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Vermisüspansiyon uygulamalarının biber (Capsicum annum L. Solanaceae) üzerinde beslenen Yeşil şeftali yaprakbiti [(Myzus (N.) persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine etkileri

Yıl 2021, , 49 - 59, 31.03.2021
https://doi.org/10.16955/bitkorb.753214

Öz

Vermisüspansiyon yenilikçi organik kontrol önlemleri, toprak solucanları ve çeşitli mikroorganizmalar aracılığı ile bitki gelişimini teşvik eden, verimi arttıran, pahalı olmayan, bu nedenle organik ürün yetiştirme alanlarında tercih edilen yöntemlerden biridir. Bu çalışmada iki farklı vermisüspansiyon uygulamasının biber bitkisi üzerinde beslenen Myzus (N.) persicae Sulzer (Hemiptera: Aphididae)‘nin gelişim parametreleri üzerindeki etkileri, iklim odalarında 25±10 oC, %60±5 orantılı nem ve 16:8 aydınlık-karanlık koşullarında test edilmiştir. Vermisüspansiyonlar 1/100 oranında seyreltilerek, saksılara içirme yöntemi ile uygulanmıştır.
Yaş ve döneme bağlı iki eşeyli yaşam çizelgesi analizi ile yaşam çizelgesi parametreleri oluşturulmuştur. Çalışma sonucunda iki farklı vermisüspansiyon (VS1 ve VS2) uygulaması arasında önemli bir fark bulunmazken, VS1 uygulamasının kontrol uygulamasına göre daha etkili olduğu görülmüştür. VS1 uygulanmış bitkiler üzerinde elde edilen net üreme gücü (R0,) (30.87 döl/birey), kalıtsal üreme yeteneği (r) (0.2145 gün-1) ve üreme gücü sınırı (λ) (1.2393 gün-1) değerleri kontrol bitkileri üzerinde elde edilenden daha düşük bulunmuştur.

Kaynakça

  • Ağaçayak T., 2017. Kımyasal Gübre Kullanımının Çevresel Etkılerı ve Çözüm Önerileri Hükümetlerarası İklım Değışıklığı Panelı, Ipcc, Ekoıq. http://ekoiq.com/2017/03/17/kimyasal-gubre-kullaniminin-cevresel-etkileri-cozum-onerileri/ (Erişim tarihi: 20.05.2020).
  • Anonim, 2019. Solucan Gübresi http://www.agricentergroup.com/solucan-gubresi/ Erişim Tarihi: 28.02.2019.
  • Ansari A.A., Sukhraj K., 2010. Effect of vermiwash and vermicompost on soil parameters and productivity of okra (Abelmoschus esculentus) in Guyana. African Journal of Agricultural Research. 5(14):1794-1798.
  • Arancon N.Q., Edwards C.A., Atiyeh R., Metzger J.D., 2004. Effects of vermicomposts produced from food waste on the growth and yields of greenhouse peppers. Bioresource Technology 93, 139-144.
  • Arancon N.Q., Galvis P.A., Edvards C.A., 2005. Suppression of insect pest populations and damage to plants by vermicomposts. Bioresour Technol., 96(10): 1137-42.
  • Banfield-Zanin J.A., Rossiter J.T., Wright D.J., Leather S.R., Staley J.T., 2012. Predator mortality depends on whether its prey feeds on organic or conventionally fertilised plants. Biological control, 63(1), 56-61.
  • Bass C., Puinean A. M., Zimmer C. T., Denholm I., Field L. M., Foster S. P., Williamson M. S., 2014. The evolution of insecticide resistance in the peach potato aphid, Myzus persicae. Insect biochemistry and molecular biology, 51, 41-51.
  • Bass C., Puinean A.M., Andrews M., Cutler P., Daniels M., Elias J., Paul V.L., Crossthwaite A.J., Denholm I., Field L.M., Foster S.P., Lind R., Williamson M.S., Slater R., 2011. Mutation of a nicotinic acetylcholine receptor β subunit is associated with resistance to neonicotinoid insecticides in the aphid Myzus persicae. BMC Neurosci. 12():51.
