Abstract
Acaricides are applied in agriculture as phytosanitary products against pests and in apiculture to control the bee parasite Varroa destructor. Poor apicultural practices could result in an accumulation of residues in honeybees, in the environment, and in beeswax and other bee products by migration from the wax comb into stored honey through a process of diffusion and consequently constitute a potential risk for humans. In this study, six different types of beeswax samples were analysed for the determination of residues of fluvalinate, coumaphos, and bromopropylate and its metabolite 4,4′-dibromobenzophenone, all of which are the most commonly acaricides used by Spanish beekeepers against V. destructor. The analytic method consists of solid-phase extraction on a SPE Florisil cartridge and high-performance liquid chromatography separation using a photo diode array detector. The results show that fluvalinate residues were detected in 36.3% of samples, ranging from 1.2 to 6.6 μg/g wax. Residues of coumaphos, bromopropylate, and 4,4′-dibromobenzophenone were not found to be greater than their detection limits. This study indicates that the analysis of these compounds in beeswax samples could be used as bioindicators of fluvalinate sanitary treatment and handling practices applied by beekeepers.
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References
Adamczyk S, Lázaro R, Pérez-Arquillué C, Herrera A (2007) Determination of synthetic acaricides residues in beeswax by high-performance liquid chromatography with photodiode array detector. Anal Chim Acta 581:95–101
Balayannis PG (2001) Gas chromatographic determination of coumaphos and tau-fluvalinate residues in royal jelly produced under commercial conditions. J Apic Res 40:71–78
Bogdanov S (2004) Beeswax: quality issues today. Bee World 85:46–50
Bogdanov S (2006) Contaminants of bee products. Apidologie 37:1–18
Bogdanov S, Kilchenmann V (2005) Die Qualitaet des Bienenwachses: Rueckstaende. Swiss Bee Research Centre: 1–6. Available at http://www.alp.admin.ch. Accessed 1 July 2006
Bogdanov S, Kilchenmann V, Imdorf A (1998) Acaricide residues in some bee products. J Apic Res 37:57–67
Chauzat MP, Faucon JP (2007) Pesticides residues in beeswax samples collected from honey-bee colonies (Apis mellifera) in France. Pest Manag Sci 63:1100–1106
Colin ME, Vandame R, Jourdan P, Di Pasquale S (1997) Fluvalinate resistance of Varroa jacobsoni Oudemans (Acari: Varroidae) in the Mediterranean apiaries of France. Apidologie 28:375–384
Collins AM, Pettis JS, Wilbanks R, Feldlaufer MF (2004) Performance of honey bee (Apis mellifera) queens reared in beeswax cells impregnated with coumaphos. J Apicult Res 43:128–134
Coumaphos Summary Report (2001) Committee for veterinary medicinal products. The European Agency for the Evaluation of Medicinal Products. Veterinary Medicines Evaluation Unit. Available at http://www.emea.eu.int. Accessed 5 Aug 2005
European Agency for Evaluation of Medical Products (2000) Status of MRL procedures. MRL assessments in the context of Council Regulation (EEC) No 2377/90 EMEA/CVMP/765/99-Rev.5:1–18
Fries I, Wallner K, Rosenkranz P (1998) Effects on Varroa jacobsoni from acaricides in beeswax. J Apic Res 37:85–90
International Programme on Chemical Safety Chemical Safety Information from Intergovernmental Organizations (1973) International Programme on Chemical Safety, Bromopropylate JMPR. Available at http://www.inchem.org. Accessed 2 Aug 2005
Jimenez JJ, Bernal JL, del Nozal MJ, Martin MT (2005) Residues of organic contaminants in beeswax. Eur J Lipid Sci Technol 107:896–902
Klein E, Weber W, Hurler E, Mayer L (1986) Gaschromatographische Bestimmung von Isopropyl-4,4′Dibrombenzilat (Brompropylat), 4,4′Dibrombenzophenon und verschiedenen Akariziden in Honig und Wabenwachs. Dtsch Lebensmitt Rundsch 82:185–187
Kochansky J, Wilzer K, Feldlaufer M (2001) Comparison of the transfer of coumaphos from beeswax into syrup and honey. Apidologie 32:119–125
Korta E, Bakkali A, Berrueta LA, Gallo B, Vicente F, Bogdanov S (2003) Determination of amitraz and other acaricide residues in beeswax. Anal Chim Acta 475:97–103
Lodesani M, Pellacani A, Bergomi S, Carpana E, Rabitti T, Lasagni P (1992) Residue determination for some products used against Varroa infestation in bees. Apidologie 23:257–272
Lodesani M, Costa C, Serra G, Colombo R, Sabatini AG (2008) Acaricide residues in beeswax after conversion to organic beekeeping methods. Apidologie 39:324–333
Macedo PA, Ellis MD, Siegfried BD (2002) Detection and quantification of fluvalinate resistance in Varroa mites in Nebraska. Am Bee J 142:523–526
