Seasonal dynamics of mixotrophic phytoplankton in a freshwater habitat revealed by single-cell sorting

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The study examined diversity and seasonal dynamics of bacterivorous mixotrophic phytoplankton (phago-mixotrophs) in a freshwater habitat using fluorescence-activated single-cell sorting combined with microscopy. Four mixotroph groups were identified—Pedinellales (Dictyochophyceae), Cryptomonas (Cryptophyceae), Dinobryon (Chrysophyceae), and a single-chloroplast bearing Chlorophyta group—which together represented a large fraction of total mixotrophs detected, though the exact proportion differed between the two methods. Seasonal patterns showed Pedinellales and Chlorophyta were more abundant in spring and summer/autumn, while Dinobryon was present only in winter at the lowest temperatures with moderate light intensity. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract The nutritional strategy of phago-mixotrophy among eukaryotic phytoplankton has been widely recognized and characterized across various taxonomic lineages. While their ecological role as bacterivores in different aquatic environments is acknowledged, establishing a clear connection between mixotrophic activities and taxonomy within natural communities remains challenging. In this study, we utilized fluorescence-activated single-cell sorting techniques in combination with microscopic observation to investigate the diversity and seasonal variations of bacteria-feeding mixotrophs in a freshwater habitat. We identified four groups of mixotrophic phytoplankton using both methods: Pedinellales (Dictyochophyceae), Cryptomonas (Cryptophyceae), Dinobryon (Chrysophyceae), and a single-chloroplast bearing group within Chlorophyta. These groups accounted for 58-96% and 54-95% of total mixotrophs identified by the two methods, respectively. Seasonal variations demonstrated that Pedinellales and Chlorophyta were more abundant in spring and summer/autumn, while Dinobryon was only present in winter when temperatures were lowest and light intensity was moderate. Our findings, with six classes and twelve genera identified as bacterivorous mixotrophs, highlight the promising potential of single-cell techniques in aquatic plankton ecology. This approach reveals the speciation and feeding activities of phago-mixotrophs in situ, thereby enhancing our understanding of their functional ecological roles within microbial food webs. Competing Interest Statement The authors have declared no competing interest.

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last seen: 2026-05-20T01:45:00.602351+00:00