  • Beanland L., Phelan P.L., Salminen S., 2003. Micronutrient interactions on soybean growth and the developmental performance of three insect herbivores. Environ Entomol. 32: 641-651.
  • Bellitürk K., 2018. Vermicomposting in Turkey: Challenges and Opportunities in Future. Eurasian Journal of Forest Science. 6 (4): 32-41.
  • Bellitürk K., Adiloğlu S., Solmaz Y., Zahmacıoğlu A., Adiloğlu A. 2017. Effects of increasing doses of vermicompost applications on P and K contents of pepper (Capsicum annuum L.) and Eggplant (Solanum melongena L.). Journal of Advanced Agricultural Technologies Vol, 4(4).
  • Cardoza Y.J., 2011. Arabidopsis Thaliana resistance to insects, mediated by an earthworm-produce organic soil amendment. Pest Manag Scientist, 67 (2) :233-8. doi: 10.1002/ps.2059.
  • Chattopadhyay A., 2015. Effect of vermiwash of Eisenia foetida produced by different methods on seed germination of green mung, Vigna radiate. International Journal of Recycling of Organic Waste in Agriculture. 4(4):233-237.
  • Chi H., 2019a. TWOSEX-MSChart: a computer program for the age-stage, two-sex life table analysis. National Chung Hsing University, Taichung, Taiwan. (http://140.120.197.173 /Ecology/Download/Twosex-MSChart.rar).
  • Chi, H. (2019b). TIMING-MSChart: a computer program for the population projection based on age-stage, two-sex life table. (http://140.120.197.173/Ecology/ Download/Timing-MSChart.zip).
  • Chi H., Su H.Y., 2006. Age-stage, two-sex life tables of Aphidius gifuensis (Ashmead) (Hymenoptera: Braconidae) and its host Myzus persicae (Sulzer) (Homoptera: Aphididae) with mathematical proof of the relationship between female fecundity and the net reproductive rate. Environmental Entomology,35: 10–21.
  • Deepa N., Kaur C., George B., Singh B., Kapoor H. C., 2007. Antioxidant constituents in some sweet pepper (Capsicum annuum L.) genotypes during maturity. LWT-Food Science and Technology, 40(1), 121-129.
  • Edwards C. A., Arancon N. Q., Emerson E., Pulliam R., 2007. Suppressing plant parasitic nematodes and arthropod pests with vermicompost teas. Biocycle, 48(12), 38-39.
  • Edwards C.A., 1995. A historical overview of vermicomposting. Biocycle, June, 56–58.
  • Efron B., Tibshirani R.J., 1993. An introduction to the bootstrap. Chapman & Hall, New York, NY.
  • Esakkiammal B., Lakshmibai L., Sornalatha S., 2015. Studies on the combined effect of vermicompost and vermiwash prepared from organic wastes by earthworms on the growth and yield parameters of dolichous lab Lab. Asian Journal of Pharmaceutical Science and Technology., 5(4):246-252.
  • Fenton B., Margaritopoulos J.T., Malloch G. L., Foster S.P., 2010. Micro‐evolutionary change in relation to insecticide resistance in the peach–potato aphid, Myzus persicae. Ecological Entomology, 35, 131-146.
  • Goodman D., 1982. Optimal life histories, optimal notation, and the value of reproductive value. Am. Nat. 119: 803-823.
  • Gopal M., Gupta A., Palaniswami C., Dhanapal R., Thomas G.V., 2010. Coconut leaf vermiwash: a bio-liquid from coconut leaf vermicompost for improving the crop production capacities. Current Science., 98:1202-1210.
  • Goundoudaki S., Tsitsipis J.A., Margaritopoulos J.T., Zarpas K.D., Divanidis S., 2003. Performance of the Tobacco aphid Myzus persicae (Hemiptera: Aphididae) on Oriental and Virginia Tobacco Varieties. Agric For Entomol 5:285–291.
  • Guarda G., Padovan S., Delogu G. 2004. Grain yield, nitrogen-use efficiency and baking quality of old and modern Italian bread-wheat cultivars grown at different nitrogen levels. European Journal of Agronomy, 21(2), 181-192.
