John E. Watson scite author profile

With rising demands on water supplies necessitating water reuse, wastewater treatment plant (WWTP) effluent is often used to irrigate agricultural lands. Emerging contaminants, like pharmaceuticals and personal care products (PPCPs), are frequently found in effluent due to limited removal during WWTP processes. Concern has arisen about the environmental fate of PPCPs, especially regarding plant uptake. The aim of this study was to analyze uptake of sulfamethoxazole, trimethoprim, ofloxacin, and carbamazepine in wheat (Triticum aestivum L.) plants that were spray-irrigated with WWTP effluent. Wheat was collected before and during harvest, and plants were divided into grain and straw. Subsamples were rinsed with methanol to remove compounds adhering to surfaces. All plant tissues underwent liquid-solid extraction, solid-phase extraction cleanup, and liquid chromatography-tandem mass spectrometry analysis. Residues of each compound were present on most plant surfaces. Ofloxacin was found throughout the plant, with higher concentrations in the straw (10.2 ± 7.05 ng g ). Trimethoprim was found only on grain or straw surfaces, whereas carbamazepine and sulfamethoxazole were concentrated within the grain (1.88 ± 2.11 and 0.64 ± 0.37 ng g −1 , respectively). These findings demonstrate that PPCPs can be taken up into wheat plants and adhere to plant surfaces when WWTP effluent is spray-irrigated. The presence of PPCPs within and on the surfaces of plants used as food sources raises the question of potential health risks for humans and animals.

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Antibiotics in Agroecosystems: Introduction to the Special Section

Franklin

Aga

Cytryn

et al. 2016

J. Environ. Qual.

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The presence of antibiotic drug residues, antibiotic resistant bacteria, and antibiotic resistance genes in agroecosystems has become a significant area of research in recent years and is a growing public health concern. While antibiotics are used in both human medicine and agricultural practices, the majority of their use occurs in animal production where historically they have been used for growth promotion, in addition to the prevention and treatment of disease. The widespread use of antibiotics and the application of animal wastes to agricultural lands play major roles in the introduction of antibiotic‐related contamination into the environment. Overt toxicity in organisms directly exposed to antibiotics in agroecosystems is typically not a major concern because environmental concentrations are generally lower than therapeutic doses. However, the impacts of introducing antibiotic contaminants into the environment are unknown, and concerns have been raised about the health of humans, animals, and ecosystems. Despite increased research focused on the occurrence and fate of antibiotics and antibiotic resistance over the past decade, standard methods and practices for analyzing environmental samples are limited and future research needs are becoming evident. To highlight and address these issues in detail, this special collection of papers was developed with a framework of five core review papers that address the (i) overall state of science of antibiotics and antibiotic resistance in agroecosystems using a causal model, (ii) chemical analysis of antibiotics found in the environment, (iii) need for background and baseline data for studies of antibiotic resistance in agroecosystems with a decision‐making tool to assist in designing research studies, as well as (iv) culture‐ and (v) molecular‐based methods for analyzing antibiotic resistance in the environment. With a focus on the core review papers, this introduction summarizes the current state of science for analyzing antibiotics and antibiotic resistance in agroecosystems, discusses current knowledge gaps, and develops future research priorities. This introduction also contains a glossary of terms used in the core reivew papers of this special section. The purpose of the glossary is to provide a common terminology that clearly characterizes the concepts shared throughout the narratives of each review paper. Core Ideas Antibiotic resistant bacteria are an emerging threat to human, animal, and ecological health. Agroecosystems often contain elevated levels of antibiotics and antibiotic resistance. The impact of antibiotics at low concentrations in the environment is not fully known. Research is needed to understand the spread of antibiotic resistance within and beyond agroecosystems. Standardized approaches will help bring a consensus among scientific community datasets.

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Publisher’s Note: Search for the rare charmless hadronic decayB+→a0+π0[Phys. Rev. D77, 011101 (2008)]

Aubert¹,

Bóna²,

Boutigny³

et al. 2008

Phys. Rev. D

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Leaf Thickness and Electrical Capacitance as Measures of Plant Water Status

Afzal

Duiker

Watson

et al. 2017

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John E. Watson

Fate of pharmaceuticals in a spray-irrigation system: From wastewater to groundwater

Uptake of Three Antibiotics and an Antiepileptic Drug by Wheat Crops Spray Irrigated with Wastewater Treatment Plant Effluent

Antibiotics in Agroecosystems: Introduction to the Special Section

Publisher’s Note: Search for the rare charmless hadronic decayB+→a0+π0[Phys. Rev. D77, 011101 (2008)]

Leaf Thickness and Electrical Capacitance as Measures of Plant Water Status

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