Economic evaluation of the insecticides used in the wheat crop for efficient management of wheat aphids

Rashid Ahmed Khan; Muhammed Naveed

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Economic evaluation of the insecticides used in the wheat crop for efficient management of wheat aphids

Rashid Ahmed Khan, Muhammed Naveed

Abstract: Wheat aphid is a serious sap-sucking pest of wheat in Pakistan. In case of severe infestation, the crop yield declines significantly due to reduced grain size. A field experiment was planned to determine the economic injury level (EIL) and economic threshold level (ET). The aphid population was maintained at different levels by using insecticides of different efficacies. Finally, an economic analysis of the insecticide application was carried out by assessing the gain threshold (GT) and benefit-to-cost ratio (BCR). The results showed that unchecked aphid infestation caused 23 percent grain weight loss and 26 percent yield loss. The increasing control cost per hectare caused increased EIL and ETL values. The lowest EIL and ETL value of 2.78 and 2.08 aphids per tiller was calculated for λ-cyhalothrin, whereas the highest EIL and ETL values were 8.33 and 6.18 for chlorpyriphos. The highest benefit-to-cost ratio of 13.33 was obtained for λ-cyhalothrin application for the control of wheat aphids. The information regarding EIL, ETL, and BCR may help to devise integrated pest modules and maximize economic benefits.

Keywords: Benefit to Cost Ratio (BCR); Economic Injury Level (EIL); Economic Threshold Level (ETL); insecticide; wheat aphid

Citation: Khan, R. A. & Naveed, M. (2026). Economic evaluation of the insecticides used in the wheat crop for efficient management of wheat aphids. Bulg. J. Agric. Sci., 32(1), 37–44

References: (click to open/close)

