Litcius/Paper detail

Food web structure for high carbon retention in marine plankton communities

Hee Chang Kang, Hae Jin Jeong, Jin Hee Ok, An Suk Lim, Kitack Lee, Ji Hyun You, Sang Ah Park, Se Hee Eom, Sung Yeon Lee, Kyung Ha Lee, Se Hyeon Jang, Yeong Du Yoo, Moo Joon Lee, Kwang Young Kim

2023Science Advances25 citationsDOIOpen Access PDF

Abstract

Total annual net primary productions in marine and terrestrial ecosystems are similar. However, a large portion of the newly produced marine phytoplankton biomass is converted to carbon dioxide because of predation. Which food web structure retains high carbon biomass in the plankton community in the global ocean? In 6954 individual samples or locations containing phytoplankton, unicellular protozooplankton, and multicellular metazooplankton in the global ocean, phytoplankton-dominated bottom-heavy pyramids held higher carbon biomass than protozooplankton-dominated middle-heavy diamonds or metazooplankton-dominated top-heavy inverted pyramids. Bottom-heavy pyramids predominated, but the high predation impact by protozooplankton on phytoplankton or the vertical migration of metazooplankton temporarily changed bottom-heavy pyramids to middle-heavy diamonds or top-heavy inverted pyramids but returned to bottom-heavy pyramids shortly. This finding has profound implications for carbon retention by plankton communities in the global ocean.

Topics & Concepts

PhytoplanktonPlanktonFood webBiomass (ecology)OceanographyEnvironmental scienceEcosystemMicrobial food webTotal organic carbonBiologyMarine ecosystemOcean colorEcologyCarbon fibersDeep seaNutrientGeologySatellitePhysicsMathematicsComposite numberAlgorithmAstronomyMarine and coastal ecosystemsMarine Biology and Ecology ResearchMicrobial Community Ecology and Physiology