Insight into the distribution of pharmaceuticals in soil-water-plant systems

Li, Yuanbo; Sallach, J. Brett; Zhang, Wei; Boyd, Stephen A.; Li, Hui

doi:10.1016/j.watres.2018.12.039

Cited by 160 publications

(82 citation statements)

References 67 publications

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“…For the soil-plant RCF (water) data from laboratory or field studies, only the data for samples with > 7 days (up to 93 days) of exposure were selected, with most data (~85%) having exposure times of 39–70 days. In either case, no RCF (water) data of ionic and ionizable chemicals were selected since their uptakes by plants may involve more than a partition process (Tanoue et al, 2012; Wu et al, 2013; Li et al, 2019). When adopting the soil-plant data from literature, only the studies with reported soil f om and accessible plant f lip values were selected.…”

Section: Sources Of Literature Datamentioning

confidence: 99%

Improved prediction of the bioconcentration factors of organic contaminants from soils into plant/crop roots by related physicochemical parameters

Chiou

et al. 2019

Environment International

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There has been an on-going pursuit for relations between the levels of chemicals in plants/crops and the source levels in soil or water in order to address impacts of toxic substances on human health and ecological quality. In this research, we applied the quasi-equilibrium partition model to analyze the relations for nonionic organic contaminants between plant/crop roots and external soil/water media. The model relates the in-situ root concentration factors of chemicals from external water into plant/crop roots (RCF(water)) with the system physicochemical parameters and the chemical quasi-equilibrium states with plant/crop roots (αpt, ≤1). With known RCF(water) values, root lipid contents (flip), and octanol-water Kow’s, the chemical-plant αpt values and their ranges of variation at given flipKow could be calculated. Because of the inherent relation between αpt and flipKow, a highly distinct correlation emerges between log RCF(water) and log flipKow (R2 = 0.825; n = 368), with the supporting data drawn from 19 disparate soil-plant studies covering some 6 orders of magnitude in flipKow and 4 orders of magnitude in RCF(water). This correlation performs far better than any relationship previously developed for predicting the contamination levels of pesticides and toxic organic chemicals in plant/crop roots for assessing risks on food safety.

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Section: Sources Of Literature Datamentioning

confidence: 99%

Improved prediction of the bioconcentration factors of organic contaminants from soils into plant/crop roots by related physicochemical parameters

Chiou

et al. 2019

Environment International

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“…The environment can also be polluted by veterinary pharmaceuticals from animal urine or farm waste (e.g., Charuaud et al, 2019). Pharmaceuticals that contaminate soils may subsequently leach to groundwater (e.g., Burri et al, 2019;Godfrey et al, 2007;Fram and Belitz, 2011;Lesser et al, 2018;Li, 2014;Loos et al, 2010) or can be taken up by plants (e.g., Ahmed et al, 2015;Al-Farsi et al, 2017;Christou et al, 2019;Goldstein et al, 2014;Klement et al, 2020;Kodešová et al, 2019aKodešová et al, , 2019bLi et al, 2018Li et al, , 2019aLi et al, , 2019bMalchi et al, 2014;Montemurro et al, 2017;Mordechay et al, 2018;Shenker et al, 2011;Winker et al, 2010;Wu et al, 2013). Further propagation of pharmaceuticals in the environment depends on their sorption and dissipation in the vadose zone (e.g., Carter et al, 2019;Kümmerer, 2009aKümmerer, , 2009bZhi et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

How microbial community composition, sorption and simultaneous application of six pharmaceuticals affect their dissipation in soils

Kodešová

Chroňáková

Grabicová

et al. 2020

Science of The Total Environment

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Soils groups according to basic soils properties and sorption of compounds matched. • Soils groups according to microbial community structure and half-lives corresponded. • Half-lives could be predicted using one microbial criterion and sorption coefficient. • Simultaneous application of all compounds mostly reduced their dissipation in soils. • The average increase in multiple-solute half-lives varied between 7 and 39%.

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“…This work was expanded by Li, Sallach, Zhang, Boyd, and Li (2019) who evaluated the additional complexity of soil in the radish production system. This study showed that bioconcentration in lettuce plant material was positively correlated with soil–water partitioning ( D ow ) for neutral compounds.…”

Section: Antibiotics In Agroecosystemsmentioning

confidence: 99%

Detection, occurrence, and fate of emerging contaminants in agricultural environments (2020)

Snow

Cassada

Biswas

et al. 2020

Water Environment Research

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A review of 79 papers published in 2019 is presented. The topics ranged from detailed descriptions of analytical methods, to fate and occurrence studies, to ecological effects and sampling techniques for a wide variety of emerging contaminants likely to occur in agricultural environments. New methods and studies on veterinary pharmaceuticals, antibiotics, anthelmintics, and engineered nanomaterials in agricultural environments continue to expand our knowledge base on the occurrence and potential impacts of these compounds. This review is divided into the following sections: Introduction, Analytical Methods, Antibiotics in Agroecosystems, Pharmaceutical Fate and Occurrence, Anthelmintics and Engineered Nanomaterials.

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Insight into the distribution of pharmaceuticals in soil-water-plant systems

Cited by 160 publications

References 67 publications

Improved prediction of the bioconcentration factors of organic contaminants from soils into plant/crop roots by related physicochemical parameters

Improved prediction of the bioconcentration factors of organic contaminants from soils into plant/crop roots by related physicochemical parameters

How microbial community composition, sorption and simultaneous application of six pharmaceuticals affect their dissipation in soils

Detection, occurrence, and fate of emerging contaminants in agricultural environments (2020)

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