Martel AC, Zeggane S, Aurières C, Drajnudel P, Faucon JP, Aubert M (2007) Acaricide residues in honey and wax after treatment of honey bee colonies with Apivar® or Asuntol®. Apidologie 38:534–544
Menkissoglu-Spiroudis U, Tsigouri AD, Diamantidis GC, Thrasyvoulou AT (2001) Residues in honey and beeswax caused by beekeeping treatments. Fresenius Environ Bull 10:445–450
Milani N, Della Vedova G (2002) Decline in the proportion of mites resistant to fluvalinate in a population of Varroa destructor not treated with pyrethroids. Apidologie 33:417–421
Moosbeckhofer R, Wallner K, Pechhacker H, Luh M, Womastek R (1995) Residue level in honey, wax and propolis after ten years of Varroa treatment in Austria. XXXIVth International Apicultural Congress, 15–19 Aug 1995. Apimondia Publishing, Lausanne, Switzerland, pp 193–195
Mozes-Koch R, Slabezki Y, Efrat H, Kalev H, Kamer Y, Yakobson BA et al (2000) First detection in Israel of fluvalinate resistance in the varroa mite using bioassay and biochemical methods. Exp Appl Acarol 24:35–43
Mutinelli F (1999) Rules governing the use of products for Varroa control. Coordination in Europe of integrated control of Varroa mites in honey bee colonies (FAIR CT97-3686), Appendix to Final Technical Report from 98-01-01 to 99-12-31:43–50
Persano L, Pulcini P, Morgia C, Marinelli E, Allegrini F, De Pace F et al (2003) Acaricide residues in wax: Research in Central Italy. Proceeding of XXXVII Congress Apimondia, Ljubljana, Slovenia, pp 1–3
Pettis JS (2004) A scientific note on Varroa destructor resistance to coumaphos in United States. Apidologie 35:91–92
Pettis JS, Collins AM, Wilbanks R, Feldlaufer MF (2004) Effects of coumaphos on queens rearing in honey bee, Apis meffifera. Apidologie 35:605–610
Richtlinien zur Bekaempfung von Bienenkrankheiten (2003) Zentrum fuer Bienenforschung, Eidgenoessische Forschungsanstalt fuer Milchwirtschaft Liebefeld, Ch-3003 Bern. Available at http://www.apis.ch/de/krankheiten. Accessed 13 Mar 2006
Sammataro D, Gerson U, Needham G (2000) Parasitic mites of honey bees: Life history, implication, and impact. Annu Rev Entomol 45:519–548
Tau Fluvalinate Revised Summary Report (1995) Committee for Veterinary Medicinal Products. The European Agency for the Evaluation of Medicinal Products. Veterinary Medicines Evaluation Unit. Available at http://www.emea.eu.int. Accessed 1 Jan 2006
Thompson HM, Brown MA, Ball RF, Medwin HB (2002) First report of Varroa destructor resistance to pyrethroids in the UK. Apidologie 33:357–366
Thrasyvoulou AT, Pappas N (1988) Contamination of honey and wax with malathion and coumaphos used against the Varroa mite. J Apic Res 27:55–61
Tremolada P, Bernardinnelli I, Colombo M, Spreafico M, Vighi M (2004) Coumaphos distribution in the hive ecosystem: case study for modelling applications. Ecotoxicology 13:589–601
Trouiller J (1998) Monitoring Varroa jacobsoni resistance to pyrethroids in WESTERN Europe. Apidologie 29:537–546
Tsigouri A, Menkissoglu-Spiroudis U, Thrasyvoulou A, Diamantidis G (2003) Fluvalinate residues in Greek honey and beeswax. Apiacta 38:50–53
Tsigouri AD, Menkissoglu-Spiroudi U, Thrasyvoulou A, Diamantidis G (2004) Fluvalinate residues in honey and beeswax after different colony treatments. Bull Environ Contam Toxicol 72:975–982
Wallner K (1992) Diffusion varroazider Wirkstoffe aus dem Wachs in den Honig. Apidologie 23:4
Wallner K (1999a) Varroacides and their residues in bee products. Apidologie 30:235–248
Wallner K (1999b) Residues of Varroacides in honey, beeswax and propolis. Coordination in Europe of integrated control of Varroa mites in honey bee colonies (FAIR CT97-3686). Appendix to Final Technical Report from 98-01-01 to 99-12-31:37–42
Wallner K (2001) Die Wirkstoffverteilung im Bienevolk. Schweiz Bienenztg 3:28–31
Zimmermann S, Gierschner KH, Vorwohl G (1993) Bestimmung von Brompropylat, 4,4′-Dibrombenzophenon, Coumaphos und Fluvalinat in Bienenwachs. Dtsch Lebensm Rundsch 89:341–343
Acknowledgments
Thanks are given to Dr. Klaus Wallner and his team (Landesanstalt fuer Bienenkunde, Universitaet Hohenheim, Germany); to Spanish Beekeepers, Government of Aragón (Spain) for its financial support (DGA/Grupo de Investigación Consolidado A01/2008); and to DGA/CONSI+D and CAI.
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Adamczyk, S., Lázaro, R., Pérez-Arquillué, C. et al. Impact of the Use of Fluvalinate on Different Types of Beeswax from Spanish Hives. Arch Environ Contam Toxicol 58, 733–739 (2010). https://doi.org/10.1007/s00244-009-9387-7
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DOI: https://doi.org/10.1007/s00244-009-9387-7