Influence of soil properties and test conditions on sorption and desorption of testosterone

Rui-ping Ma, Tian C. Zhang, S. Bartelt-Hunt, Yong Qi, W. Kranz, D. Snow, T. Mader, C. Shapiro, D. Shelton, S. V. Donk, D. Tarkalson, S. Ensley
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引用次数: 10

Abstract

In this study, batch sorption and desorption experiments were conducted for testosterone using four agricultural soils and five clay minerals. Significant differences in sorption behavior were observed between abiotic and biotic systems. The Freundlich sorption coefficient Kf (µg per g)/(µg per mL) ranged from 8.53 to 74.46 for soils and from 35.28 to 1243 for clays. The maximum sorption capacity (µg per g) of soils ranged from 25.25 to 440.61 for soils and 168.46 to 499.84 for clays. Correlation of sorption model parameters with soil properties indicated that both clay content and soil organic matter are important variables in predicting testosterone sorption behavior. Observed testosterone desorption from agricultural soils ranged from approximately 14 to 100 percent after 3 desorption cycles, and the desorption percentage decreased as the initial testosterone concentration decreased. Temperature, ionic strength, the water/soil ratio and soil depth were determined to influence sorption and desorption of testosterone. Desorption significantly increase with the soil depth and with the increase in the water to soil ratio. Temperature had an inverse effect on the sorption capacity of the soils tested. Thermodynamic calculations showed that the enthalpy change of the soils tested were the range of 12.9-20.7 kJ per mol, indicating weak interaction between testosterone and soil. Our results suggest that additional studies on how soil particles with different size fractions affect hormones fate and transport are needed in order to determine the potential risk of testosterone leaching or runoff.
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土壤性质和试验条件对睾酮吸附和解吸的影响
本研究利用4种农用土壤和5种粘土矿物对睾酮进行了批量吸附和解吸实验。在非生物系统和生物系统之间观察到显著的吸附行为差异。土壤的Freundlich吸附系数Kf(µg / g)/(µg / mL)范围为8.53 ~ 74.46,粘土为35.28 ~ 1243。土壤的最大吸附量为25.25 ~ 440.61µg / g,粘土的最大吸附量为168.46 ~ 499.84µg / g。吸附模型参数与土壤性质的相关性表明,粘土含量和土壤有机质是预测睾酮吸附行为的重要变量。经过3个解吸循环后,土壤中睾酮的解吸率约为14% ~ 100%,且随着初始睾酮浓度的降低,解吸率降低。测定了温度、离子强度、水/土比和土壤深度对睾酮吸附和解吸的影响。解吸随土壤深度和水土比的增加而显著增加。温度对土壤的吸附能力有反作用。热力学计算表明,土壤的焓变范围为12.9 ~ 20.7 kJ / mol,表明睾酮与土壤的相互作用较弱。我们的研究结果表明,需要对不同大小的土壤颗粒如何影响激素的命运和运输进行额外的研究,以确定睾丸激素淋失或径流的潜在风险。
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