Aheer, G. M., Ahmad, K. J. & Ali, A. (1994). Role of weather in fluctuating aphid density in wheat crop. Journal of Agricultural Research, 32(3), 295 - 301.
Aheer, G. M., Rashid, A., Afza, l. M. & Ali, A. (1993). Varietal resistance/susceptibility of wheat aphids Sitobean avenae F. and Ropalosiphum rufiabdominalis Sesaki. Journal of Agricultural Research, 31(3), 307 - 311.
Ahmad, T., Hassan, M. W., Jamil, M. & Iqbal, J. (2016). Population dynamics of aphids (Hemiptera: Aphididae) on wheat varieties (Triticum aestivum L.) as affected by abiotic conditions in Bahawalpur, Pakistan. Pakistan Journal of Zoology, 48, 1039 - 1044.
Anonymous. (2023). Economic survey of Pakistan. Ministry of Finance, Govt. of Pakistan.
Aqueel, M. A. & Leather, S. R. (2011). Effect of nitrogen fertilizer on the growth and survival of Rhopalosiphum padi (L.) and Sitobion avenae (F.) (Homoptera: Aphididae) on different wheat cultivars. Crop Protection, 30, 216 - 221.
Aslam, M., Majid, A., Hobbs, P. R., Hashmi, N. I. & Byerlee, D. (1989). Wheat in rice-wheat cropping system of the Punjab: a synthesis of on-farm research results 1984-1988. PARC/CIMMYT Paper No. 89-3. Islamabad, Pakistan Agricultural Research Council.
Aslam, M., Razaq, M., Ahmad, F., Faheem M. & Akhtar, W. (2004). Population of aphid, Schizaphis graminum (R.) on different varieties/lines of wheat, Triticum aestivum (L.). International Journal of Agriculture & Biology, l6, 974 - 977.
Barzman, M., Bàrberi, P., Birch, A. N. E., Boonekamp, P., Dachbrodt-Saaydeh, S., Graf, B., ... & Sattin, M. (2015). Eight principles of integrated pest management. Agronomy for sustainable development, 35(4), 1199 - 1215.
Borer, E. T., Adams, V. T., Engler, G. A., Adams, A. L., Schumann, C. B. & Seabloom, E. W. (2009). Aphid fecundity and grassland invasion: Invader life history is the key. Ecological Applications, 19, 1187 - 1196.
Brault, V., Herrbach, E. & Reinbold, C. (2007). Electron microscopy studies on luteovirid transmission by aphids. Micron 38, 302 - 312. PMID: 16750376.
Caballero-Lopez, B., Blanco-Marino, J. M., Perez-Hidalgo, N., Michelena-Saval, J. M., Pujade-Villar, J. & Guerrieri E. (2012). Weeds, aphids, and specialist parasitoids and predators benefit differently from organic and conventional cropping of winter cereals. Journal of Pest Science, 85, 81 - 88.
Dachbrodt-Saaydeh, S., Sellmann, J., Strassemeyer, J., Schwarz, J., Klocke, B., Krengel, S. & Kehlenbeck, H. (2018). Network of Comparative Farms for Plant Protection: Two-Year Report 2015 and 2016; Analysis of the results from 2007 to 2016. (Netz Vergleichsbetriebe Pflanzenschutz: Zwei-Jahresbericht 2015 und 2016; Analyse der Ergebnisse der Jahre 2007 bis 2016). Netz Vergleichsbetriebe Pflanzenschutz (De).
Dinu, T. A., Popescu, A., Chiurciu, I. A., Soare, E., Stoicea, P. & Iorga, A. M. (2022). Study on the use and marketing of pesticides in Romania in the context of applying the farm to fork strategy. Scientific Paper Series Management, Economic Engineering in Agriculture and Rural Development, 22, 279 - 292.
Drakulic, J., Caulfield, J., Woodcock, C., Jones, S. P. T., Linforth, R., Bruce, T. J. A. & Ray V. R. (2015). Sharing a host plant (wheat [Triticum aestivum]) increases the fitness of Fusarium graminearum and the severity of fusarium head blight but reduces the fitness of grain aphids (Sitobion avenae). Applied and Environmental Microbiology, 81, 3492 - 3501.
Fabre, F., Pierre, J. S., Dedryver, C. A. & Plantegenest, M. (2006). Barley Yellow Dwarf Disease risk assessment based on Bayesian modeling of aphid population dynamics. Ecological Modelling, 193, 457 - 466.
Foster, S. P., Paul, V. L., Slater, R., Warren, A., Denholm, I., Field, L. M. & Williamson, M. S. (2014). A mutation (L1014F) in the voltage‐gated sodium channel of the grain aphid, Sitobion avenae, is associated with resistance to pyrethroid insecticides. Pest management science, 70(8), 1249 - 1253.
Geiger, F., Bengtsson, J., Berendse, F., Weisser, W. W., Emmerson, M., Morales, M. B., ... & Inchausti, P. (2010). Persistent negative effects of pesticides on biodiversity and biological control potential on European farmland. Basic and applied ecology, 11(2), 97 - 105.
Gordy, J. W., Brewer, M. J., Bowling, R. D., Buntin, G. D., Seiter, N. J., Kerns, D. L., Reay-Jones, F. P. F. & Way, M. O. (2019). Development of economic threshold of sugarcane aphid (Hemiptera: Aphididae) in sustainable grain sorghum hybrids. Journal of Economic Entomology, 122, 1251 - 1259.
