Effects of Thiamethoxam on Vespula Germanica (F.) (Hymenoptera: Vespidae)

Yıl 2017, Cilt: 1 Sayı: 1, 49 - 55, 20.12.2017

Ahmed Karahan Fatma Nur Şahpaz Mehmet Ali Kutlu İsmail Karaca

https://doi.org/10.31015/jaefs.17006

Cited By: 1

Öz

Damage of pesticides used in agriculture on non-target organisms (except honey bees) is not sufficiently considered and neglected. Studies showed that wild bees, like honey bees, were also affected by pesticides. Wild bee species should also be protected because of their importance in pollination and biological control and also in order to protect biodiversity. Effects of pesticides on wild bees should be investigated without delay and precautions should be taken to protect the generations of wildlife. In addition, while increasing the agricultural areas,  habitat for wild pollinators should be established.

In this study, effect of Thiamethoxam, an agriculturally active agent in the neonicotinoid group, commonly used in agriculture fields, on the European wasp (Vespula germanica) was investigated. For this purpose, 2 molar carnation-flavored syrup in a petri dish was placed in a field where wild bees are frequent, and wild bees had got accustomed there. Trial doses were prepared with thiamethoxam dose commonly used in agricultural areas (15 ml/100 L water) and 50% dilutions of this dose (15.00, 7.50, 3.75, 1.87, 0.93, 0.46, 0.23, 0.12, 0.06 ml/100 L water) and fed in 2 molar syrup. Those who returned to the carnation petri dish after feeding were recorded at the 1st, 4th and 24th hours.

At the end of the study, bees fed with 15.00, 7.50, and 3.75 ml / 100 L doses of the pesticide all died. One hour after pesticide ingestion, 84.73% of the control group and 13.33% of the bees fed with 1.87 ml / 100L dose, were alive and returned to the syrup petri dish. 

