Advanced search
Publication Cover
Human and Ecological Risk Assessment: An International Journal Volume 22, 2016 - Issue 4
Submit an article Journal homepage
7,393
Views
978
CrossRef citations to date
0
Altmetric
Original Articles

An international database for pesticide risk assessments and management

Kathleen A. LewisAgriculture and Environment Research Unit, University of Hertfordshire, Hatfield, UKCorrespondence[email protected]
,
John TzilivakisAgriculture and Environment Research Unit, University of Hertfordshire, Hatfield, UK
,
Douglas J. WarnerAgriculture and Environment Research Unit, University of Hertfordshire, Hatfield, UK
&
Andrew GreenAgriculture and Environment Research Unit, University of Hertfordshire, Hatfield, UK
Pages 1050-1064 | Received 17 Nov 2015, Accepted 15 Dec 2015, Published online: 31 Mar 2016

References

  • Ahouangninou C, Martin T, Edorh P, et al. 2012. Characterization of health and environmental risks of pesticide use in market-gardening in the rural city of Tori-Bossito in Benin, West Africa. J Environ Prot 3(3):241–8
  • Barrett MR. 1999. Updated Documentation on the SCI-GROW Method to Determine Screening Concentration Estimates for Drinking Water Derived from Ground Water Sources. Memorandum From: MR Barrett, To: J Merenda. Environmental Fate and Effects Division, Office of Pesticide Programs, US Environmental Protection Agency, Arlington, VA, USA
  • Bichel S. 1998. Main report from the committee to assess the overall consequences of phasing out the use of pesticides [Udvalget til vurdering af de samlede konsekvenser af en afvikling of pesticid andvendelsen]. Miljøstyrelsen, Copenhagen, Denmark
  • Brown CD, Hart A, Lewis KA, et al. 2003. p-EMA (I): Simulating the environmental fate of pesticides for a farm-level risk assessment system. Agronomie 23:67–74
  • Calliera M, Balderacchi M, Capri E, et al. 2008. Prediction of agrochemical residue data on fruit using an informatic system (PARDIS model). Pest Manag Sci 64(10):981–8
  • Caracciolo BA, Donato GD, Finizio A, et al. 2013. A new online database on chemicals in accordance with REACH regulation. Hum Ecol Risk Assess 19(6):1682–99
  • Carbo L, Souza V, Dores EFGC, et al. 2008. Determination of pesticides multi-residues in shallow groundwater in a cotton-growing region of Mato Grosso. Brazil. J Brazil Chem Soc 19(6):1111–7
  • Carrasco-Letelier L, Mendoza-Spina Y, and Branchiccela MB. 2012. Acute contact toxicity test of insecticides (Cipermetrina 25, Lorsban 48E, Thionex 35) on honeybees in the southwestern zone of Uruguay. Chemosphere 88(4):439–44
  • Carsel RF, Mulkey LA, Lorber MN, et al. 1985. The pesticide root zone model (PRZM): A procedure for evaluating pesticide leaching threats to groundwater. EcolMode 30(1):49–69
  • Cooper J and Dobson H. 2007. The benefits of pesticides to mankind and the environment. Crop Prot 26(9):1337–48
  • Dann RL, Close ME, Lee R, et al. 2006. Impact of data quality and model complexity on prediction of pesticide leaching. J Environ Qual 35(2):628–40
  • Di Guardo A and Finizio A. 2015. A client–server software for the identification of groundwater vulnerability to pesticides at regional level. Sci Total Environ 530:247–56
  • EC. 2002. Consolidated list of CMR-substances: Classified as category I or 2 carcinogens, Mutagens or Toxic to Reproduction. Relating to points 29, 30 and 31 of Annex Ib of Directive 76/769/EEC. European Union
  • EFSA. 2013. Guidance on the risk assessment of plant protection products on bees (Apis mellifera, Bombus spp. and solitary bees). EFSA J 11(7):3295–3569
  • EFSA. 2014. Guidance on the assessment of exposure of operators, workers, residents and bystanders in risk assessment for plant protection products. EFSA J 12(10):3874–3929
  • Elsaesser D and Schulz R. 2010. The ArtWET Tool: A georeferenced approach assessing runoff-related pesticide pollution in surface waters across Europe. In: Applied Geoinformatics for Society and Environment, 3rd International Summer School and Conference Proceedings, 109:69–74
  • Evans RM, Scholze M, and Kortenkamp A. 2015. Examining the feasibility of mixture risk assessment: A case study using a tiered approach with data of 67 pesticides from the Joint FAO/WHO Meeting on Pesticide Residues (JMPR). Food Chem Toxicol 84:260–9