Guo, X. X., Zhao, D., Zhuang, M. H., Wang, C. & Zhang, F. C. (2021). Fertilizer and pesticide reduction in cherry tomato production to achieve multiple environmental benefits in Guangxi, China. Science of Total Environment, 793, 148527.
Hamid, S. (1983). Natural balance of graminicolous aphids in Pakistan. Survey of population. Agronomie, 3(7), 665 - 673.
Hashmi, A. A., Hussain, M. & Ulfat, M. (1983). Insect pest complex of wheat crop. Pakistan Journal of Zoology, 15(2), 169 - 176.
Heimpel, G. E., Yang, Y., Hill, J. D. & Ragsdale, D. W. (2013). Environmental consequences of invasive species: greenhouse gas emissions of insecticide use and the role of biological control in reducing emissions. Plos One, 8, e72293. doi: 10.1371/journal.pone.0072293.
Helden, M. V., Heddle, T., Umina, P. A. & Maino, J. L. (2022). Economic injury level and dynamic action thresholds of Diuraphis noxia (Hemiptera: Aphididae) in Australian cereal crops. Journal of Economic Entomology, 115, 592 - 601.
Inayat, T. P., Rana, S. A., Rana, N., Ruby, T., Siddiqqui, M. J. I. & Abbas, M. N. (2011). Predation rate in selected coccinellid (Coleoptera) predators on some major aphids and coccinellids (Hemipteran) pests. International Journal of Agriculture & Biology, 13, 427 - 430.
Iordan, C. B., Marcuta, L., Marcuta, A. & Cristea, S. (2022). Study regarding the use of phytosanitary protection products in Romania and european countries in the period 2011–2019. Scientific Paper Series Management, Economic Engineering in Agriculture and Rural Development, 22, 259 - 264.
Jiménez-Martínez, E. S., Bosque-Perez, N. A., Berger, P. H., Zemetra, R. S., Ding, H. & Eigenbrode, S. D. (2004). Volatile cues influence the response of Rhopalosiphum padi (Homoptera: Aphididae) to Barley yellow dwarf virus-infected transgenic and untransformed wheat. Environmental Entomology, 33, 1207 - 1216.
Khan, R. A., Naveed, M. & Hussain, M. (2018). Impact of wheat-rapeseed perimeter crop and environmental factors on the occurrence and population abundance of wheat aphid species. International Journal of Agronomy & Agricultural Research, 12(6), 109 - 115.
Khan, S. A. (2005). Studies on aphid distribution pattern and their natural enemies in wheat and maize crop. PhD thesis. Department of Plant Protection, Agricultural University Peshawar-Pakistan, 179.
Khan, S. M. & Maqbool, R. (2002). Varietal performance of wheat (Triticum aestivum) against wheat aphid (Macrosiphum miscanthi) and its chemical control with different doses of insecticides. Asian Journal of Plant Sciences, 1, 205 - 207.
Mahmood, R., Pasowal, M. A. & Shehzad, M. (2002). Distribution, host range and seasonal abundance of Sipha sp. (Homoptera: Aphididae) and their natural enemies in Pakistan. Pakistan Journal Biological Sciences 5(1), 47 - 50.
Mahmoud, M. F. (2014). New indices for measuring some quality control parameters of the Mediterranean fruit fly, Ceratitis capitata (Wied.) Arthropods, 3(1), 88 - 95.
Maleki, N. & Damavandian, M. R. (2015). Determination of economic injury level for first and second generations of Pulvinaria aurantia (Hem: Coccidae) in Thomson navel orange orchards. Arthropods, 4(1), 13 - 21.
Miao, J., Du, Z. B., Wu, Y. Q., Gong, Z. J., Jiang, Y. L., Duan, Y., ... & Lei, C. L. (2014). Sub‐lethal effects of four neonicotinoid seed treatments on the demography and feeding behaviour of the wheat aphid Sitobion avenae. Pest Management Science, 70(1), 55 - 59.
Miles, M. (2016). Thresholds IPM Guidelines for Grains IPM Guidelines for Grains.html. http//ipmguidelinesforgrains.com.au.
Mohyuddin, A. I. (1981). A review of biological control in Pakistan. Proc. 2nd Congress of Zoology. Tandojam, 21 - 79.
Obopile, M. (2006). Economic threshold and injury levels for control of cowpea aphid, Aphis crassivora Linnaeus (Homoptera: Aphididae), on cowpea. African Plant Protection, 12, 111 - 115.
Pal, D. S., Singh, D. R., Singh, D. K., Rajpoot, P. & Upadhyay, A. (2023). Economic and incremental benefit ratio of novel insecticides against mustard aphid Lipaphis erysimi Kalt. The Pharma Innovation Journal. 12, 397 - 400.
Papp, M. & Mesterházy, A. (1993). Resistance to bird cherry-oat aphid Rhopalosiphum padi (L.) in winter wheat varieties. Euphytica, 67, 49 - 57.
Pedigo, L. P., Hutchins, S. C. & Higley, L. G. (1986). Economic injury level in theory and practice. Annual Review of Entomology 31, 341 - 368.
Pedigo, L. P. (1991). Entomology and Pest Management, Macmillan Publishing Company, New York, 107 - 119.
Pickett, J. A. (2013). Food security: Intensification of agriculture is essential, for which current tools must be defended and new sustainable technologies invented. Food and Energy Security, 2, 167 - 173.
