Typical pesticides diffuse loading and degradation pattern differences under the impacts of climate and land-use variations

•Different land-use patterns caused different pesticides’ vertical distributions in two sections.•Vertical distribution and correlations analysis indicted a transport process between the sections.•The metabolites ratio proved that the metabolites efficiency is influenced by low temperature.•Identify...

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Bibliographic Details
Published in:Environment international 2020-06, Vol.139, p.105717-105717, Article 105717
Main Authors: Ouyang, Wei, Hao, Xin, Tysklind, Mats, Yang, Wanxin, Lin, Chunye, Wang, Aihua
Format: Article
Language:English
Subjects:
Atrazine degradation
Diffuse pollution
Pesticide
Sedimentary pattern
Watershed modeling
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Summary:•Different land-use patterns caused different pesticides’ vertical distributions in two sections.•Vertical distribution and correlations analysis indicted a transport process between the sections.•The metabolites ratio proved that the metabolites efficiency is influenced by low temperature.•Identifying key factors for the pesticide load of the watershed improved the risk management strategies. Riverine sediment can reconstruct the history of organic pollution loads and can provide reliable temporal information for pesticide metabolite dynamics in watershed. Sediment core samples were collected from two riverine sections of a cold watershed base in the presence land use change under agricultural development, and the vertical concentrations of four pesticides (atrazine, prometryn, isoprothiolane, and oxadiazon) and two atrazine metabolites (deisopropyl-atrazine and deethyl-atrazine) were determined by gas chromatography–mass spectrometry. The presence of pesticides and metabolites was detected at different depths (11–17 cm) at 1-cm intervals along the two sediment cores, and the flux was calculated with a constant rate of supply model based on the observed concentrations and 210Pb isotope radioactivity chronology. By comparing the concentrations and fluxes of pesticides between the two sediment sections, significant differences in accumulation under different land-use patterns were found. Redundancy analysis further indicated that temporal watershed farmland variance was the dominant factor for pesticide loading. The lower concentration of atrazine and the higher concentration of the other pesticides in the estuarine sediment was closely related to the decreasing upland in the upstream area and the increase in paddy fields in the downstream area. The analysis of atrazine and the metabolites indicated that atrazine is more likely degraded to deethyl-atrazine and the metabolites have similar migration processes in the sediments, which can easily migrate downward. Moreover, the ratio of metabolites to atrazine showed that atrazine degradation was intensive during the transport process, but the metabolites efficiency was lower in this area due to the cold temperature. The results provide insights for the management of pesticide pollution control in watersheds and the potential effects of low temperature on the degradation of pesticides.
ISSN:0160-4120
1873-6750
1873-6750
DOI:10.1016/j.envint.2020.105717