  • Howard L.R., Talcott S.T., Brenes C.B., Villalon B., 2000. Changes in phytochemical and antioxidant activity of selected pepper cultivars (Capsicum spp.) as influenced by maturity. Journal of Agricultural and Food Chemistry 48: 1713-1720.
  • Huang Y. B., Chi H., 2012. Age-stage, two-sex life tables of Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae) with a discussion on the problem of applying female age-specific life tables to insect populations. Insect Sci. 19: 263–273.
  • Karacaoğlu Ç., 2013. Popülasyonun yapısı 6. Bölüm http://yunus.hacettepe .edu.tr/~cagasan /Er. Erişim tarihi: 10.09.2018.
  • Küçükyumuk Z., Gültekin M., Erdal İ., 2014. Vermikompost ve Mikorizanın Biber Bitkisinin Gelişimi ile Mineral Beslenmesi Üzerine Etkisi. Süleyman Demirel Üniversitesi Ziraat Fakültesi Dergisi 9 (1):51-58.
  • Lojek J.S., Orlob G.B., 1972. Transmission of tobacco mosaic virus by Myzus persicae. Journal of General Virology, 17(1): 125-127. Mardani-Talaee M., Razmjou J., Nouri-Ganbalani G., Hassanpour M., Naseri B. 2017. Impact of chemical, organic and bio-fertilizers application on bell pepper, Capsicum annuum L. and biological parameters of Myzus persicae (Sulzer)(Hem.: Aphididae). Neotropical entomology, 46(5), 578-586.
  • Mengistu T., Gebrekidan H., Kibret K., Woldetsadik K., Shimelis B., Yadav H., 2017. The integrated use of excreta-based vermicompost and inorganic NP fertilizer on tomato (Solanum lycopersicum L.) fruit yield, quality and soil fertility. International Journal of Recycling of Organic Waste in Agriculture, 6(1), 63-77.
  • Mishra K., Singh K., Tripathi C.P.M., 2014. Journal homepage: http://www. Journal. Ijar. Com. International Journal of Advanced Research. 2(1):780-789.
  • Mishra K., Singh K., Tripathi C.P.M., 2015. Organic farming of rice crop and management of infestation of Leptocorisa varicornis through combined effect of vermiwash with biopesticides. Research Journal of Science and Technology. 7(4):205-211.
  • Morales H., Perfecto I., Ferguson B., 2001. Traditional fertilization and its effect on corn insect populations in the Guatemalan highlands.Agric. Ecosyst. Environ. 84:145–155.
  • Mottaghinia L., Hasanpour M., Razmjou J., Chamani E., 2014. Effect of vermicompost on some biological parameters of the melon aphid, Aphis gossypii glover and the predatory gall midge aphidoletes aphidimyza rondani on two green house cucumber cultivars. Research Gate. https://www.researchgate.net/publication/330702087
  • Nath G., Singh K., 2012. Effect of vermiwash of different vermin composts on the kharif crops. Journal of Central European Agriculture, 13(2):379-402.
  • Nath G., Singh K., 2015. Combined Effect of Vermiwash with Biopesticides against Infestation of Pod Borer (Helicoverpa armigera Hub.). International Journal of Zoological Investigations, 1(1):40-51.
  • National Organic Standards Board (NOSB). 2002. Compost Tea Task Force Recommendations as amended by NOP. http://www.ams.usda.gov/nosb/archives/crop/ recommendations. html. (Erişim tarihi: 08.05.2020).
  • Nayak H., Rai S., Mahto R., Rani P., Yadav S., Prasad S. K., Singh R.K., 2019. Vermiwash: A potential tool for sustainable agriculture. Journal of Pharmacognosy and Phytochemistry, (5): 308-312.
  • Palukaitis P., García-Arenal F., 2003. Cucumoviruses. Advances in virus research, 62, 241-323.