Popescu, A., Tindeche, C., Marcuta, A., Marcuta, L. & Hontus, A. (2021). Pesticides-A problem in Romania’s agriculture? Scientific Paper Series Management, Economic Engineering in Agriculture and Rural Development, 21, 477 - 486.
Qayyum, M. A., Saeed, S., Naeem-Ullah, U., Matloob, A., Wajid, M., Siddique, A. B., Shahid, R., Zia, H. U., Bilal, H. & Ramzan, M. (2021). Insect Pest Complex on wheat crop. Current trend in wheat research. DOI: 10.5772/intechopen.95786.
Ramsden, M., Menendez, R. Leather, S. & Wäckers, F. (2017). Do natural enemies really make a difference? Field scale impacts of parasitoid wasps and hoverfly larvae on cereal aphid populations. Agriculture and Forest Entomology, 19, 139 – 145.
Riedell, W. E., Keickhefer, R. W., Langham, M. A. C. & Hesler, L. S. (2003). Root and shoot responses to bird cherry-oat aphids and Barley yellow dwarf virus in spring wheat. Crop Science, 43, 1380 - 1386.
Savaris, M., Lampert, S., Salvadori, J. R., Pereira, P. R. V. S. & Smaniotto, M. A. (2013). Population growth and damage caused by Rhopalosiphum padi (L.) (Hemiptera, Aphididae) on different cultivars and phonological stages of wheat. Neotropical Entomology, 42, 539 - 543.
Senapati, N. & Semenov, M. A. (2020). Large genetic yield potential and genetic yield gap estimated for wheat in Europe. Global Food Security, 24, 100340.
Shafique, M. A., Ahmed, K. S., Haider, N., Khan, R. R. & Majeed, M. Z. (2016). Field evaluation of different insecticides against wheat aphid (Shizaphis granarium Rondani) and comparative yield assessment for
Singh, S. A. & Kumar, A. (2022). Comparative efficacy and cost benefit ratio of newer insecticides and bio-pesticides against mustard aphid, Lypaphis erysimi (Kaltenbach) on Indian mustard in Trans Yamuna region of Prayagraj (U.P). The pharma Innovation Journal, SP-1(10), 300 - 305.
Stern, V. M., Smith, R. F., Bosch, R. V. D. & Hegan, K. S. (1959). The integration of chemical and biological control of the spotted alfalfa aphid: The integrated control concept. control concepts. Hilgardia, 29(2), 81 - 101.
Stoicea, P., Dinu, T. A., Tudor, V. C., Gidea, M., Iorga, A. M., Chiurciu, I. A. & Soare, E. (2022). The impact of implementing the farm to fork strategy regarding the use of fertilizers and pesticides in the EU. Scientific Paper Series Management, Economic Engineering in Agriculture and Rural Development, 22, 659 - 670.
Stone, J. D. & Pedigo, L. (1972). Development of economic injury level of green clover worm on soybean in Iowa. Journal of Economic Entomology, 65, 197 - 201.
Tudor, V. C., Stoicea, P., Chiurciu, I-A., Soare, E., Iorga, A. M., Dino, T. A., David, L., Micu, M. M., Smedescu, D. I. & Dumitru, E. A. (2023). The use of fertilizer and pesticide in wheat production in the main European countries. Sustainability, 15, 3038.
Walker, P. T. (1990). Empirical models for predicting yield loss caused by stem borers. In: Crop loss assessment in rice, International Rice Research Institute, Manilla, Philippines, 131 - 138.
Wang, C. P., Luo, K., Wang, L. M., Zhao, H. Y. & Zhang, G. S. (2015). Molecular mapping of resistance gene to the English grain aphid. Sitobion avenae, in a Chinese wheat line XN98 – 10 - 35. Molecular Breeding, 35, 203.
Wang, K., Zhang, M., Huang, Y., Yang, Z., Su, S. & Chen, M. (2018). Characterisation of imidacloprid resistance in the bird cherry‐oat aphid, Rhopalosiphum padi, a serious pest on wheat crops. Pest Management Science, 74, 1457 - 1465.
Way, M. O., Grigarick, A. A., Litsinger, J. A., Palis, F. & Pingali, P. (1991). Economic thresholds and injury level for insect pests of rice. In Rice Insects Management Strategies, eds. E.A. Heinrichs and V.A. Miller. Springer, New York, 67 - 105.
Wyckhuys, K. A., Furlong, M. J., Zhang, W. & Gc, Y. D. (2022). Carbon benefits of enlisting nature for crop protection. Nature Foods, 3, 299 - 301.
Xie, H., Shi, J., Shi, F., Xu, H., He, K. & Wang, Z. (2020). Aphid fecundity and defenses in wheat exposed to a combination of heat and drought stress. Journal of Experimental Botany, 71, 2713 - 2722.
Yousafi, Q., Sameen & Saleem, S. (2020). Benefit-cost ratio evaluation for management of Brevicoryne brassicae L. in canola (Brassica napus L.) crop production. Phytoparasitica, 48, 673 - 683.
Zia, M. A., Aheer, G. M., Mumtaz, M. K. & Ahmed, K. J. (1999). Field screening of sixteen advance lines of wheat for resistance to aphids (Homoptera: Aphidsidae). Pakistan Entomologist, 21, 95 - 97.

Date published: 2026-02-25

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