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A three-dimensional mixotrophic model of Karlodinium veneficum blooms for a eutrophic estuary

Ming Li, Yuren Chen, Fan Zhang, Yang Song, Patricia M. Glibert, Diane K. Stoecker

2022Harmful Algae33 citationsDOIOpen Access PDF

Abstract

Blooms of dinoflagellate Karlodinium veneficum are widely distributed in estuarine and coastal waters and have been found to cause fish kills worldwide. K. veneficum has a mixed nutritional mode and relies on both photosynthesis and phagotrophy for growth; it is a mixotroph. Here, a model of mixotrophic growth of K. veneficum (MIXO) was developed, calibrated with previously-reported laboratory physiological data, and subsequently embedded in a 3D-coupled hydrodynamic (ROMS)-biogeochemical (RCA) model of eutrophic Chesapeake Bay, USA. The resulting ROMS-RCA-MIXO model was applied in hindcast mode to investigate seasonal and spatial distributions. Simulations showed that K. veneficum blooms occurred during June-August and were confined to the upper and middle Bay, consistent with long-term field observations. Autotrophic growth dominated in spring but heterotrophic growth dominated during the summer. The number of prey ingested by K. veneficum varied from 0.1 to 0.6 day−1 and the food vacuole content reached up to 50% of the core mixotroph biomass. The ingestion rate increased with prey density and also when P:N ratio fell below ∼0.03 (N:P ∼ 33), indicating that K. veneficum only switched to mixotrophic feeding in P-deficient waters when sufficient prey were available; this occurred during the summer months. The digestion rate increased with both the food vacuole content and temperature. The modeling analysis affirms K. veneficum as a phagotrophic ‘alga’ which is primarily photosynthetic but switches to mixotrophic feeding under nutrient deficient conditions.

Topics & Concepts

MixotrophEutrophicationDinoflagellateEnvironmental scienceBiologyDinophysisFish killBayAutotrophAlgal bloomEcologyOceanographyPhytoplanktonNutrientHeterotrophGeologyBacteriaGeneticsMarine and coastal ecosystemsMarine Biology and Ecology ResearchIsotope Analysis in Ecology
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