The effect of cover crops in reducing the damage of potato tuber moth, Phthorimaea operculella (Zeller) on potato tubers at the end of the growing season in the field

Document Type : Research Paper

Authors

1 Department of Plant Protection, University of Mohaghegh Ardabili, Ardabil, Iran

2 Ardabil Agricultural and Natural Resources Research and Education Center, Ardabil, Iran

Abstract

Potato tuber moth, Phthorimaea operculella (Zeller), is the most important pest in potato fields in the world and Iran. The use of appropriate agricultural and protection strategies to prevent oviosition of Ph. operculella on newly formed potato tubers at the end of the cropping season can be effective in reducing its damage. The effects of cover crops on damage reduction on newly formed potato tubers were investigated in a randomized complete block design with three replications during two years 2020 and 2021. After the senescence of potato foliage, the cover crops including of vetch (Vicia sativa), grass pea (Lathyrus sativus), rye (Secale montanu), and strengthening of the natural field vegetation were used as cover crops in the field. Tuber infestation (%) during two years in vetch, grass pea, reinforcement of field vegetation and rye was 8.00, 12.33, 26.33 and 26.17%, respectively and all treatments significantly reduced the damage on potato tubers when compared with control (39.17%). The number of larvae in the infested tubers showed a significant difference between treatments, and the treatments of vetch, grass pea, reinforcement of field vegetation and rye showed a lower larval density, respectively. Based on results, vetch is the most effective plant to cover the soil and prevent Ph. operculella oviposition on the potato tubers. Moreover, maintaining and strengthening of weeds in the field at the end of the growing season and after the drying of potato foliage could be a low-cost method to prevent damage by Ph. operculella on tubers in the soil.

Keywords

References

Agricultural Statistics. 2015. The first volume of horticultural products, agricultural year 2014-2015. Ministry of Jihad-e Agriculture of Iran, Deputy for Planning and Economy, Information and Communication Technology Center. (in Farsi)
Bacon, O. G. 1960. Systemic insecticides applied to cut seed pieces and to soil at planting time to control potato insects. Journal of Economic Entomology 53: 835-839.
BenSalah, H. and Aalbu, R. 1992. Field use of granulosis virus to reduce initial storage infestation of the potato tuber moth, Phthorimaea operculella (Zeller), in North Africa. Agriculture, Ecosystems & Environment 38: 119-126.
Briese, D. T. 1986. Geographic variability in demographic performance of the potato moth, Phthorimaea operculella (Zeller) in Australia. Bulletin of Entomological Research 76: 719-726.
Bruce, T. J., Wadhams, L. J. and Woodcock, C. M. 2005. Insect host location: a volatile situation. National Library of Medicine 10: 269-74.
Dethier, V. G. 1982. Mechanism of host plant recognition. Entomologia Experimentalis et Applicata 31: 49-56.
Deurer, M., Grinev, D., Young, I., Clothier, B. E. and Müller, K. 2009. The impact of soil carbon management on soil macropore structure: a comparison of two apple orchard systems in New Zealand. European Journal of Soil Science 60: 945-955.
Fabeiro, C., de Santa Olalla, F. and de Juan, J. A. 2001. Yield and size of deficit irrigated potatoes. Agricultural Water Managment 48: 255-266.
Fenemore, P. G. 1988. Host-plant location and selection by adult potato tuber moth, Phthorimaea operculella (Lepidoptera: Gelechiidae): a review. Journal of Insect Physiology 34: 175-177.
Foot, M. A. 1979. Bionomics of the potato tuber moth Phthorimaea operculella (Lepidoptera: Gelechiidae) at Pukekohe. New Zealand Journal of Zoology 6: 623-636.
Gabriel, J. L. and Quemada, M. 2011. Replacing bare fallow with cover crops in a maize cropping system: Yield, N uptake and fertilizer fate. European Journal of Agronomy 34: 133-143.
Gomez, J., Sobrinho, T., Giraldez, J. and Fereres, E. 2009. Effects of tillage method on soil physical properties, infiltration and yield in an olive orchard. Soil Tillage Research 102: 5-13
Habibi, J. and Hesan, A. 1991. Biology and population dynamics of potato moth in Karaj. Applied Entomology and Phytopathology 59: 99-107 (in Farsi).
Herman, T. J. B., Clearwater, J. R. and. Triggs, C. M. 2005. Impact of pheromone trap design, placement and pheromone blend on catch of potato tuber moth. New Zealand Plant Protection 58: 219–223.
Khanjani, M. 2013. Vegetable pests in Iran, 5th Edition. Bu-Ali Sina University Press Center, Iran. 467 pp. (in Farsi)
Klingauf, F. 1971. Die Wirkung, des Glucosids Phlorizin auf das Wirtswahl verhaltenvon Rhopalosiphum imsertum (Walk.) und Aphis pomi De Geer (Homoptera: Aphididae). Zeitschrift für Angewandte Entomologie 68: 41-55.
Linares, R., de la Fuente, M., Junquera, P., Lissarrague, J. R. and Baeza, P. 2014. Effects of soil management in vineyard on soil physical and chemical characteristics. BIO Web of Conferences, 37th World Congress of Vine and Wine and 12th General Assembly of the OIV, 3: 01008.
Moller, K. and Reents, H. J. 2009. Effects of various cover crops after peas on nitrate leaching and nitrogen supply tosucceeding winter wheat or potato crops. Jounal of Soil Science and Plant Nutrition 172: 277-287.
Nouri Ganbalani, G., Zamani, R., Ebadollahi, A. and Hassanpanah, D. 2018. Comparison of the injury of potato tuber moth Phthorimaea operculella (Zeller), on nine potato cultivars and the effect of hilling up and changing the harvest date on the control of the pest. Journal of Applied Research in Plant Protection 7: 121-131. (in Farsi)

