Half-Lives of Pesticides on Greenhouse Crops

Brouwer, D.H.; Haan, M. de; Leenheers, L.H.; Vreede, S.A.F. de; Hemmen, J.J. van

doi:10.1007/s001289900430

Cited by 24 publications

(14 citation statements)

References 10 publications

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“…Dissipation rates also have value when considering the potential risk to non-target and beneficial organisms (e.g., pollinators) that may forage or otherwise come in contact with a pesticide treated plant, as well as informing on how long the chemical is likely to offer satisfactory pest control before it decays [6][7][8]. As a consequence, plant matrix half-lives are often an important input parameter into various risk assessment models [9][10][11][12].In this context, dissipation rate is defined as the rate at which the pesticide active substance disappears from the part of the plant measured due to the combined effects of different processes Preprints (www.preprints.org) | NOT PEER-REVIEWED | Posted: …”

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confidence: 99%

Development of a Data Set of Pesticide Dissipation Rates in/on Various Plant Matrices for the Pesticide Properties Database (PPDB)

Lewis¹,

Tzilivakis²

2017

Preprint

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Data relating to the rate at which pesticide active substances dissipate on or within various plant matrices are important for a range of different risk assessments; however, despite the importance of this data, dissipation rates are not included in the most common online data resources. Databases have been collated in the past, but these tend not to be maintained or regularly updated. The purpose of the exercise described herein was to collate a new database in a format compatible with the main online pesticide database resource (the Pesticide Properties Database, PPDB), to validate this database in line with the Pesticide Properties Database protocols and thus ensure that the data is maintained and updated in future. Data was collated using a systematic review approach using several scientific databases. Collated literature was subjected to a quality assessment, and then data was extracted into an MS Excel spreadsheet. The outcome of the study is a database based on data collated from 1390 published articles covering over 400 pesticides and over 200 crops across a wide variety of different matrices (leaves, fruits, seeds etc.) for pesticide residues on the crop surface, as well as residues absorbed within the plant material. This data is now fully incorporated into the PPDB.Data Set: available as a supplementary file: "Plant dissipation data August 2017.xlxs". Data Set License:This data set was made available under a CC-BY license.Keywords: pesticide dissipation; risk assessment; environmental fate SummaryData relating to the rate at which pesticide active substances dissipate or decay on or within various plant matrices (e.g., leaves, stems, seeds, fruits) are important for a range of different risk assessments. For example, dissipation rates can be used to determine when workers can safely reenter fields and glasshouses following a pesticide application [1], and may also be used to estimate the potential exposure of individuals who may come in contact with, for example, sprayed sports turf or golf greens [2,3]. Dissipation rates also have application in consumer safety. For example, these values are used in calculations for predicting residue concentrations in harvested produce and for determining the time interval needed between crop spraying and harvesting or potential processing/consumption in order to minimise residue concentrations [4,5]. Dissipation rates also have value when considering the potential risk to non-target and beneficial organisms (e.g., pollinators) that may forage or otherwise come in contact with a pesticide treated plant, as well as informing on how long the chemical is likely to offer satisfactory pest control before it decays [6][7][8]. As a consequence, plant matrix half-lives are often an important input parameter into various risk assessment models [9][10][11][12].In this context, dissipation rate is defined as the rate at which the pesticide active substance disappears from the part of the plant measured due to the combined effects of different processes Preprints (www...

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confidence: 99%

Development of a Data Set of Pesticide Dissipation Rates in/on Various Plant Matrices for the Pesticide Properties Database (PPDB)

Lewis¹,

Tzilivakis²

2017

Preprint

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“…Also Omirou reported that the highest residue levels in both treatments were determined in samples taken in the first sampling just after pesticide application as in our case. In another study by Beouwer was reported that the dissipation of pesticide deposit was a complex process depingding on various environmental factors like temperature, relative humidity and UV irradiation), metabolism and translocation (pesticide penetration and plant growth), application technique and pesticide formulation (Brouwer et al 1997;Katagi 2004;McCrady and Maggard 1993). Nd not detectable a n = 3…”

Section: Resultsmentioning

confidence: 99%

Degradation of Propamocarb-hydrochloride in Tomatoes, Potatoes and Cucumber Using HPLC–DAD and QuEChERS Methodology

Abd-Alrahman

Almaz

2012

Bull Environ Contam Toxicol

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“…It was readily debrominated and degraded into 2-methyleneglutaronitrile Sauer et al 1998). Many factors such as the local soil characteristics and climate might affect the dissipation of bromothalonil (Brouwer et al 1997;Katagi 2004). The dissipation of bromothalonil in apple was faster than in soil under field conditions.…”

Section: Resultsmentioning

confidence: 99%

Determination of Bromothalonil Residues and Degradation in Apple and Soil by QuEChERS and GC–MS/MS

Liu

Guo

Wang

et al. 2014

Bull Environ Contam Toxicol

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The dissipation and residues of bromothalonil in apple and soil under field condition were analyzed by QuEChERS (quick, easy, cheap, effective, rugged and safe) combined with gas chromatography-mass spectrometer method. The recoveries were ranged from 80.8 % to 106 % with coefficient variation for repeatability ranged from 3.08 % to 7.09 % at fortification levels of 0.02, 0.04 and 0.2 mg/kg in apple and soil. The limit of quantification of the method was 0.31 lg/kg. The dissipation rates of bromothalonil followed the first-order kinetics and the halflives were from 3.61 to 3.98 days in apple and from 4.65 to 9.29 days in soil. In apple, the terminal residues of bromothalonil were below the China maximum residue limit (0.2 mg/kg) after 7 days of application. This work contributed to provide the basic information for a safe usage of bromothalonil in apple orchard and preventing health problem from consumers in China.

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Half-Lives of Pesticides on Greenhouse Crops

Cited by 24 publications

References 10 publications

Development of a Data Set of Pesticide Dissipation Rates in/on Various Plant Matrices for the Pesticide Properties Database (PPDB)

Development of a Data Set of Pesticide Dissipation Rates in/on Various Plant Matrices for the Pesticide Properties Database (PPDB)

Degradation of Propamocarb-hydrochloride in Tomatoes, Potatoes and Cucumber Using HPLC–DAD and QuEChERS Methodology

Determination of Bromothalonil Residues and Degradation in Apple and Soil by QuEChERS and GC–MS/MS

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