Abstract
Marine protists are essential for globally critical biological processes, including the biogeochemical cycles of matter and energy. However, compared with their prokaryotic counterpart, it remains largely unclear how environmental factors determine the diversity and distribution of the active protistan communities on the regional scale. In the present study, the biodiversity, community composition, and potential drivers of the total, abundant, and rare protistan groups were studied using high throughput sequencing on the V9 hyper-variable regions of the small subunit ribosomal RNA (SSU rRNA) along an estuary to basin transect in the northern South China Sea. Overall, Bacillariophyta and Cercozoa were abundant in the surface water; heterotrophic protists including Spirotrichea and marine stramenopiles 3 (MAST-3) were more abundant in the subsurface waters near the heavily urbanized Pearl River estuary; Chlorophyta and Pelagophyceae were abundant at the deep chlorophyll maximum depth, while Hacrobia, Radiolaria, and Excavata were the abundant groups in the deep water. Salinity, followed by water depth, temperature, and other biological factors, were the primary factors controlling the distinct vertical and horizontal distribution of the total and abundant protists. Rare taxa were driven by water depth, followed by temperature, salinity, and the concentrations of PO43−. The active protistan communities were mainly driven by dispersal limitation, followed by drift and other ecological processes.
Highlights
Microorganisms, including bacteria, archaea, protists, fungi, and viruses, play fundamental ecological roles in marine ecosystems [1]
Knowledge of the biodiversity, community composition, biogeographical distribution, and the driving factors of protists are critical to understanding the response of marine ecosystems to global changes [1,7]
Seawater was collected for the analysis of chlorophyll a (Chl a), nutrients, picoplankton
Summary
Microorganisms, including bacteria, archaea, protists (microbial eukaryotes), fungi, and viruses, play fundamental ecological roles in marine ecosystems [1]. Protists that play various roles in the aquatic ecosystems (e.g., primary producers, grazers, decomposers, and parasites) are essential for globally critical biological processes, including the biogeochemical cycles, the remineralization of organic matter, and climate regulation [2,3,4]. They have incredibly high abundance and species diversity, which enable them to quickly adapt to the changing surrounding environment [5]. Knowledge of the biodiversity, community composition, biogeographical distribution, and the driving factors of protists are critical to understanding the response of marine ecosystems to global changes [1,7].
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