مطالعه‌ جمعیت بالتوری سبز، Chrysoperla carnea و آفات طعمه آن در دو الگوی مختلف کنترل شیمیایی (مطالعه‌ موردی: باغ‌های سیب و مزارع گوجه‌فرنگی قوچان)

نوع مقاله : مقاله پژوهشی

نویسندگان

1 گروه گیاه;پزشکی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، ایران

2 دانشیار حشره;شناسی کشاورزی، گروه گیاه;پزشکی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، ایران

3 بخش تحقیقات رده بندی حشرات، موسسه تحقیقات گیاه‌پزشکی کشور

4 استادیار حشره; شناسی کشاورزی، گروه گیاه;پزشکی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، ایران

چکیده

طی یک پژوهش سه‌ساله در شهرستان قوچان (شمال شرق ایران)، تراکم و پراکنش فضایی جمعیت بالتوری سبز (Chrysoperla carnea) و آفات طعمه آن در باغ­های سیب و مزارع گوجه‌فرنگی (به‌ترتیب شته‌ها و Thrips tabaci، Helicoverpa armigera)، تحت دو الگوی مدیریت حفاظتی و شیمیایی مرسوم، مطالعه شد. الگوی مدیریت شیمیایی، تاثیر معنی‌داری روی انبوهی جمعیت بالتوری سبز داشت به‌طوری‌که در هر دو محصول، بیش‌ترین انبوهی بالتوری سبز (به­ترتیب 178/0 بالتوری/ برگ سیب و 546/0 بالتوری/ بوته‌ گوجه‌فرنگی) به الگوی حفاظتی و کم‌ترین انبوهی آن (به­ترتیب 0245/0 بالتوری/ برگ سیب و 252/0 بالتوری/ بوته گوجه‌فرنگی) به الگوی مرسوم تعلق داشت. نوع مدیریت شیمیایی در باغ­های سیب پراکنش فضایی جمعیت بالتوری سبز را نیز تغییر داد، به طوری که پراکنش فضایی تخم‌ها و لاروهای این شکارگر در باغ‌های با مدیریت حفاظتی از نوع تصادفی (به­ترتیب با ضرایب تیلور 12/1 و 17/1) و در باغ‌های با سمپاشی مرسوم از نوع تجمعی (به­ترتیب با ضرایب تیلور 42/1 و 29/1) محاسبه شد. در مقابل، در مزارع گوجه‌فرنگی، پراکنش فضایی جمعیت بالتوری سبز در هر دو الگوی مرسوم و حفاظتی از نوع تجمعی بود. در باغ‌های سیب، افزایش جمعیت بالتوری سبز پس از اجرای سمپاشی حفاظتی نتوانست مانع از افزایش جمعیت شته‌ها شود و میانگین جمعیت آنها در الگوی حفاظتی به طور معنی‌داری از الگوی مرسوم بیش‌تر بود؛ اما در مزارع گوجه‌فرنگی، انبوهی جمعیت تریپس پیاز و کرم میوه‌خوار در الگوهای حفاظتی و مرسوم اختلاف زیادی نداشتند. بنابراین، در مزارع گوجه‌فرنگی، جایگزینی الگوی سمپاشی حفاظتی با سمپاشی مرسوم توصیه می‌شود، اما در باغ‌های سیب، الگوی حفاظتی باید در کنار روش‌های مکمل دیگر استفاده شود.