  • Polat Akköprü E., Atlıhan R., Chi H., Okut H., 2015. Demographic assessment of plant cultivar resistance to insect pests: A casestudy of the Dusky-Veined Walnut Aphid (Hemiptera: Callaphididae) on five walnut cultivars. Journal of Economic Entomology. J Econ Entomol;108(2):378-87
  • Ravi M., Dhandapani N., Sathiah N., Murugan M., 2006. Influence of organic manures and fertilizers on the incidence of sucking pests of sunflower, Helianthus annuus L. Annals of Plant Protection Sciences, 14(1), 41-44.
  • Razmjou J., Vorburger C., Mohamedi M., Hasanpour M., 2011. Influence of vermicompost and cucumber cultivar on population growth of Aphis gossypii Glover. Journal of Applied Entomology 136(8).
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Effects of vermisuspension applications on population development of green peach aphid [(Myzus (N.) persicae Sulzer) (Hemiptera: Aphididae)] fed on pepper (Capsicum annum L. Solanaceae)

Yıl 2021, , 49 - 59, 31.03.2021
https://doi.org/10.16955/bitkorb.753214

Öz

Innovative organic control measures such as vermisuspension is one of the preferred methods in the field of organic crop cultivation, which increases yield, and is inexpensive, promotes plant growth through soil worms and various microorganisms. In this study, the effects of two different vermisuspension applications on the growth parameters of Myzus (N.) persicae Sulzer (Hemiptera: Aphididae) fed on the pepper were tested in climate rooms at 25±1 oC, 65±5% RH, and a photoperiod of 16:8 (L:D) h (5000 lux) conditions. Vermisuspensions were diluted 1/100 and applied to the pots by drinking method. Life table parameters were estimated according to age-stage, two-sex life table method. As a result of the study, while there was no significant difference between two different vermisuspension applications (VS1 and VS2), VS1 application was found to be more effective than the control application. Net reproductive rate (R0) (30.87 offspring/individual), intrinsic rate of increase (r) (0.2145 d-1) and finite rate of increase (λ) (1.2393 d-1 ) values on VS1 treated plants were lower than those obtained on control plants.

Kaynakça

  • Ağaçayak T., 2017. Kımyasal Gübre Kullanımının Çevresel Etkılerı ve Çözüm Önerileri Hükümetlerarası İklım Değışıklığı Panelı, Ipcc, Ekoıq. http://ekoiq.com/2017/03/17/kimyasal-gubre-kullaniminin-cevresel-etkileri-cozum-onerileri/ (Erişim tarihi: 20.05.2020).
  • Anonim, 2019. Solucan Gübresi http://www.agricentergroup.com/solucan-gubresi/ Erişim Tarihi: 28.02.2019.
  • Ansari A.A., Sukhraj K., 2010. Effect of vermiwash and vermicompost on soil parameters and productivity of okra (Abelmoschus esculentus) in Guyana. African Journal of Agricultural Research. 5(14):1794-1798.
  • Arancon N.Q., Edwards C.A., Atiyeh R., Metzger J.D., 2004. Effects of vermicomposts produced from food waste on the growth and yields of greenhouse peppers. Bioresource Technology 93, 139-144.
  • Arancon N.Q., Galvis P.A., Edvards C.A., 2005. Suppression of insect pest populations and damage to plants by vermicomposts. Bioresour Technol., 96(10): 1137-42.
  • Banfield-Zanin J.A., Rossiter J.T., Wright D.J., Leather S.R., Staley J.T., 2012. Predator mortality depends on whether its prey feeds on organic or conventionally fertilised plants. Biological control, 63(1), 56-61.
  • Bass C., Puinean A. M., Zimmer C. T., Denholm I., Field L. M., Foster S. P., Williamson M. S., 2014. The evolution of insecticide resistance in the peach potato aphid, Myzus persicae. Insect biochemistry and molecular biology, 51, 41-51.
  • Bass C., Puinean A.M., Andrews M., Cutler P., Daniels M., Elias J., Paul V.L., Crossthwaite A.J., Denholm I., Field L.M., Foster S.P., Lind R., Williamson M.S., Slater R., 2011. Mutation of a nicotinic acetylcholine receptor β subunit is associated with resistance to neonicotinoid insecticides in the aphid Myzus persicae. BMC Neurosci. 12():51.
