterial POM plays a crucial role in supplying energy for bacterial respiration.

Topics & Concepts

ParticulatesParticulate organic matterEnvironmental chemistryOrganic matterCyclingEnvironmental scienceMicrobial loopParticulate organic carbonBacterial growthMicrobial metabolismCarbon fibersWestern Hemisphere Warm PoolCarbon cycleOceanographyRefractory (planetary science)Total organic carbonBacteriaChemistryPhytoplanktonEcologyNutrientPacific oceanBiologyEcosystemGeologyGeneticsHistoryComposite materialMaterials scienceArchaeologyAstrobiologyComposite numberMarine and coastal ecosystemsMicrobial Community Ecology and PhysiologyMarine Biology and Ecology Research
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