Novel insights into impacts of the COVID-19 pandemic on aquatic environment of Beijing-Hangzhou Grand Canal in southern Jiangsu region

•COVID-19’s impacts on water quality were first studied with fluorescence technique.•One of the main pollution sources in study water body was identified.•Shutdown & production cutdown of industries due to the pandemic weakened pollution.•Fluorescent component's intensity reduced during the...

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Published inWater research (Oxford) Vol. 193; p. 116873
Main Authors Shen, Jian, Liu, Chuanyang, Lv, Qing, Gu, Junqiang, Su, Mingyu, Wang, Shifeng, Chai, Yidi, Cheng, Cheng, Wu, Jing
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.04.2021
Subjects
Aquatic environment
Beijing - epidemiology
China - epidemiology
COVID-19
Fluorescence fingerprint
Humans
Pandemics
SARS-CoV-2
Variation
Water quality parameter
Beijing
China
FF
DOM
TPDI
Em
TPDW
MW
CODMn
EEM
COVID-19
Aquatic environment
Ex
WWTP
HPSEC
NH3-N
PARAFAC
SJ
WQP
Water quality parameter
Fluorescence fingerprint
TN
Variation
FDOM
TP
BHGC
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Summary:•COVID-19’s impacts on water quality were first studied with fluorescence technique.•One of the main pollution sources in study water body was identified.•Shutdown & production cutdown of industries due to the pandemic weakened pollution.•Fluorescent component's intensity reduced during the domestic and global pandemic. In 2020, a sudden COVID-19 pandemic unprecedentedly weakened anthropogenic activities and as results minified the pollution discharge to aquatic environment. In this study, the impacts of the COVID-19 pandemic on aquatic environment of the southern Jiangsu (SJ) segment of Beijing-Hangzhou Grand Canal (SJ-BHGC) were explored. Fluorescent component similarity and high-performance size exclusion chromatography analyses indicated that the textile printing and dyeing wastewater might be one of the main pollution sources in SJ-BHGC. The water quality parameters and intensities of fluorescent components (WT-C1(20) and WT-C2(20)) decreased to low level due to the collective shutdown of all industries in SJ region during the Spring Festival holiday and the outbreak of the domestic COVID-19 pandemic in China (January 24th to late February, 2020). Then, they presented a gradual upward trend after the domestic epidemic was under control. In mid-March, the outbreak of the international COVID-19 pandemic hit the garment export trade of China and consequently inhibited the production activities of textile printing and dyeing industry (TPDI) in SJ region. After peaking on March 26th, the intensities of WT-C1(20) and WT-C2(20) decreased again with changed intensity ratio until April 12th. During the study period (135 days), correlation analysis revealed that WT-C1 and WT-C2 possessed homology and their fluorescence intensities were highly positively correlated with conductivity and CODMn. With fluorescence fingerprint (FF) technique, this study not only excavated the characteristics and pollution causes of water body in SJ-BHGC, but also provided novel insights into impacts of the COVID-19 pandemic on production activities of TPDI and aquatic environment of SJ-BHGC. The results of this study indicated that FF technique was an effective tool for precise supervision of water environment. [Display omitted]
Bibliography:These authors contributed equally to this work.
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2021.116873