Abstract
Microeukaryotic plankton are important components of aquatic environments and play key roles in marine microbial food webs; however, little is known about their genetic diversity in subtropical offshore areas. Here we examined the community composition and genetic diversity of the microeukaryotic plankton in Xiamen offshore water by PCR-DGGE (polymerase chain reaction-denaturing gradient gel electrophoresis), clone-based sequencing and Illumina based sequencing. The Illumina MiSeq sequencing revealed a much (approximately two orders of magnitude) higher species richness of the microeukaryotic community than DGGE, but there were no significant difference in species richness and diversity among the northern, eastern, southern or western stations based on both methods. In this study, Copepoda, Ciliophora, Chlorophyta, Dinophyceae, Cryptophyta and Bacillariophyta (diatoms) were the dominant groups even though diatoms were not detected by DGGE. Our Illumina based results indicated that two northern communities (sites N2 and N3) were significantly different from others in having more protozoa and fewer diatoms. Redundancy analysis (RDA) showed that both temperature and salinity were the significant environmental factors influencing dominant species communities, whereas the full microeukaryotic community appeared to be affected by a complex of environmental factors. Our results suggested that extensive sampling combined with more deep sequencing are needed to obtain the complete diversity of the microeukaryotic community, and different diversity patterns for both abundant and rare taxa may be important in evaluating the marine ecosystem health.
Highlights
Microeukaryotic planktonic microbes are ubiquitous and diverse in marine ecosystems
No particular permissions were required because this scientific research did no harm to sea environment, and no protected or endangered groups were involved in this investigation
The concentrations of TN were higher in W1, W2 and S3 sites, which are closed to the Jiulong River Estuary
Summary
Microeukaryotic planktonic microbes are ubiquitous and diverse in marine ecosystems. These microorganisms, including protozoa, algae, fungi and small metazoa are important components of both traditional marine food webs and the microbial food webs [1,2]. Technology (http://www.fjkjt.gov.cn/) (WJZ); and the Global Change and Air-sea Interaction Project (GASI03-01-02-03), National Bureau of Oceanography of China (http://www.soa.gov.cn/) (WJZ). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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