Abstract
The presence of estrogens in livestock excrement has raised concerns about their potential negative influence on animals and the overall food cycle. This is the first investigation to simultaneously remove estrogens, including estriol (E3), bisphenol A (BPA), diethylstilbestrol (DES), estradiol (E2), and ethinyl estradiol (EE2), from cow manure using a Fenton oxidation technique. Based on the residual concentrations and removal efficiency of estrogens, the Fenton oxidation reaction conditions were optimized as follows: a H2O2 dosage of 2.56 mmol/g, a Fe(II) to H2O2 molar ratio of 0.125 M/M, a solid to water mass ratio of 2 g/mL, an initial pH of 3, and a reaction time of 24 h. Under these conditions, the simultaneous removal efficiencies of E3, BPA, DES, E2, and EE2, with initial concentrations in cow manure of 97.40, 96.54, 100.22, 95.01, and 72.49 mg/kg, were 84.9%, 99.5%, 99.1%, 97.8%, and 84.5%, respectively. We clarified the possible Fenton oxidation reaction mechanisms that governed the degradation of estrogens. We concluded that Fenton oxidation technique could be effective for efficient removal of estrogens in livestock excrement. Results are of great importance for cow manure reuse in agricultural management, and can be used to reduce the threat of environmental estrogens to human health and ecological safety.
Highlights
Endocrine disrupting chemicals (EDCs) are chemical substances that can cause adverse health effects on organisms, or cause changes in the endocrine function of an organism’s offspring
The H2 O2 dosage significantly influenced the removal of tested estrogens by Fenton oxidation in cow manure
We systematically investigated the effects of H2O2 in cow manure by a Fenton oxidation technique
Summary
Endocrine disrupting chemicals (EDCs) are chemical substances that can cause adverse health effects on organisms, or cause changes in the endocrine function of an organism’s offspring. Environmental estrogen contamination has become the third largest environment problem after ozone depletion and global warming, and have been described as a time bomb threatening human survival [2]. Animals and humans can be exposed to environmental estrogens through different pathways, such as via the digestive tract, respiratory tract, and skin contact, while long-term retention can occur in animal and human body adipose tissue. When the accumulation of estrogens in the body reaches a certain concentration, it is released from fat tissue into the blood stream, and adverse effects on organisms can result [3]. Some natural estrogens, such as estriol (E3) and estradiol (E2), and synthetic estrogens, such
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