کلیدواژه‌ها

عنوان مقاله [English]

Population of common green lacewing, Chrysoperla carnea and its prey pests under two different patterns of chemical control (Case study: Apple orchards and tomato fields of Quchan)

نویسندگان [English]

  • Zakkiye Karimi Yazdanabad 1
  • Ali Afhsari 2
  • Abolfazl Hajiesmaeilian 3
  • Ahmad Nadimi 4
1 Department of Plant Protection, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran
2 Associate Professor of Entomology, Department of Plant Protection, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran
3 Insect Taxonomy Research Department, Iranian Research Institute of Plant Protection, Tehran, Iran
4 Assistant Professor of Entomology, Department of Plant Protection, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran
چکیده [English]

In a three-year study, the population density and spatial dispersion of the common green lacewing, Chrysoperla carnea and its prey pests (Aphids, Thrips tabaci and Helicoverpa armigera) was investigated in apple orchards and tomato fields under two different conservational and conventional chemical managements, in Quchan, northeastern Iran. The chemical management pattern had a significant effect on the population density of the green lacewing, so that the highest density was observed in conservational pattern in both apple orchards and tomato fields (0.178 and 0.546 individuals/leaf or plant, respectively). The pattern of chemical management in apple orchards also changed the spatial dispersion of the green lacewing, so that its eggs and larvae population had random dispersion in conservational (with Taylor’s coefficients of 1.12 and 1.17, respectively) and aggregated dispersion in conventional (with Taylor’s coefficients of 1.42 and 1.29, respectively) orchards. While, the spatial dispersion of this predator was aggregated in both conventional and conservational patterns in tomato fields. In apple orchards, the increase in the green lacewing population after the implementation of conservational spraying could not prevent the increase in aphids’ population, so that their population increased significantly compared to the conventional pattern. In contrast, population density of the T. tabaci and H. armigera in tomato fields did not have much difference in conservational and conventional chemical patterns. Therefore, in tomato fields, it is recommended to replace the conservational spraying pattern with conventional spraying, but the conservational pattern should be used along with other complementary methods in apple orchards.

کلیدواژه‌ها [English]

