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Spatiotemporal correlations between water quality and microbial community of typical inflow river into Taihu Lake, China
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Spatiotemporal correlations between water quality and microbial community of typical inflow river into Taihu Lake, China
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Journal Article
Spatiotemporal correlations between water quality and microbial community of typical inflow river into Taihu Lake, China
2022
Overview
Changxing River, which is a typical inflow river into Taihu Lake and occurs severe algae invasion, is selected to study the effect of different pollution sources on the water quality and ecological system. Four types of pollution sources, including the estuary of Taihu Lake, discharge outlets of urban wastewater treatment plants, stormwater outlets, and nonpoint source agricultural drainage areas, were chosen, and next-generation sequencing and multivariate statistical analyses were used to characterize the microbial communities and reveal their relationship with water physicochemical properties. The results showed that ammonia nitrogen (NH
4
+
-N), total nitrogen (TN), and total phosphorus (TP) were the main pollutants in Changxing River, especially at stormwater outlets. At the same time, the diversity of microbial communities was the highest in the summer, and dominant microbes included
Proteobacteria
(40.9%),
Bacteroidetes
(21.0%), and
Euryarchaeota
(6.1%). The results of BIOENV analysis showed that the major seasonal differences in the diversity of microbial community of Changxing river were explained by the combination of water temperature (T), air pressure (P), TP, and COD
Mn
. From the perspective of different pollution types, relative abundances of
Microcystis
and
Nostocaceae
at the estuary of Taihu Lake were correlated positively with dissolved oxygen (DO) and pH, and relative abundances of
Pseudomonas
and
Arcobacter
were correlated positively with concentrations of TN and nitrate nitrogen (NO
3
−
-N) at stormwater outlets. This study provided a reference for the impact of pollution types on river microbial ecosystem under complex hydrological conditions and guidance for the selection of restoration techniques for polluted rivers entering the important lake.