  • Beanland L., Phelan P.L., Salminen S., 2003. Micronutrient interactions on soybean growth and the developmental performance of three insect herbivores. Environ Entomol. 32: 641-651.
  • Bellitürk K., 2018. Vermicomposting in Turkey: Challenges and Opportunities in Future. Eurasian Journal of Forest Science. 6 (4): 32-41.
  • Bellitürk K., Adiloğlu S., Solmaz Y., Zahmacıoğlu A., Adiloğlu A. 2017. Effects of increasing doses of vermicompost applications on P and K contents of pepper (Capsicum annuum L.) and Eggplant (Solanum melongena L.). Journal of Advanced Agricultural Technologies Vol, 4(4).
  • Cardoza Y.J., 2011. Arabidopsis Thaliana resistance to insects, mediated by an earthworm-produce organic soil amendment. Pest Manag Scientist, 67 (2) :233-8. doi: 10.1002/ps.2059.
  • Chattopadhyay A., 2015. Effect of vermiwash of Eisenia foetida produced by different methods on seed germination of green mung, Vigna radiate. International Journal of Recycling of Organic Waste in Agriculture. 4(4):233-237.
  • Chi H., 2019a. TWOSEX-MSChart: a computer program for the age-stage, two-sex life table analysis. National Chung Hsing University, Taichung, Taiwan. (http://140.120.197.173 /Ecology/Download/Twosex-MSChart.rar).
  • Chi, H. (2019b). TIMING-MSChart: a computer program for the population projection based on age-stage, two-sex life table. (http://140.120.197.173/Ecology/ Download/Timing-MSChart.zip).
  • Chi H., Su H.Y., 2006. Age-stage, two-sex life tables of Aphidius gifuensis (Ashmead) (Hymenoptera: Braconidae) and its host Myzus persicae (Sulzer) (Homoptera: Aphididae) with mathematical proof of the relationship between female fecundity and the net reproductive rate. Environmental Entomology,35: 10–21.
  • Deepa N., Kaur C., George B., Singh B., Kapoor H. C., 2007. Antioxidant constituents in some sweet pepper (Capsicum annuum L.) genotypes during maturity. LWT-Food Science and Technology, 40(1), 121-129.
  • Edwards C. A., Arancon N. Q., Emerson E., Pulliam R., 2007. Suppressing plant parasitic nematodes and arthropod pests with vermicompost teas. Biocycle, 48(12), 38-39.
  • Edwards C.A., 1995. A historical overview of vermicomposting. Biocycle, June, 56–58.
  • Efron B., Tibshirani R.J., 1993. An introduction to the bootstrap. Chapman & Hall, New York, NY.
  • Esakkiammal B., Lakshmibai L., Sornalatha S., 2015. Studies on the combined effect of vermicompost and vermiwash prepared from organic wastes by earthworms on the growth and yield parameters of dolichous lab Lab. Asian Journal of Pharmaceutical Science and Technology., 5(4):246-252.
  • Fenton B., Margaritopoulos J.T., Malloch G. L., Foster S.P., 2010. Micro‐evolutionary change in relation to insecticide resistance in the peach–potato aphid, Myzus persicae. Ecological Entomology, 35, 131-146.
  • Goodman D., 1982. Optimal life histories, optimal notation, and the value of reproductive value. Am. Nat. 119: 803-823.
  • Gopal M., Gupta A., Palaniswami C., Dhanapal R., Thomas G.V., 2010. Coconut leaf vermiwash: a bio-liquid from coconut leaf vermicompost for improving the crop production capacities. Current Science., 98:1202-1210.
  • Goundoudaki S., Tsitsipis J.A., Margaritopoulos J.T., Zarpas K.D., Divanidis S., 2003. Performance of the Tobacco aphid Myzus persicae (Hemiptera: Aphididae) on Oriental and Virginia Tobacco Varieties. Agric For Entomol 5:285–291.
  • Guarda G., Padovan S., Delogu G. 2004. Grain yield, nitrogen-use efficiency and baking quality of old and modern Italian bread-wheat cultivars grown at different nitrogen levels. European Journal of Agronomy, 21(2), 181-192.
