Cheryl S Holling, Jonathon L Bailey, Brian Vanden Heuvel, Chad A Kinney
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In the first set of experiments, four pharmaceuticals were added to an organic matter-rich soil in environmentally relevant concentrations based on typical biosolids application rates, resulting in final soil concentrations of 2.6 ng g(-1) carbamazepine, 3.1 ng g(-1) sulfamethoxazole, 5.4 ng g(-1) salbutamol, and 0.5 ng g(-1) trimethoprim. In the second set of experiments, the cabbage was grown in soil amended with an agronomic rate of biosolids from a local WWTP. The ambient concentration of PPCPs in the biosolids resulted in final soil concentrations of 93.1 ng g(-1) carbamazepine, 67.4 ng g(-1) sulfamethoxazole, 30.3 ng g(-1) salbutamol, 433.7 ng g(-1) triclosan, and 24.7 ng g(-1) trimethoprim. After growing to maturity, the aerials of the plants were separated from roots and the two tissue types were analyzed separately. All four human pharmaceuticals were detected in both tissues in the cabbage grown in the soil fortified with the four pharmaceuticals with median concentrations of 255.4 ng g(-1) aerials and 272.9 ng g(-1) roots carbamazepine; 222.8 ng g(-1) aerials and 260.3 ng g(-1) roots sulfamethoxazole; 108.3 ng g(-1) aerials and 140.6 ng g(-1) roots salbutamol; and 20.6 ng g(-1) aerials and 53.7 ng g(-1) roots trimethoprim. Although all study compounds were present in the biosolids-amended planting soil, only carbamazepine (317.6 ng g(-1) aerials and 416.2 ng g(-1) roots), salbutamol (21.2 ng g(-1) aerials and 187.6 ng g(-1) roots), and triclosan (22.9 ng g(-1) aerials and 1220.1 ng g(-1) roots) were detected in the aerials of the cabbage. In addition to the study compounds detected in the aerials, sulfamethoxazole was detected in the roots of one of the plants in the biosolid-amended soil. In comparison to many previous studies that have utilized PPCP concentration that exceed environmentally relevant concentrations, plants in this study were exposed to environmentally relevant concentrations of the PPCPs, yet resulted in uptake concentrations similar to or greater than those reported in comparable studies. We suggest that rhizosphere conditions, particularly the presence of dissolved organic matter in the planting matrix, might be one of the critical factors determining mobilization and bioavailability of xenobiotic compounds such as PPCPs.</p>","PeriodicalId":50202,"journal":{"name":"Journal of Environmental Monitoring","volume":"14 11","pages":"3029-36"},"PeriodicalIF":0.0000,"publicationDate":"2012-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1039/c2em30456b","citationCount":"105","resultStr":"{\"title\":\"Uptake of human pharmaceuticals and personal care products by cabbage (Brassica campestris) from fortified and biosolids-amended soils.\",\"authors\":\"Cheryl S Holling, Jonathon L Bailey, Brian Vanden Heuvel, Chad A Kinney\",\"doi\":\"10.1039/c2em30456b\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Human pharmaceuticals and personal care products (PPCPs) are routinely found in biosolids from wastewater treatment plants (WWTPs). Once land applied, the PPCPs in biosolids are potentially available for plant uptake and bioaccumulation. This study used a greenhouse model to investigate uptake of PPCPs commonly detected in biosolids by the agricultural plant Chinese cabbage (Brassica campestris). Two series of greenhouse experiments were conducted as part of this project. In the first set of experiments, four pharmaceuticals were added to an organic matter-rich soil in environmentally relevant concentrations based on typical biosolids application rates, resulting in final soil concentrations of 2.6 ng g(-1) carbamazepine, 3.1 ng g(-1) sulfamethoxazole, 5.4 ng g(-1) salbutamol, and 0.5 ng g(-1) trimethoprim. In the second set of experiments, the cabbage was grown in soil amended with an agronomic rate of biosolids from a local WWTP. The ambient concentration of PPCPs in the biosolids resulted in final soil concentrations of 93.1 ng g(-1) carbamazepine, 67.4 ng g(-1) sulfamethoxazole, 30.3 ng g(-1) salbutamol, 433.7 ng g(-1) triclosan, and 24.7 ng g(-1) trimethoprim. After growing to maturity, the aerials of the plants were separated from roots and the two tissue types were analyzed separately. All four human pharmaceuticals were detected in both tissues in the cabbage grown in the soil fortified with the four pharmaceuticals with median concentrations of 255.4 ng g(-1) aerials and 272.9 ng g(-1) roots carbamazepine; 222.8 ng g(-1) aerials and 260.3 ng g(-1) roots sulfamethoxazole; 108.3 ng g(-1) aerials and 140.6 ng g(-1) roots salbutamol; and 20.6 ng g(-1) aerials and 53.7 ng g(-1) roots trimethoprim. 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引用次数: 105
