Datasets used to support the work presented in: Beringer, C.J., K.W. Goyne, R.N. Lerch, E.B. Webb, and D. Mengel. 2020: Clothianidin decomposition in Missouri wetland soils. J. Environ. Qual. JEQ-2020-05-0167-TR
Data files
Nov 04, 2021 version files 10.43 KB
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Incubation_Concentration_Data.csv
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Isotherm_Sorption_Data.csv
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README_Datasets.txt
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Single-Point_Sorption_Data.csv
Abstract
Neonicotinoid pesticides can persist in soils for extended time periods; however, they also have a high potential to contaminate ground and surface waters. Studies have reported negative effects associated with neonicotinoids and non-target taxa, including aquatic invertebrates, pollinating insect species, and insectivorous birds. This study evaluated factors associated with clothianidin (1-[(2-chloro-1,3-thiazol-5-yl) methyl]-3-methyl-2-nitroguanidine, CTN) degradation and sorption in Missouri wetland soils to assess the potential for wetland soils to mitigate potential environmental risks associated with neonicotinoids. Solid-to-solution partition coefficients (Kd) for CTN sorption to eight wetland soils were determined via single-point sorption experiments, and sorption isotherm experiments were conducted using the two most contrasting soils. Clothianidin degradation was determined under oxic and anoxic conditions over 60 d. Degradation data were fit to zero- and first-order kinetic decay models to determine CTN half-life, i.t0.5). Sorption results indicated CTN sorption to wetland soil was relatively weak (average Kd = 3.58 L kg-1); thus, CTN has the potential to be mobile and bioavailable within wetland soils. However, incubation results showed anoxic conditions significantly increased CTN degradation rates in wetland soils (anoxic average t0.5 =27.2 d; oxic average t0.5 = 149.1 d). A significant negative correlation was observed between anoxic half-life values and soil organic carbon content (r2=0.782; p=0.046). Greater CTN degradation rates in wetland soils under anoxic conditions suggest that managing wetlands to facilitate anoxic conditions could mitigate CTN presence in the environment and reduce exposure to non-target organisms.
Methods
Wetland soil samples were collected at eight sites from 0-10 cm depth in locations that contained characteristic wetland vegetation (e.g., Polygonum spp., Cyperaceae spp., Juncaceae spp., Typha spp.) for Missouri.
Usage notes
There are some missing replications in the Incubation Concentration Data.