  • Howard L.R., Talcott S.T., Brenes C.B., Villalon B., 2000. Changes in phytochemical and antioxidant activity of selected pepper cultivars (Capsicum spp.) as influenced by maturity. Journal of Agricultural and Food Chemistry 48: 1713-1720.
  • Huang Y. B., Chi H., 2012. Age-stage, two-sex life tables of Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae) with a discussion on the problem of applying female age-specific life tables to insect populations. Insect Sci. 19: 263–273.
  • Karacaoğlu Ç., 2013. Popülasyonun yapısı 6. Bölüm http://yunus.hacettepe .edu.tr/~cagasan /Er. Erişim tarihi: 10.09.2018.
  • Küçükyumuk Z., Gültekin M., Erdal İ., 2014. Vermikompost ve Mikorizanın Biber Bitkisinin Gelişimi ile Mineral Beslenmesi Üzerine Etkisi. Süleyman Demirel Üniversitesi Ziraat Fakültesi Dergisi 9 (1):51-58.
  • Lojek J.S., Orlob G.B., 1972. Transmission of tobacco mosaic virus by Myzus persicae. Journal of General Virology, 17(1): 125-127. Mardani-Talaee M., Razmjou J., Nouri-Ganbalani G., Hassanpour M., Naseri B. 2017. Impact of chemical, organic and bio-fertilizers application on bell pepper, Capsicum annuum L. and biological parameters of Myzus persicae (Sulzer)(Hem.: Aphididae). Neotropical entomology, 46(5), 578-586.
  • Mengistu T., Gebrekidan H., Kibret K., Woldetsadik K., Shimelis B., Yadav H., 2017. The integrated use of excreta-based vermicompost and inorganic NP fertilizer on tomato (Solanum lycopersicum L.) fruit yield, quality and soil fertility. International Journal of Recycling of Organic Waste in Agriculture, 6(1), 63-77.
  • Mishra K., Singh K., Tripathi C.P.M., 2014. Journal homepage: http://www. Journal. Ijar. Com. International Journal of Advanced Research. 2(1):780-789.
  • Mishra K., Singh K., Tripathi C.P.M., 2015. Organic farming of rice crop and management of infestation of Leptocorisa varicornis through combined effect of vermiwash with biopesticides. Research Journal of Science and Technology. 7(4):205-211.
  • Morales H., Perfecto I., Ferguson B., 2001. Traditional fertilization and its effect on corn insect populations in the Guatemalan highlands.Agric. Ecosyst. Environ. 84:145–155.
  • Mottaghinia L., Hasanpour M., Razmjou J., Chamani E., 2014. Effect of vermicompost on some biological parameters of the melon aphid, Aphis gossypii glover and the predatory gall midge aphidoletes aphidimyza rondani on two green house cucumber cultivars. Research Gate. https://www.researchgate.net/publication/330702087
  • Nath G., Singh K., 2012. Effect of vermiwash of different vermin composts on the kharif crops. Journal of Central European Agriculture, 13(2):379-402.
  • Nath G., Singh K., 2015. Combined Effect of Vermiwash with Biopesticides against Infestation of Pod Borer (Helicoverpa armigera Hub.). International Journal of Zoological Investigations, 1(1):40-51.
  • National Organic Standards Board (NOSB). 2002. Compost Tea Task Force Recommendations as amended by NOP. http://www.ams.usda.gov/nosb/archives/crop/ recommendations. html. (Erişim tarihi: 08.05.2020).
  • Nayak H., Rai S., Mahto R., Rani P., Yadav S., Prasad S. K., Singh R.K., 2019. Vermiwash: A potential tool for sustainable agriculture. Journal of Pharmacognosy and Phytochemistry, (5): 308-312.
  • Palukaitis P., García-Arenal F., 2003. Cucumoviruses. Advances in virus research, 62, 241-323.