摘要
人类药物和个人护理产品(PPCPs)通常存在于废水处理厂(WWTPs)的生物固体中。一旦在土地上施用,生物固体中的PPCPs有可能被植物吸收和生物积累。本研究采用温室模型研究了农业植物大白菜对生物固体中常见的PPCPs的吸收。作为这个项目的一部分,进行了两个系列的温室实验。在第一组实验中,根据典型生物固体施用量,将四种药物以环境相关浓度添加到富含有机质的土壤中,最终土壤浓度为2.6 ng g(-1)卡马西平、3.1 ng g(-1)磺胺甲恶唑、5.4 ng g(-1)沙丁胺醇和0.5 ng g(-1)甲氧苄啶。在第二组试验中,白菜在土壤中生长,土壤中添加了当地污水处理厂中生物固体的农艺肥料。生物固体中PPCPs的环境浓度导致最终土壤浓度为93.1 ng g(-1)卡马西平、67.4 ng g(-1)磺胺甲恶唑、30.3 ng g(-1)沙丁胺醇、433.7 ng g(-1)三氯生和24.7 ng g(-1)甲氧苄啶。植株生长成熟后,将叶片与根系分离,分别对两种组织类型进行分析。四种人用药物中位数浓度分别为255.4 ng g(-1)和272.9 ng g(-1)根卡马西平;222.8 ng g(-1), 260.3 ng g(-1)根磺胺甲恶唑;108.3 ng g(-1)材料和140.6 ng g(-1)根沙丁胺醇;20.6 ng g(-1)和53.7 ng g(-1)根甲氧苄啶。虽然所有的研究化合物都存在于生物固体修正的种植土壤中,但在白菜的土壤中只检测到卡马西平(317.6 ng g(-1)),沙丁胺醇(21.2 ng g(-1), 187.6 ng g(-1))和三氯生(22.9 ng g(-1), 1220.1 ng g(-1))。除了在天线中检测到的研究化合物外,在生物固体修正土壤中的一种植物的根中检测到磺胺甲恶唑。与之前许多使用PPCP浓度超过环境相关浓度的研究相比,本研究中的植物暴露于环境相关浓度的PPCP,但其吸收浓度与可比研究报告的浓度相似或更高。我们认为,根际条件,特别是种植基质中溶解有机物的存在,可能是决定PPCPs等外生化合物动员和生物利用度的关键因素之一。
Uptake of human pharmaceuticals and personal care products by cabbage (Brassica campestris) from fortified and biosolids-amended soils.
Human pharmaceuticals and personal care products (PPCPs) are routinely found in biosolids from wastewater treatment plants (WWTPs). Once land applied, the PPCPs in biosolids are potentially available for plant uptake and bioaccumulation. This study used a greenhouse model to investigate uptake of PPCPs commonly detected in biosolids by the agricultural plant Chinese cabbage (Brassica campestris). Two series of greenhouse experiments were conducted as part of this project. In the first set of experiments, four pharmaceuticals were added to an organic matter-rich soil in environmentally relevant concentrations based on typical biosolids application rates, resulting in final soil concentrations of 2.6 ng g(-1) carbamazepine, 3.1 ng g(-1) sulfamethoxazole, 5.4 ng g(-1) salbutamol, and 0.5 ng g(-1) trimethoprim. In the second set of experiments, the cabbage was grown in soil amended with an agronomic rate of biosolids from a local WWTP. The ambient concentration of PPCPs in the biosolids resulted in final soil concentrations of 93.1 ng g(-1) carbamazepine, 67.4 ng g(-1) sulfamethoxazole, 30.3 ng g(-1) salbutamol, 433.7 ng g(-1) triclosan, and 24.7 ng g(-1) trimethoprim. After growing to maturity, the aerials of the plants were separated from roots and the two tissue types were analyzed separately. All four human pharmaceuticals were detected in both tissues in the cabbage grown in the soil fortified with the four pharmaceuticals with median concentrations of 255.4 ng g(-1) aerials and 272.9 ng g(-1) roots carbamazepine; 222.8 ng g(-1) aerials and 260.3 ng g(-1) roots sulfamethoxazole; 108.3 ng g(-1) aerials and 140.6 ng g(-1) roots salbutamol; and 20.6 ng g(-1) aerials and 53.7 ng g(-1) roots trimethoprim. Although all study compounds were present in the biosolids-amended planting soil, only carbamazepine (317.6 ng g(-1) aerials and 416.2 ng g(-1) roots), salbutamol (21.2 ng g(-1) aerials and 187.6 ng g(-1) roots), and triclosan (22.9 ng g(-1) aerials and 1220.1 ng g(-1) roots) were detected in the aerials of the cabbage. In addition to the study compounds detected in the aerials, sulfamethoxazole was detected in the roots of one of the plants in the biosolid-amended soil. In comparison to many previous studies that have utilized PPCP concentration that exceed environmentally relevant concentrations, plants in this study were exposed to environmentally relevant concentrations of the PPCPs, yet resulted in uptake concentrations similar to or greater than those reported in comparable studies. We suggest that rhizosphere conditions, particularly the presence of dissolved organic matter in the planting matrix, might be one of the critical factors determining mobilization and bioavailability of xenobiotic compounds such as PPCPs.