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Decoupled growth and grazing rates of diatoms and green algae drive increased phytoplankton productivity on <scp>HNLC</scp> sub‐<scp>Antarctic</scp> plateaux

Andres Gutiérrez‐Rodríguez, Mikel Latasa, Karl Safi, Matthew H. Pinkerton, Scott D. Nodder

2023Limnology and Oceanography Letters10 citationsDOIOpen Access PDF

Abstract

Abstract The combination of iron limitation and microzooplankton grazing controls phytoplankton productivity and taxonomic composition in high‐nutrient low‐chlorophyll (HNLC) regions. While increased productivity and diatom contribution triggered by iron enrichment support this view, direct measurements of underpinning group‐specific growth and grazing rates are scarce for the Southern Ocean. To assess these rates, we conducted dilution experiments coupled to high‐performance liquid chromatography and flow‐cytometry in sub‐Antarctic waters on and off Campbell Plateau, southeast of Aotearoa‐New Zealand. Off the plateau, growth and grazing were closely balanced for all groups despite a two‐fold difference between slow‐ and fast‐growing groups. On Campbell Plateau, where HNLC conditions were alleviated, the balance was disrupted, mainly by the preferential growth of diatoms and green algae, which was stimulated beyond grazing. Our results expand the recognized ability of diatoms to escape grazing control to picoplanktonic green algae that also avoid grazing and contribute significantly to phytoplankton productivity and biomass accumulation.

Topics & Concepts

GrazingPhytoplanktonAlgaeProductivityDiatomBiomass (ecology)OceanographyPlateau (mathematics)BiologyGrazing pressureEnvironmental scienceEcologyNutrientGeologyMacroeconomicsEconomicsMathematical analysisMathematicsMarine and coastal ecosystemsMarine Biology and Ecology ResearchMicrobial Community Ecology and Physiology
Decoupled growth and grazing rates of diatoms and green algae drive increased phytoplankton productivity on <scp>HNLC</scp> sub‐<scp>Antarctic</scp> plateaux | Litcius