  • Polat Akköprü E., Atlıhan R., Chi H., Okut H., 2015. Demographic assessment of plant cultivar resistance to insect pests: A casestudy of the Dusky-Veined Walnut Aphid (Hemiptera: Callaphididae) on five walnut cultivars. Journal of Economic Entomology. J Econ Entomol;108(2):378-87
  • Ravi M., Dhandapani N., Sathiah N., Murugan M., 2006. Influence of organic manures and fertilizers on the incidence of sucking pests of sunflower, Helianthus annuus L. Annals of Plant Protection Sciences, 14(1), 41-44.
  • Razmjou J., Vorburger C., Mohamedi M., Hasanpour M., 2011. Influence of vermicompost and cucumber cultivar on population growth of Aphis gossypii Glover. Journal of Applied Entomology 136(8).
  • Robert Y., Woodford,J.T., Ducray-Bourdin D.G. 2000. Some epidemiological approaches to the control of aphid-borne virus diseases in seed potato crops in northern Europe. Virus Research, 71(1-2), 33-47.
  • Samadhiya H., Dandotiya P., Chaturbedi J., Agarwal A.P., 2013. Effect of vermiwash on the growth and development of leaves and stem of tomato plants. International Journal of Current Research., 5(10):3020-3023.
  • Sayyad N.R., 2017. Utilization of vermiwash potential against insect pests of tomato. International Research Journal of biological Sciences. 6(1):44-46.
  • Scheuerell S., Mahaffee W., 2002. Compost “teas”: Principles and prospects for plant disease control. Compost Sci. Util. 10 (4), 313–335.
  • Sharov A., 2012. Population Ecology. Virginia Tech, VA, USA. http://home. comcast.net/~sharov/ popechome/ welcome.html.
  • Silva A.X., Samaniego H., Ramsey J., Figueroa C.C., PLoS O.N.E., 2012. Insecticide resistance mechanisms in the green peach aphid Myzus persicae (Hemiptera: Aphididae) I: a transcriptomic survey. doi: 10.1371/journal.pone.0036366.
  • Sinha R.K., Agarwal S., Chauhan K., Valani D., 2010. The wonders of earthworms & its vermicompost in farm production: Charles Darwin’s ‘friends of farmers’, with potential to replace destructive chemical fertilizers. Agricultural sciences, 1(02), 76.
  • Sundaravadivelan C., Isaiarasu L., Manimuthu M., Kumar P., Kuberan T., Anburaj J., 2011. Impact analysis and confirmative study of physico-chemical, nutritional and biochemical parameters of vermiwash produced from different leaf litters by using two earthworm species. Journal of Agricultural Technology. 7(5):1443-1457.
  • Talaee M.M., Ganblani G.N., Razmjou J., Hassanpour M., Naseri B., Asgharzadeh A., 2016. Effects of Chemical, Organic and Bio-Fertilizers on Some Secondary Metabolites in the Leaves of Bell Pepper (Capsicum annuum) and Their Impact on Life Table Parameters of Myzus persicae (Hemiptera: Aphididae). Journal of Economic Entomology, 109(3): 1231–1240.
  • The Food and Agriculture Organization Corporate Statistical Database. 2018. Pepper production quantities by country. (http://faostat3.fao.org, accessed 24 April 2019)
  • Tripathi G., Bhardwaj P., 2004. Comparative studies on biomass production, life cycles and composting efficiency of Eisenia fetida (Savigny) and Lampito mauritii (Kinberg). Bioresource technology, 92(3), 275-283.
  • Tripathi Y.C., Hazarika P., Pandey B.K., 2005. Vermicomposting: An ecofriendly approach to sustainable agriculture. In: Arvind Kumar (eds), Verms and vermitechnology. APH Publishing Corporation, New Delhi, 23-39.
  • Tuan S.J., Lee C.C., Chi H., 2014. Population and damage projection of Spodoptera litura (F.) on peanuts (Arachis hypogaea L.) under different conditions using the age-stage, two-sex life table. Pest Management Science, 70, 805–813 . Verma S., Singh A., Pradhan S.S., Singh R.K., Singh J.P., 2017. Bio-efficacy of organic formulations on crop production- a review. ınternational journal of current microbiology and Applied Sciences. 6(5):648-665.
  • Williams K. S. 1983. The coevolution of Euphydryas chalcedona butterflies and their larval hostplants, III. Oviposition behavior and hostplant quality.