  • Fantke P, Friedrich R, and Jolliet O. 2012. Health impact and damage cost assessment of pesticides in Europe. Environ Int 49:9–17
  • Feola G, Rahn E, and Binder CR. 2011. Suitability of pesticide risk indicators for less developed countries: A comparison. Agr Ecosyst Environ 142(3):238–45
  • Frazier MT, Mullin CA, Frazier JL, et al. 2015. Assessing honey bee (Hymenoptera: Apidae) foraging populations and the potential impact of pesticides on eight US crops. J Econ Entomol 108(5): 2141–52
  • Gardner J, Nehring R, and Nelson C. 2009. Genetically modified crops and household labor savings in US crop production. AgBioForum 12:303–12
  • Goss D and Wauchope RD. 1990. The SCR/ARS/CES pesticide properties database. II using it with soils data in a screening procedure. In: Weigmann DL (ed), Pesticides in the Next Decade: The Challenge Ahead, pp 471–93, Virginia Resources Research Centre, Blacksburg, VA, USA
  • Gustafson DI. 1989. Groundwater ubiquity score: A simple method for assessing pesticide leachability. Environ Toxicol Chem 8:339–57
  • Gustavo, RB Miranda, Raetano CG, et al. 2011. Environmental fate of neonicotinoids and classification of their potential risks to hypogean, epygean, and surface water ecosystems in Brazil. Hum Ecol Risk Assess 17(4):981–95
  • Hart A, Brown CD, Lewis KA, et al. 2003. p-EMA (II): Evaluating ecological risks of pesticides for a farm-level risk assessment system. Agronomie 23:75–84
  • Heidorn CJA, Hansen BG, and Nøranger O. 1996. IUCLID: A database on chemical substances information as a tool for the EU-risk assessment programme. J Chem Inf Comput Sci 36:949–54
  • The Hindu. 2015. J&K to set up pesticides regulatory authority. Srinagar, May 9th. Available at: http://www.thehindu.com/todays-paper/tp-national/tp-otherstates/jk-to-set-up-pesticides-regulatory-authority/article7186581.ece
  • IARC (International Agency for Research on Cancer). 2015. IARC Monographs on the Evaluation of Carcinogen Risks to Humans. Available at http://monographs.iarc.fr/ENG/Classification/index.php
  • ICPS (International Centre for Pesticides and Health Risk Prevention). 2015. The ASTERisk tool. Available at http://www.icps.it/ixps/AuthFiles/login.asp
  • Jarvis N and Larsbo M. 2012. MACRO (v5. 2): Model use, calibration, and validation. T ASABE 55(4):1413–23
  • Keita-Ouane F, Durkee L, Clevenstine E, et al. 2001. The IOMC organisations: A source of chemical safety information. Toxicology 157(1):111–9
  • Köck-Schulmeyer M, Ginebreda A, Postigo C, et al. 2014. Four-year advanced monitoring program of polar pesticides in groundwater of Catalonia (NE-Spain). Sci Total Environ 470–471:1087–98
  • La N, Lamers M, Bannwarth M, et al. 2014. Imidacloprid concentrations in paddy rice fields in northern Vietnam: Measurement and probabilistic modeling. Paddy Wat Environ 13(2):191–203
  • Laney D. 2001. 3D Data Management: Controlling Data Volume, Velocity, and Variety. File: 949. META Group Inc., Stamford, CT, USA
  • Larsbo M, Löfstrand E, de Veer DVA, et al. 2013. Pesticide leaching from two Swedish topsoils of contrasting texture amended with biochar. J Contam Hydrol 147:73–81
  • Larsbo M, Roulier S, Stenemo F, et al. (2005). An improved dual-permeability model of water flow and solute transport in the vadose zone. Vadose Zone J 4(2):398–406
  • Lazartigues A, Thomas M, Cren-Olivé C, et al. 2013. Pesticide pressure and fish farming in barrage pond in Northeastern France. Part II: Residues of 13 pesticides in water, sediments, edible fish and their relationships. Environ Sci Poll Res Int 20(1):117–25
  • Leach AW and Mumford JD. 2011. Pesticide environmental accounting: A decision-making tool estimating external costs of pesticides. J Verbraucherschutz Lebensmittelsicherheit 6(1):21–6
  • Leonard RA, Knisel WG, and Still DA. 1987. GLEAMS: Groundwater loading effects of agricultural management systems. Trans Amer Soc Agri Engrs 30(5):1403–28
  • Lewis KA and Bardon KS. 1998. A computer based informal environmental management system for agriculture. J Environ Mode Soft 13:123–37
