Occurrence of pesticide residues in Italian honey from different areas in relation to its potential contamination sources

Agricultural contamination with pesticides is a challenging problem that needs to be fully addressed. Bee products, such as honey, are widely consumed as food and their contamination may carry health hazards. In this study 28 pesticides selected as representative of different contamination sources w...

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Published inFood control Vol. 38; pp. 150 - 156
Main Authors Panseri, S., Catalano, A., Giorgi, A., Arioli, F., Procopio, A., Britti, D., Chiesa, L.M.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.04.2014
Elsevier
Subjects
Apis mellifera
Apoidea
Apple orchard
apples
beehives
beekeepers
Biological and medical sciences
chlorpyrifos
Contamination sources
DDD (pesticide)
DDE (pesticide)
DDT (pesticide)
food contamination
Food industries
Fundamental and applied biological sciences. Psychology
General aspects
health hazards
Honey
honey bees
Hygiene and safety
industrialization
Ion-trap mass spectrometry
Malus
maximum residue limits
monitoring
orchards
organic production
Pesticide residue analysis
pesticide residues
pollution
quinoxyfen
Honey
Apple orchard
Pesticide residue analysis
Contamination sources
Ion-trap mass spectrometry
Fruit
Pesticides
Ions
Contamination
Apple
Orchard
Surveillance
Residue
Mass spectrometry
Online AccessGet full text
ISSN0956-7135
1873-7129
DOI10.1016/j.foodcont.2013.10.024

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Abstract Agricultural contamination with pesticides is a challenging problem that needs to be fully addressed. Bee products, such as honey, are widely consumed as food and their contamination may carry health hazards. In this study 28 pesticides selected as representative of different contamination sources were measured in 72 honey samples using methods based on SPE clean-up and GC–MS/MS detection. Particular emphasis was given to the pesticides utilised in intensive apple orchards in order to elucidate and relate the honey contamination and its potential sources. Residues of many pesticides were found in most of the samples investigated. The majority of honey samples (94%) contained at least one of the pesticides even if their concentrations were found to be lower than its MRL. DDT, DDD and DDE were the compounds isolated with higher frequency in honey samples produced in the industrialised area. Chlorpyrifos and quinoxyfen were the residues frequently detected in samples coming from the apple orchard area. No residues were isolated in honey coming from the mountain area dedicated to organic production. The results of this study show that pesticide contamination of honey is strictly related to the contamination source and could reflect the specific pollution of a given environment, confirming honey bee and beehive matrices as appropriate sentinels for monitoring contamination in the environment. This could represent an effective tool for beekeepers to select production areas especially for organic honey production. •The pesticide contamination of honey is strictly related to the contamination source.•Control of residues in foods is essential to assess human exposure to contaminants through the diet.•Organic honey samples were found with any pesticides residue in relation to their environment.•High frequency of pesticides utilized in apple orchards were observed in honey samples.
AbstractList Agricultural contamination with pesticides is a challenging problem that needs to be fully addressed. Bee products, such as honey, are widely consumed as food and their contamination may carry health hazards. In this study 28 pesticides selected as representative of different contamination sources were measured in 72 honey samples using methods based on SPE clean-up and GC–MS/MS detection. Particular emphasis was given to the pesticides utilised in intensive apple orchards in order to elucidate and relate the honey contamination and its potential sources. Residues of many pesticides were found in most of the samples investigated. The majority of honey samples (94%) contained at least one of the pesticides even if their concentrations were found to be lower than its MRL. DDT, DDD and DDE were the compounds isolated with higher frequency in honey samples produced in the industrialised area. Chlorpyrifos and quinoxyfen were the residues frequently detected in samples coming from the apple orchard area. No residues were isolated in honey coming from the mountain area dedicated to organic production. The results of this study show that pesticide contamination of honey is strictly related to the contamination source and could reflect the specific pollution of a given environment, confirming honey bee and beehive matrices as appropriate sentinels for monitoring contamination in the environment. This could represent an effective tool for beekeepers to select production areas especially for organic honey production. •The pesticide contamination of honey is strictly related to the contamination source.•Control of residues in foods is essential to assess human exposure to contaminants through the diet.•Organic honey samples were found with any pesticides residue in relation to their environment.•High frequency of pesticides utilized in apple orchards were observed in honey samples.
Agricultural contamination with pesticides is a challenging problem that needs to be fully addressed. Bee products, such as honey, are widely consumed as food and their contamination may carry health hazards. In this study 28 pesticides selected as representative of different contamination sources were measured in 72 honey samples using methods based on SPE clean-up and GC-MS/MS detection. Particular emphasis was given to the pesticides utilised in intensive apple orchards in order to elucidate and relate the honey contamination and its potential sources. Residues of many pesticides were found in most of the samples investigated. The majority of honey samples (94%) contained at least one of the pesticides even if their concentrations were found to be lower than its MRL. DDT, DDD and DDE were the compounds isolated with higher frequency in honey samples produced in the industrialised area. Chlorpyrifos and quinoxyfen were the residues frequently detected in samples coming from the apple orchard area. No residues were isolated in honey coming from the mountain area dedicated to organic production. The results of this study show that pesticide contamination of honey is strictly related to the contamination source and could reflect the specific pollution of a given environment, confirming honey bee and beehive matrices as appropriate sentinels for monitoring contamination in the environment. This could represent an effective tool for beekeepers to select production areas especially for organic honey production.
Author Giorgi, A.
Panseri, S.
Chiesa, L.M.
Arioli, F.
Procopio, A.
Britti, D.
Catalano, A.
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  surname: Catalano
  fullname: Catalano, A.
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  givenname: F.
  surname: Arioli
  fullname: Arioli, F.
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  surname: Chiesa
  fullname: Chiesa, L.M.
  email: luca.chiesa@unimi.it
  organization: Department of Veterinary Science and Public Health, University of Milan, Via Celoria 10, 20133 Milan, Italy
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Keywords Honey
Apple orchard
Pesticide residue analysis
Contamination sources
Ion-trap mass spectrometry
Fruit
Pesticides
Ions
Contamination
Apple
Orchard
Surveillance
Residue
Mass spectrometry
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Snippet Agricultural contamination with pesticides is a challenging problem that needs to be fully addressed. Bee products, such as honey, are widely consumed as food...
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SubjectTerms Apis mellifera
Apoidea
Apple orchard
apples
beehives
beekeepers
Biological and medical sciences
chlorpyrifos
Contamination sources
DDD (pesticide)
DDE (pesticide)
DDT (pesticide)
food contamination
Food industries
Fundamental and applied biological sciences. Psychology
General aspects
health hazards
Honey
honey bees
Hygiene and safety
industrialization
Ion-trap mass spectrometry
Malus
maximum residue limits
monitoring
orchards
organic production
Pesticide residue analysis
pesticide residues
pollution
quinoxyfen
Title Occurrence of pesticide residues in Italian honey from different areas in relation to its potential contamination sources
URI https://dx.doi.org/10.1016/j.foodcont.2013.10.024
https://www.proquest.com/docview/1520386227
https://www.proquest.com/docview/2000152287
Volume 38
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