Anahtar Kelimeler

Pesticide, Neonicotinoids, Thiamethoxam, Vespula germanica

Kaynakça

• Biesmeijer, J. C., Roberts, S. P., Reemer, M., Ohlemüller, R., Edwards, M., Peeters, T., Settele, J. (2006). Parallel declines in pollinators and insect-pollinated plants in Britain and the Netherlands. Science, 313(5785), 351-354.
• Oliver, T. H., Isaac, N. J., August, T. A., Woodcock, B. A., Roy, D. B., Bullock, J. M. (2015). Declining resilience of ecosystem functions under biodiversity loss. Nature communications, 6, 10122.
• Sanchez-Bayo, F. Goka, K. (2014). Pesticide residues and bees–a risk assessment. PLoS One 9, e94482 .
• Chicas-Mosier, A. M., Cooper, B. A., Melendez, A. M., Pérez, M., Abramson, C. I. (2017). The effects of ingested aqueous aluminum on floral fidelity and foraging strategy in honey bees (Apis mellifera). Ecotoxicology and Environmental Safety, 143, 80-86.
• Goulson D, Nicholls E, Botías C, Rotheray E. L. 2015 Bee declines driven by combined stress from parasites, pesticides, and lack of flowers. Science 347, 1255957. (doi:10.1126/science.1255957)
• Garibaldi L. A, Steffan-Dewenter I, Winfree R, Aizen MA, Bommarco R, Cunningham SA, et al. (2013) Wild Pollinators Enhance Fruit Set of Crops Regardless of Honey Bee Abundance. Science 339: 1608–1611. pmid:23449997
• Potts, S.G, Biesmeijer J. C, Kremen C, Neumann P, Schweiger O, Kunin W.E., (2010) Global pollinator declines: trends, impacts and drivers. Trends Ecol Evol 25:345–353
• Blitzer E, Dormann CF, Holzschuh A, Klein AM, Rand TA, Tscharntke T (2012) Spillover of functionally important organisms between managed and natural habitats. Agric Ecosyst Environ 146:34–43
• Huff Hartz, K.E., Edwards, T.M. Lydy, M.J. Ecotoxicology (2017) Fate and transport of furrow-applied granular tefluthrin and seed-coated clothianidin insecticides: Comparison of field-scale observations and model estimates. 26: 876. https://doi.org/10.1007/s10646-017-1818-z Ecotoxicology September 2017, Volume 26, Issue 7, pp 876–888
• Yıldırım, E. (2012a). Tarımsal Zararlılarla Mücadele Yöntemleri ve İlaçlar. 3. Baskı. Atatürk Üniversitesi Ziraat Fakültesi Yayınları No, 219, 330s. Erzurum.
• Jeschke P, Nauen R, Schindler M, Elbert A. 2011 Overview of the status and global strategy for neonicotinoids. J. Agric. Food Chem. 59, 2897–2908.
• Gajger, I.T., Sakač, M. Gregorc, A. (2017) Impact of Thiamethoxam on Honey Bee Queen (Apis mellifera carnica) Reproductive Morphology and Physiology. 99: 297. https://doi.org/10.1007/s00128-017-2144-0 Bulletin of Environmental Contamination and Toxicology September 2017, Volume 99, Issue 3, pp 297–302
• Mogren, C.L., Lundgren, G.J., (2016). Neonicotinoid-contaminated pollinator strips adjacent to cropland reduce honey bee nutritional status. Scientific Reports 6, Article number: 29608 (2016) doi:10.1038/srep29608
• Alkassab, A.T. Kirchner, W.H. J Plant Dis Prot (2017) Sublethal exposure to neonicotinoids and related side effects on insect pollinators: honeybees, bumblebees, and solitary bees. 124: 1. https://doi.org/10.1007/s41348-016-0041-0 Journal of Plant Diseases and Protection. February 2017, Volume 124, Issue 1, pp 1–30
• Pilling, E. Campbell P, Coulson, M, Ruddle N, Tornier, I. (2013) A Four-Year Field Program Investigating Long-Term Effects of Repeated Exposure of Honey Bee Colonies to Flowering Crops Treated with Thiamethoxam. PLoS ONE 8(10): e77193. https://doi.org/10.1371/journal.pone.0077193
• Henry, M., Cerrutti, N., Aupinel, P., Decourtye, A., Gayrard, M., Odoux, J. F., Bretagnolle, V. (2015, November). Reconciling laboratory and field assessments of neonicotinoid toxicity to honeybees. In Proc. R. Soc. B (Vol. 282, No. 1819, p. 20152110). The Royal Society.
• Wood, T.J. Goulson, D. Environ Sci Pollut Res (2017). The environmental risks of neonicotinoid pesticides: a review of the evidence post 2013.24: 17285. https://doi.org/10.1007/s11356-017-9240-x. July 2017, Volume 24, Issue 21, pp
• Brandt A, Gorenflo A, Siede R, Meixner M, Büchler R (2016) The neonicotinoids thiacloprid, imidacloprid, and clothianidin affect the immunocompetence of honey bees (Apis mellifera L.). J Insect Physiol 86:40–47
• Arena M, Sgolastra F (2014) A meta-analysis comparing the sensitivity of bees to pesticides. Ecotoxicology 23:324–334
• Tooming, E., Merivee, E., Must, A. (2017) Behavioural effects of the neonicotinoid insecticide thiamethoxam on the predatory insect Platynus assimilis. 26: 902. https://doi.org/10.1007/s10646-017-1820-5 Ecotoxicology September 2017, Volume 26, Issue 7, pp 902–913
• Anlaş, S , Tezcan, S , Yıldırım, E . (2009). An Evaluation on Hymenoptera (Insecta) Fauna Collected by Pitfall Traps at Bozdağ Mountains of Western Turkey. Yüzüncü Yıl Üniversitesi Tarım Bilimleri Dergisi, 19 (1), 23-32. Retrieved from http://dergipark.gov.tr/yyutbd/issue/21985/236060
• Tüzün, A., Kekillioğlu, A., 2003.Ankara Vespidae (Insecta:Hymenoptera) Türleri Türleri Üzerine Sistematik, Faunistik Çalışmalar ve Ekolojik Gözlemle, Fen-Edebiyat Fakültesi, Fen Dergisi, Sayı: 22, S.97-105.
• Karahan, A., Karaca, İ. (2016). Adana ve Konya İllerindeki Arıcılık Faliyetleri ve Koloni Kayıpları. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 20(2). Retrieved from http://dergipark.gov.tr/sdufenbed/issue/23916/254877
• Seeley T. D., (1995) The wisdom of the hive: the social physiology of honey bee colonies. Harvard University Press, Cambridge.
• Rundlöf, M, Andersson GKS, Bommarco R et al (2015) Seed coating with a neonicotinoid insecticide negatively affects wild bees. Nature. doi:10.1038/nature14420
• Mitchell, E. A. D., Mulhauser, B., Mulot, M., Mutabazi, A., Glauser, G., & Aebi, A. (2017). A worldwide survey of neonicotinoids in honey. Science, 358(6359), 109-111.
• Botías C, David A, Hill E, Goulson, D (2016) Contamination of wild plants near neonicotinoid seed-treated crops, and implications for non-target insects. Sci Total Environ 566-567:269–278
• Goulson D, Nicholls E, Botías C, Rotheray EL. 2015 Bee declines driven by combined stress from parasites, pesticides, and lack of flowers. Science 347, 1255957.
• Memmott, J., Waser, N. M. (2002). Integration of alien plants into a native flower–pollinator visitation web. Proceedings of the Royal Society of London B: Biological Sciences, 269(1508), 2395-2399.
• Jacobs, J. H., Clark, S. J., Denholm, I., Goulson, D., Stoate, C., Osborne, J. L. (2010). Pollinator effectiveness and fruit set in common ivy, Hedera helix (Araliaceae). Arthropod-Plant Interactions, 4(1), 19-28.
• Yildirim, E., Gusenleitner, J. (2001). The present situation of the Vespidae-fauna (Hymenoptera, Aculeata) of Turkey.
• Tezcan, S., Karsavuran, Y., Pehlivan, E., Anlaş, S., Yildirim, E. (2005). Contribution To The Knowledge Of Vespidae (Hymenoptera: Aculeata) Fauna Of Turkey. Turkish Journal Of Entomology, 29(2)
• Japoshvili, G., Karaca, İ. (2010). List of Vespidae, Scoliidae and Tiphiidae (Hymenoptera) of Gölcük Natural Park in Isparta Province, Turkey. SDÜ Fen Dergisi, 5(2).
• Yildirim, E. (2012b). The distribution and biogeography of Vespidae (Hymenoptera: Aculeata) in Turkey. Turkish Journal of Entomology, 36(1).