  • Yardım E.N., Edwards C.A. 2003. Effects of organic and synthetic fertilizer sources on pest and predatory insects associated with tomatoes. Phytoparasitica, 31(4), 324-329.
  • Zambare V.P., Padul M.V., Yadav A.A., Shete T.B., 2008. Vermiwash: biochemical and biological approach as eco-friendly soil conditioner. ARPN Journal of Agricultural and Biological Sciences. 3(4):28-37.
Toplam 60 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Evin Polat Akköprü

Yayımlanma Tarihi 31 Mart 2021
Gönderilme Tarihi 15 Haziran 2020
Kabul Tarihi 1 Mart 2021
Yayımlandığı Sayı Yıl 2021

Kaynak Göster

APA Polat Akköprü, E. (2021). Vermisüspansiyon uygulamalarının biber (Capsicum annum L. Solanaceae) üzerinde beslenen Yeşil şeftali yaprakbiti [(Myzus (N.) persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine etkileri. Plant Protection Bulletin, 61(1), 49-59. https://doi.org/10.16955/bitkorb.753214
AMA Polat Akköprü E. Vermisüspansiyon uygulamalarının biber (Capsicum annum L. Solanaceae) üzerinde beslenen Yeşil şeftali yaprakbiti [(Myzus (N.) persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine etkileri. Plant Protection Bulletin. Mart 2021;61(1):49-59. doi:10.16955/bitkorb.753214
Chicago Polat Akköprü, Evin. “Vermisüspansiyon uygulamalarının Biber (Capsicum Annum L. Solanaceae) üzerinde Beslenen Yeşil şeftali Yaprakbiti [(Myzus (N.) Persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine Etkileri”. Plant Protection Bulletin 61, sy. 1 (Mart 2021): 49-59. https://doi.org/10.16955/bitkorb.753214.
EndNote Polat Akköprü E (01 Mart 2021) Vermisüspansiyon uygulamalarının biber (Capsicum annum L. Solanaceae) üzerinde beslenen Yeşil şeftali yaprakbiti [(Myzus (N.) persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine etkileri. Plant Protection Bulletin 61 1 49–59.
IEEE E. Polat Akköprü, “Vermisüspansiyon uygulamalarının biber (Capsicum annum L. Solanaceae) üzerinde beslenen Yeşil şeftali yaprakbiti [(Myzus (N.) persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine etkileri”, Plant Protection Bulletin, c. 61, sy. 1, ss. 49–59, 2021, doi: 10.16955/bitkorb.753214.
ISNAD Polat Akköprü, Evin. “Vermisüspansiyon uygulamalarının Biber (Capsicum Annum L. Solanaceae) üzerinde Beslenen Yeşil şeftali Yaprakbiti [(Myzus (N.) Persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine Etkileri”. Plant Protection Bulletin 61/1 (Mart 2021), 49-59. https://doi.org/10.16955/bitkorb.753214.
JAMA Polat Akköprü E. Vermisüspansiyon uygulamalarının biber (Capsicum annum L. Solanaceae) üzerinde beslenen Yeşil şeftali yaprakbiti [(Myzus (N.) persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine etkileri. Plant Protection Bulletin. 2021;61:49–59.
MLA Polat Akköprü, Evin. “Vermisüspansiyon uygulamalarının Biber (Capsicum Annum L. Solanaceae) üzerinde Beslenen Yeşil şeftali Yaprakbiti [(Myzus (N.) Persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine Etkileri”. Plant Protection Bulletin, c. 61, sy. 1, 2021, ss. 49-59, doi:10.16955/bitkorb.753214.
Vancouver Polat Akköprü E. Vermisüspansiyon uygulamalarının biber (Capsicum annum L. Solanaceae) üzerinde beslenen Yeşil şeftali yaprakbiti [(Myzus (N.) persicae Sulzer) (Hemiptera: Aphididae)]’nin popülasyon gelişimi üzerine etkileri. Plant Protection Bulletin. 2021;61(1):49-5.

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