StimulatedProrocentrum donghaiensecell growth byin-situmariculture dissolved organic matter

Abstract Mixotrophic dinoflagellates frequently cause harmful algal blooms (HAB) in eutrophic mariculture waters that contain diverse excreted dissolved organic matter (DOM). The phagotrophy and the utilization of single organic small molecules have been extensively investigated in the bloom-forming mixotrophic dinoflagellates. However, their ability to utilize the in-situ DOM via absorbtrophy still remains unexplored. Here we examined the growth promotion effect of the in-situ mariculture DOM on Prorocentrum donghaiense , a representative HAB-forming species in coastal waters. Our results showed that the cell growth and photosynthesis of P. donghaiense were significantly promoted under in-situ DOM culture conditions. Additionally, parallel cultures were set up to disclose the potential role of the bacterioplankton in the free-living community (helper), where they aid in the remineralization of the in-situ DOM, and the phycosphere community (competitor), where they compete against the algal host to acquire nutrients from the in-situ DOM. Meanwhile, we determined the cellular stoichiometry under different culture conditions, showing that mariculture DOM can shape cellular stoichiometry significantly. Elevated cellular N (84.96%) and P (48.3%) were observed in spring DOM groups compared with the control groups. For the first time, this study quantifies the efficient utilization of the in-situ DOM via absorbtrophy, indicating the vital role in the outbreak and maintenance of HAB events.