  • Lewis KA, Brown CD, Hart A, et al. 2003. p-EMA (III): Overview and application of a software system designed to assess the environmental risk of agricultural pesticides. Agronomie 23:85–96
  • Malherbe W, Van Vuren JHJ, and Wepener V. 2013. Preliminary risk assessment of common-use pesticides using PRIMET and PERPEST pesticide risk models in a semi-arid subtropical region. Water SA 39(5):599–610
  • Meek ME, Boobis AR, Crofton KM, et al. 2011. Risk assessment of combined exposure to multiple chemicals: A WHO/IPCS framework. Reg Toxicol Pharm 60(2, Suppl. 1):S1–S4
  • Milhome MAL, Sousa PLR, Lima FAF, et al. 2015. Influence the use of pesticides in the quality of surface and groundwater located in irrigated areas of Jaguaribe, Ceara, Brazil. Int J Environ Res 9(1):255–62
  • Miljøstyrelsen. 2012. The Agricultural Pesticide Load in Denmark 2007–2010. Environmental review no. 2, Miljøstyrelsen, Copenhagen, Denmark
  • Mostafalou S and Abdollahi M. 2013. Pesticides and human chronic diseases: Evidences, mechanisms, and perspectives. Toxicol Appl Pharm 268(2):157–77
  • Nogueira EN, Dores EFGC, Pinto AA, et al. 2012. Currently used pesticides in water matrices in Central-Western Brazil. J Brazil Chem Soc 23(8):1476–87
  • Nowell LH, Norman JE, Moran PW, et al. 2014. Pesticide toxicity index—A tool for assessing potential toxicity of pesticide mixtures to freshwater aquatic organisms. Sci Total Environ 476:144–57
  • Oerke WC. 2006. Crop losses to pests. J Agr Sci 144(01):31–43
  • Oliveira FA, Reis LP, Soto-Blanco B, et al. 2015. Pesticides residues in the Prochilodus costatus (Valenciennes, 1850) fish caught in the São Francisco River, Brazil. J Environ Sci Health Part B 50(6):398–405
  • Patlewicz G, Jeliazkova N, Safford RJ, et al. 2008. An evaluation of the implementation of the Cramer classification scheme in the Toxtree software. SAR QSAR Environ Res 19(5–6):495–524
  • Petersen K, Stenrød M, and Tollefsen K. 2013. Initial environmental risk assessment of combined effects of plant protection products in six different areas in Norway. NIVA-rapport, 6588, Norsk institutt for vannforskning, Oslo, Norway
  • Reilly TJ, Smalling KL, Orlando JL, et al. 2012. Occurrence of boscalid and other selected fungicides in surface water and groundwater in three targeted use areas in the United States. Chemosphere 89(3): 228–34
  • Rigotto RM, Vasconcelos DP, and Rocha MM. 2014. Pesticide use in Brazil and problems for public health. Cad Saude Publica 30(7):1360–62
  • Skinner JA, Lewis KA, Bardon KS, et al. 1997. An overview of the environmental impacts of agriculture in the UK. J Environ Manag 50:111–28
  • Steffens K, Jarvis N, Lewan E, et al. 2015. Direct and indirect effects of climate change on herbicide leaching—A regional scale assessment in Sweden. Sci Total Environ 514:239–49
  • Tilman D. 1999. Global environmental impacts of agricultural expansion: The need for sustainable and efficient practices. Proc Nat Acad Sci 96(11):5995–6000
  • Tuell JK and Isaacs R. 2010. Community and species-specific responses of wild bees to insect pest control programs applied to a pollinator-dependent crop. J Econ Entomol 103(3):668–75
  • UNEP. 2012. Global Chemicals Outlook: Towards sound management of chemicals, Trends and changes. United Nations Environment Programme, Nairobi, Kenya
  • USEPA. 1992. Framework for ecological risk assessments. EPA/630/R-92/001. Risk Assessment Forum, Washington DC, USA
  • USEPA. 1996. ECOTOX database programme version 1. Mid-Continent Ecology Division, Duluth, MN, USA. Available at: http://cfpub.epa.gov/ecotox/
  • Van der Werf HM, Tzilivakis J, Lewis K, et al. 2007. Environmental impacts of farm scenarios according to five assessment methods. Agr Ecosyst Environ 118(1):327–38
  • Van Hemmen JJ. 2001. EUROPOEM, a predictive occupational exposure database for registration purposes of pesticides. Appl Occup Environ Hyg 16(2):246–50
  • Zhan Y and Zhang M. 2014. Spatial and temporal patterns of pesticide use on California almonds and associated risks to the surrounding environment. Sci Total Environ 472:517–29

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.