تعیین زمان مناسب سمپاشی با استفاده از تله فرمونی و درجه حرارت موثر روزانه برای کرم سیب Lep.: Tortricidae)) Cydia pomonella در منطقه خان زنیان استان فارس
محورهای موضوعی : گیاه پزشکیسیده نگار دانش نیا 1 , محمود عالیچی 2 , بهرام حیدری 3
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کلید واژه: کرم سیب, spraying time, تله فرمونی, sex pheromone, درجه حرارت موثر روزانه, مبارزه شیمیایی, Cydiapomonella, Degree-days (D.D.),
چکیده مقاله :
کرم سیب (Lep.: Tortricidae) Cydiapomonella یکی از آفات مهم درختان سیب در منطقه شیراز و شهرستان خان زنیان می باشد. جهت تعیین بهترین زمان سمپاشی از طریق شمارش تعداد پروانه نر به دام افتاده و ثبت درجه حرارت موثر روزانه در طی سالهای 90 - 88 در باغهای سیب خان زنیان، تله های فرمونی در ارتفاع 5/1 متری از سطح زمین و به فاصله 85 تا 100 متر از یکدیگر نصب شدند. نتایج به دست آمده با استفاده از نرم افزار Excel تجزیه و تحلیل گردید. براساس نتایج حاصل از این تحقیق دو نسل کامل و یک نسل ناقص برای این آفت در منطقه خان زنیان بدست آمد. همچنین بهترین زمان جهت مبارزه شیمیایی با آفت توام با خروج لاروهای سن اول و تجمع 175 روز درجه (Degree-day) تعیین گردید. مجموع درجه حرارتهای روزانه لازم برای تکمیل یک نسل کرم سیب برای سالهای 88 و 90 به ترتیب 5/766 و 770 روز درجه بدست آمد. بر این اساس میتوان از مصرف بی رویه سموم و آلودگی محیط زیست جلوگیری کرد.
Codling moth, Cydiapomonell, is the key pest of apple orchards at Khanehzenyan, Shiraz, Fars, Iran. To determine the best application time of spraying via counting the number of trapped moths and recording the effective daily temperature during 2009-2011, pheromone traps used at the height of 1.5 m from the ground level with distance between traps of 85-100 m. The data was analyzed using Excel software. According to the results, the number of pest generations and spraying time were determined. The results indicated that C. pomonella had two complete and one partial or incomplete generation at Khanezenyan.The best time for chemical control of C. pomonella was coincidentwith the time of appearance of the first age larva and accumulation of 175 degree-days. The required sums of temperatures for completion of one generation of C. pomonellawere 766.5 and 770 degree-days for the years 2009 and 2011 respectively.Therefore, by this way we can reduce the irregular uses of chemical pesticides and environmental pollutions.
Rajabi, G.R. 1985. Insects Attacking of Rosaceous Fruit Trees in Iran. Iranian Research Institute of Pest and Disease of Plant, Tehran. 209 p. (In persain)
Ahmad, T. R. 1988. Degree-Days requirements for predicting emergence and flight of the codling moth Cydia pomonella (L.). Journal of Applied Entomology, 106 (1-5): 345-349.
Alston, D., Murray, M. & Reding, M. 2010. Codling moth (Cydia pomonella). Utah state University Extension and Utah Plant pest Diagnostic Laboratory. 13: 1-7.
Asadi, GH., Gholami, M. R. & Lakzyan, A. 2009. Study of seasonal population of Cydia pomonella and best time for chemical control in Shiravan. Journal of Agriculture Sciences and Natural Resources, 3: 71-78.
Asadi, GH., Alichi, M., Zebayi, K. & Mosalaei, K. 2001. Use Degree-Days to determined time for chemical control for Cydia pomonella in Sepidan.Journal of Agriculture Sciences and Natural Resources, 98 p.
Hazem, D., Sauphanor, B. & Capowize, Y. 2010. Effect of codling moth exclusion nets on the rosy apple aphid, Dysaphis plantaginer and it control by natural enemies. Journal of Crop Protection, 29: 1502 - 1513.
Hansen, J. D., Wang, S. & Tang, J. 2004. Accumulated lethal time model to evaluated efficacy of heat treatments for codling moth Cydia pomonella in cherries. Journal of Postharvest Biology and Technology, 33: 309 – 317.
Hansen, J. D. & Lewis, L. R. 2003. Field survival of codling moth on artificially infested sweet cherries. Journal of Crop Protection 22: 721- 727.
Hill, R. L & Gouraly, A. H. 2002. Host rang testing, introduction and establishment of Cydia succedana (Lep: Tortricidae) for biological control of gorse, Ulex europaeus in New Zealand. Journal of Academic Press Biological Control, 25: 173 - 186.
Hicher, A., R. Vandevan, D. G. Williams, N. Penfold. 2009. Monitoring codling moth Cydia pomonella (Lep: Tortricidae) in Victorian pomes fruit orchards with pear ester. Journal of General and Applied Entomology, 38: 57- 64.
Judd, G. J. R. & Gradiner, M. G. T. 2005. Towards eradication of codling moth in British Colombia by complimentary actions of mating disruption, tree banding and sterile insect technique. Five year study in organic orchards. Journal of Crop Production, 718 – 723.
Negri, R. M. & Bernik, D. L. 2008. Tracking the sex pheromone of codling moth against a black ground of host volatiles with a electronic nose. Journal of Crop Protection, 27: 1295 – 1302.
Park, S. C. & Foster, S. P. 1998. Comparative sex pheromone – associated behavior of Planotortix notophae (Lep: Tortricidae). Journal of Asia – Pacific Entomology, 1(1): 91 - 98.
Pitcarin, M. J., Zalon, F. G. & Rice, R. E. 1992. Degree-day forecasting of generation of Cydia pomonella population in California. Environmental Entomology, 21: 441 – 446.
Rajabi, G.R., Malmir, A. & Naderian, H., 2006. Comparative study of number of generation, flight span and population density of codling moth in walnut and apple orchards in various altitudes of Iran. Journal of Pest and Disease of Plants, 2: 1-12
Roberts, W. P. & Hgley, C.E. A. 1986. Pest management program for apple series: codling moth. Journal of Ontario Ministry of Agriculture and Food of Canada, 8: 1-9.
Seraj, A. A. 2011. Principles of Plant Pests Control. Shahid Chamran University Press, Ahvaz, 711 p. (In persain)
Simon, S., Defrance, H. & Sauphanor, B. 2007. Effect of codling moth management on orchard arthropods. Journal of Agriculture Ecosystems and Environment, 122: 340 – 348.
Spuler, A. 1930. Codling moth activity in the Wenatchee Valley as shown by trap records. Journal of Economic and Entomology, 23: 803 – 809.
Tyson, R., Thistlewod, H. & Judd, G. J. R. 2007. Modeling dispersal of sterile male codling moths Cydia pomonella, across orchards boundaries. Journal of Ecological Modeling, 205: 1 – 12.
Voudouris, C. C.H., Sauphanor, B., Franck, P., Reyes, M., Mamuris, Z., Tsitsipis, J. A., Vontas, J., & Margaritopoulos. J. T. 2011. Insecticide resistance status of the codling moth Cydia pomonella from Greece. Journal of Pesticide Biochemistry and Physiology, 100: 229 – 238.