  • Conservation
  • ؛ Natural enemy
  • ؛ Pesticide

مراجع

Abedi, M. and Ahmadvand, R. 2019. Introduction to tomato pests and diseases. Ministry of Jihd -e-Agriculture, Agricultural Research, Education and Extension Organization. pp 95 (In Farsi).
Agriculture Organization of Khorasan Razavi, 2020. Data and Information. Retrieved September 20, 2021. From: https://www.koaj.ir/modules/showframework.aspx?RelFacilityId=1241&ObjectID=426& FrameworkPageType SEC.
Arbab, A., Kontodimas, D. C. and Sahragard, A. 2006. Estimating development of Aphis pomi (DeGeer) (Homoptera: Aphididae) using linear and nonlinear models, Environmental Entomology 35(5): 1208–1215.
Asadi Eidvand, M., Golmohammadi, Gh. and Ghajariyeh, H. 2015. Lethal and sublethal effects of four insecticides on egg and first larvae green lacewing Chrysoperla carnea in laboratory conditions. Iranian Journal of Plant Protection Science 46(2): 331–338 (In Farsi).
Balzan, M. V. and Moonen, A. C. 2014. Field margin vegetation enhances biological control and crop damage suppression from multiple pests in organic tomato fields. Entomologia Experimentalis et Applicata 150: 45–65.
Blommers, L. H. M. 1994. Integrated pest management in European apple orchards. Annual Review of Entomology 39: 213–241.
Corrales, N. and Campos, M. 2004. Populations, longevity, mortality and fecundity of Chrysoperla carnea (Neuroptera, Chrysopidae) from olive-orchards with different agricultural management systems. Chemosphere 57: 1613–1619.
Dawson, J., Hamilton, A. J. and Mansfield, C. 2006. Dispersion statistics and a sampling plan for Helicoverpa (Lepidoptera: Noctuidae) on fresh-market tomatoes (Lycopersicon esculentum). Australian Journal of Entomology 45: 91–95.
Dhandapani, N., Sarkar, P. and Mishra, G. 2016. Chrysopids. In: Omkar (ed.). Ecofriendly Pest Management for Food Security. Academic Press, pp. 311–327.
Garzon, A., Medina, P., Amor, F., Vinuela, E. and Budia, F. 2015. Toxicity and sublethal effects of six insecticides to last instar larvae and adults of the biocontrol agents Chrysoperla carnea (Stephens) (Neuroptera: Chrysopidae) and Adalia bipunctata (L.) (Coleoptera: Coccinellidae). Chemosphere 132: 87–93.
Gharekhani, G. H., Ghorbansyahi, S., Saber, M. and Bagheri, M. 2014. Influence of the colour and height of sticky traps in attraction of Thrips tabaci (Lindeman) (Thysanoptera, Thripidae) and predatory thrips of family Aeolothripidae on garlic, onion and tomato crops, Archives of Phytopathology and Plant Protection 47(18): 2270–2275.
Golmohammadi, Gh. and Hejazi, M. 2104. Toxicity and side effects of three insecticides on adult Chrysoperla carnea (Neu.: Chrysopidae) under laboratory conditions. Journal of Entomological Society of Iran 33(4): 23–28.
Golmohammadi, Gh., Rezaei Torshizi, H. R., Vafaei- Shooshtari, R., Faravardeh, L. and Rafei-Karehroudi, Z. 2021. Lethal and sublethal effects of three insecticides on green lacewing, Chrysoperla carnea (Neuroptera: Chrysopidae) under laboratory conditions. Journal of Entomological Society of Iran 41(2): 105-121.
Holy, K. and Stara, J. 2020. Laboratory evaluation of the effect of insecticides on Chrysoperla carnea (Neuroptera: Chrysopidae), Forficula auricularia (Dermaptera: Forficulidae), Adalia bipunctata (Coleoptera: Coccinellidae) and Harmonia axyridis (Coleoptera: Coccinellidae). Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis 68(3): 497–506.
Lotfalizadeh, H. and Khalghani, J. 2010. Integrated pest management in apple orchards. Iranian Research Institute of Plant Protection. 145 pp (In Farsi).
Liu, Zh., Li, D., Gong, P. and Wu, K. 2004. Life table studies of the cotton bollworm, Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae), on different host plants. Environmental Entomology 33(6): 1570–1576.
Mansoor, M. M. and Shad, S. A. 2019. Resistance of green lacewing, Chrysoperla carnea (Stephens), to buprofezin: Cross resistance patterns, preliminary mechanism and realized heritability. Biological Control 129: 123–127.
Mdellel, L. and Kamel, M. B. H. 2015. Apple aphid’s species and their natural enemies in Tunisian orchards. Journal of New Sciences, Agriculture and Biotechnology 24(4): 1108–1114.
