Determination of the antibiotic and antibiotic resistance footprint in surface water environment of a metropolitan area: Effects of anthropogenic activities

Loading...
Thumbnail Image
Statistics
View Statistics

Collection period

2020-06-30
2022-09-12

Date completed

2022-09-12

Date updated

Time period coverage

Geographic coverage

Source information

Journal Title

Journal ISSN

Volume Title

Title

Determination of the antibiotic and antibiotic resistance footprint in surface water environment of a metropolitan area: Effects of anthropogenic activities

Published Date

2022-09-26

Author Contact

He, Huan
heh@umn.edu

Type

Dataset
Field Study Data
Spatial Data

Abstract

This study investigated geospatial distributions of antibiotics and antibiotic resistance genes (ARGs) in surface waters and their associations with anthropogenic activities. During July‒October 2020, the concentrations of antibiotics (water and sediment) and ARGs (sediment) were measured at 39 sites in the Twin Cities metropolitan area (Minnesota) that experience a gradient of impacts related to human activities. For water samples, the number of antibiotics detected and the concentrations of certain antibiotics (e.g., sulfonamides) positively correlated with urbanization indicators (e.g., urban percentage, population density, number of wastewater discharge points; ρ =0.32‒0.46, p =0.003‒0.04) and negatively correlated with undeveloped land indicators (e.g., forest; ρ =-0.34‒-0.62, p =<0.00001‒0.04). Antibiotics in sediments exhibited geospatial distribution different from that in corresponding water samples and exhibited no associations with anthropogenic factors. Relative abundances of ARGs were not associated with anthropogenic factors, but several ARGs (e.g., blaoxa, mexB, and sul2) were inversely related to the organic content of sediments (ρ =-0.38‒-0.44, p =0.01‒0.04). Strong correlations were found among relative abundances of various ARGs and intI1 (ρ ≥ 0.67, p < 0.05), highlighting their co-occurrence in (sub)urban surface waters. These results identified promising anthropogenic/environmental factors for predicting antibiotic geospatial distributions and useful gene markers to monitor ARGs in surface waters.

Description

This file contains 5 sheets about antibiotic concentrations in water and sediment samples (Sheets 1 and 2), antibiotic extraction recoveries for water and sediment samples (Sheets 3 and 4), and antibiotic resistance gene concentrations and relative abundances in sediment samples (Sheet 5). Any additional data (physicochemical properties of water and sediment samples, GIS information of anthropogenic activities for each sampling location) and all references are provided in the main text or supporting information (SI) of the submitted manuscript. Questions about the data should be directed to Huan He (heh@umn.edu) and William A. Arnold (arnol032@umn.edu).

Referenced by

Related to

Replaces

Replaced by

Publisher

Funding information

Minnesota Environmental and Natural Resources Trust Fund as recommended by the Legislative-Commission on Minnesota Resources

item.page.sponsorshipfunderid

item.page.sponsorshipfundingagency

item.page.sponsorshipgrant

Previously Published Citation

Other identifiers

Suggested citation

He, Huan; Bueno, Irene; Kim, Taegyu; Wammer, Kristine H.; LaPara, Timothy M.; Singer, Randall S.; Beaudoin, Amanda; Arnold, William A.. (2022). Determination of the antibiotic and antibiotic resistance footprint in surface water environment of a metropolitan area: Effects of anthropogenic activities. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/8XP6-RQ86.
View/Download file
File View/OpenDescriptionSize
Antibiotics & ARGs_Locations_Concentrations_Recoveries_100722updated.xlsxAntibiotics & ARGs Locations Concentrations Recoveries148.1 KB
Readme_He_2022.txtDescription of the data42.4 KB
Archival_data_in_CSV.zipArchival data (CSV format)499.22 KB

Content distributed via the University Digital Conservancy may be subject to additional license and use restrictions applied by the depositor. By using these files, users agree to the Terms of Use. Materials in the UDC may contain content that is disturbing and/or harmful. For more information, please see our statement on harmful content in digital repositories.