2020
DOI: 10.1111/mec.15713
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Relationship between aquifer biofilms and unattached microbial indicators of urban groundwater contamination

Abstract: Aquifers, springs and other groundwater-dependent ecosystems are threatened by urban land use, which causes water quality deterioration through nutrient loading, sewage infiltration, groundwater extraction and, along coasts, seawater intrusion. The presence of certain microbes in groundwater can indicate that an aquifer is anthropogenically contaminated. Interpretations made from observations of indicator microbes in groundwater are limited because the relationship between the presumably allochthonous indicato… Show more

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Cited by 8 publications
(5 citation statements)
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“…Bacteria were extracted from a 250‐ml water sample taken into a sterile plastic bottle at each site. Such a sample likely represents unattached allochthonous groundwater bacteria that are largely independent of aquifer biofilm communities, and should therefore represent optimal microbial indicators for contamination of groundwater‐dependent ecosystems (Scharping and Garey 2021; see also Guðmundsdottir et al ., 2019). Samples were filtered with sterilized 0.2 μm MicroFunnel™ Disposable Filter Funnels and extracted with Qiagen's Dnase PowerWater DNA Isolation Kit following the manufacturer's recommendations.…”
Section: Methodsmentioning
confidence: 99%
“…Bacteria were extracted from a 250‐ml water sample taken into a sterile plastic bottle at each site. Such a sample likely represents unattached allochthonous groundwater bacteria that are largely independent of aquifer biofilm communities, and should therefore represent optimal microbial indicators for contamination of groundwater‐dependent ecosystems (Scharping and Garey 2021; see also Guðmundsdottir et al ., 2019). Samples were filtered with sterilized 0.2 μm MicroFunnel™ Disposable Filter Funnels and extracted with Qiagen's Dnase PowerWater DNA Isolation Kit following the manufacturer's recommendations.…”
Section: Methodsmentioning
confidence: 99%
“…Additional factors, including a large number of visitors, and fluctuations in both environmental parameters and nutritional levels, were also associated with microbial community shifts and the appearance of alien species ( Alonso et al, 2019 ; Rachid and Güngör, 2022 ). However, a dearth of information is currently available about the human impact on other types of caves, including polluted natural caves, especially those in industrial and urban areas ( Qian et al, 2020 ; Scharping and Garey, 2021 ). Regarding the biotechnological potential, cave autochthonous microorganisms have extensively been investigated for their capacity to produce bioactive compounds ( Ghosh et al, 2017a ; Rangseekaew and Pathom-aree, 2019 ; Farda et al, 2022a ; Zada et al, 2022 ).…”
Section: Cave Microbiology: An Overviewmentioning
confidence: 99%
“…The demographic development, urbanization, land-use change, intensive agriculture, industrialization, and global changes constantly affect the groundwater quality (Llopis-González et al, 2014;Wu et al, 2015;Scharping and Garey, 2021). The discharge of various chemicals such as nitrates or pesticides and harmful pathogenic microorganisms into the environment can decrease water quality and food safety and increase disease transmission (Sasakova et al, 2018;Goshu et al, 2021;Kongprajug et al, 2021).…”
Section: Introductionmentioning
confidence: 99%