Oerke, E.C. 2006. Crop losses to pests. Journal of Agricultural Science 144: 31-43.

Pedigo, L.P. 2009. Entomology and pest manangment, 6rd edition. Prentice Hall New Jersey, 784 pp.
Reberg-Horton, S. C., Grosman, J. M., Kornecki, T. S., Meijer, A. D., Price, A. J., Place, G. T. and Webster, T. M. 2012. Utilizing cover crop mulches to reduce tillage in organic systems in the southeastern USA. Renewable Agriculture and Food Systems 27: 41-48.
Rondon S. I. 2010. The potato tuberworm: a Literature review of its biology, ecology, and control. American Journal of Potato Research 87: 149-166.
Rondon, S. I, DeBano, G. H., Clough, S. J., Hamm, P. B., Jensen, A., Schreiber Alvarez, A. J. M., Thornton, M., Barbour, J. and Dŏgramaci, M. 2007. Biology and management of the potato tuber worm in the Pacific Northwest. The Pacific Northwest Wikipedia, 594 pp.
Rosa, H. A., Secco, D., Veloso, G., Santos, R. F., Souza, S. N. M., Marins, A. C. and Borosi, A. 2012. Effects of the use of cover crops in the structure of an oxisol managed by a no-till farming system in the west of Paraná, Brazilian. Journal of Food Agriculture and Environment 10: 1278-1280.
Shelton, A. M. and Wyman, J. A. 1979a. Time of tuber infestation and relationships between catches of adult moths, foliar larval populations, and tuber damage by potato tuber worm. Journal of Economic Entomology 72: 599-601.
Shelton, A. M. and Wyman, J. A. 1979b. Potato tuberworm damage to potato grown under different irrigation and cultural practices. Journal of Economic Entomology 72: 261-264.
Soltani, H., Ahmadi, A. and Malmir, A. 2008. Evalution of integrated management strategies of potato moth Phthorimaea operculella (Zeller), in field and storage in Hamedan. Journal of Agrcultural Research 1: 1-12. (in Farsi)
Steenwerth, K. and Belina, K. M. 2008. Cover crops and cultivation impacts on soil N dynamics and microbiological function in a mediterranean vineyard agroecosystem. Journal of Applied Soil Ecology 40: 370-380.
Traynier, R. M. M. and Truscott, R. J. W. 1991. Potent natural egg-laying stimulant for cabbage butterfly Pieris rapae. Journal of Chemical Ecology 17: 1371-1380.
Virto, I., Imaz, M. J. Fernández-Ugalde, O. Urrutia, I. Enrique, A. and Bescansa, P. 2012. Soil quality evaluation following the implementation of permanent cover crops in semi-arid vineyards. Organic matter, physical and biological soil properties. Spanish Journal of Agricultural Research 10: 1121-1132.
Von Arx, R., Goueder, J., Cheikh, M. and Ben Temime, A. 1987. Integrated control of potato tubermoth Phthorimaea operculella (Zeller) in Tunisia. International Journal of Tropical Insect Science 8: 989-994.
Plant Pest Research
Volume 12, Issue 3
December 2022
Pages 45-56

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  • Receive Date: 10 December 2022
  • Accept Date: 10 December 2022

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