Miller, G. L., Oswald, J. D. and Miller, D. R. 2004. Lacewings and scale insects: A review of predator/prey associations between the Neuropterida and Coccoidea (Insecta: Neuroptera, Raphidioptera, Hemiptera). Annals of the Entomological Society of America 97(6): 1103–1125.
Mirmoayedi, A. N. 1998. Neuroptera of Iran. Acta Zoologica Fennica 209: 163–165.
Mirmoayedi, A. N. 2008. An updated checklist of the Neuropteran of Iran. Proceedings of the 10th Symposium on Neuopterology, Slovenia, Piran, 22–26 July. pp. 20.
Modarres Awal, M. 2012. List of Agricultural Pests and their Natural Enemies in Iran. Ferdowsi University of Mashhad Press, Third Edition.
Moura, A. P., Carvalho, G. A. and Botton, M. 2012. Residual effect of pesticides used in integrated apple production on Chrysoperla externa (Hagen) (Neuroptera: Chrysopidae) larvae. Chilean Journal of Agricultural Research 72(2): 217–223.
Pathan, A. K., Sayyed, A. H., Aslam, M., Liu, T. X., Razzaq, M. and Gillani, W. A. 2010. Resistance to pyrethroids and organophosphates increased fitness and predation potential of Chrysoperla carnae (Neuroptera: Chrysopidae).  Journal of Economic Entomology 103(3): 823–834.
Porcel, M., Ruano, F., Cotes, B., Pena, A. and Campos, M. 2013. Agricultural management systems affect the green lacewing community (Neuroptera: Chrysopidae) in olive orchards in southern Spain. Environmental Entomology 42(1): 97–106.
Porcel., M., Andersson, G. K. S., Palsson, J. and Tasin, M. 2018. Organic management in apple orchards: Higher impacts on biological control than on pollination. Journal of Applied Ecology 55: 2779–2789.
Pree, D. J., Archibald, D. E. and Morrison, R. K. 1989. Resistance to Insecticides in the Common Green Lacewing Chrysoperla carnea (Neuroptera: Chrysopidae) in Southern Ontario. Journal of Economic Entomology 82(1): 29–34.
Rezwani, A. 2001. Key to the Aphids (Homoptera: Aphidinea) in Iran. Ministry of Jihd -e-Agriculture, Agricultural Research, Education and Extension Organization.
Riley, D., Sparks, A., Srinivasan, R., Kennedy, G., Fonsah, G., Scott, J. and Olson, S. 2018. Thrips: Biology, Ecology, and Management: In: Wakil, W., Brust, G. E., and Perring, T. M. (Eds.). Sustainable Management of Arthropod Pests of Tomato. Academic press. London, pp: 49–70.
Rugno, G. R., Rugno, J. B. C., Stansly, P. A. and Yamamoto, P. T. 2019. Pest Management systems and insecticide tolerance of lacewings (Neuroptera: Chrysopidae). Journal of Economic Entomology 112(3): 1183–1189.
SAS Institute, 2003. SAS/STAT Users, Version 9.1. SAS Institute, Cary, NC, USA.
Senior, L. and McEwen, P. 2001. The use of lacewings in biological control. In: McEwen, P., New, T. and Whittington, A. (Eds.), Lacewings in the Crop Environment, Cambridge University Press. pp. 296–302.
Sharma, S. D., Devlash, R., Kumar, J., Bala, B. and Jamwal, R. S. 2016. Evaluation of IPM modules for the management of fruit borer and fruit rot diseases in tomato, Lycopersicon esculentum Miller. Journal of Applied and Natural Science 8(1): 240–244.
Simmons, A. M., Wakil, W., Qayyum, M. A., Ramasamy, S., Kuhar, T. P. and Philips, C. R. 2018. Lepidopterous pests: biology, ecology, and management: In: Wakil, W., Brust, G. E. and Perring, T. M. (Eds.). Sustainable Management of Arthropod Pests of Tomato. Academic press. London, pp. 131–162.
Southwood, T. R. E. 1995. Ecological methods with particular reference to the study of insect populations. Chapman & Hall, London.
Stoeckli, S., Mody, K. and Dorn, S. 2008. Aphis pomi (Hemiptera: Aphididae) population development, shoot characteristics, and antibiosis resistance in different apple genotypes. Journal of Economic Entomology 101(4): 1341–1348.
Tauber, C. A., Tauber, M. J. and Albuquerque, G. S. 2009. Neuroptera: (Lacewings, Antlions). In: Resh, V. H. and Carde, R. T. (Eds.). Encyclopodia of Insects. 2th Edition, Academic Press, pp. 695–707.
Taylor, L. R. 1984. Assessing and interpreting the spatial distributions of insect populations. Annual Review of Entomology 29: 321–357.
Tsai, J. H., Wang, J. J. and Liu, Y. H. 2000. Sampling of Diaphorina citri (Homoptera: Psyllidae) on orange Jessamine in southern Florida. Florida Entomologists 83: 446–459.
تحقیقات آفات گیاهی
دوره 12، شماره 4
بهمن 1401
صفحه 19-36

فایل ها

سابقه مقاله

  • تاریخ دریافت: 12 مهر 1401
  • تاریخ بازنگری: 22 آذر 1401
  • تاریخ پذیرش: 26 آذر 1401

هم رسانی

ارجاع به این مقاله

آمار