Zararlılar İle Mücadelede Çevre Dostu Uygulamalar: Entomopatojen Nematodlar
References
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Tang, F. H., Lenzen, M., McBratney, A., et al. Risk of pesticide pollution at the global scale. Nature geoscience, 2021. 14(4), 206-210. doi:10.1038/s41561-021-00712-5
Arya, S., Kumar, R., Prakash, O., et al. Impact of insecticides on soil and environment and their management strategies. In Agrochemicals in soil and environment: Impacts and remediation. 2022. (pp. 213-230). Singapore: Springer Nature.
Goettel, M. S., & Glare, T. (2010). 11 Entomopathogenic fungi and their role in regulation of insect populations. Insect control: Biological and synthetic agents. 2010. p. 387-393.
Nickle, W.R. History, development, and importance of insect nematology. In: Nickle, W.R. (Ed.), Plant and Insect Nematodes. Marcel Dekker, New York, 1984. p. 627–653.
Nguyen, K.B., Hunt, D.J. Entomopathogenic Nematode: Systematics, Phylogeny and Bacterial Symbionts. Brill,, Leiden, the Netherlands, 2007. p. 816.
Glaser, R.W., Fox, H. A nematode parasite of the Japanese beetle (Popillia japonica Newm.). Science. 1930. 70, 16–17. doi: 10.1126/science.71.1827.16.c
Steiner, G. Neoaplectana glaseri n.g., n. sp. (Oxyuridae), a new nemic parasite of the Japanese beetle (Popillia japonica Newm.). J. Washington Acad. Sci. 1929: 19, 436–440.
Smart Jr., G.C. Entomopathogenic nematodes for the biological control of insects. J. Nematol. 1995. 27, 529–534 PMID: 19277318; PMCID: PMC2619649.
Kaya H.K., Gaugler R. Entomopathogenic nematodes. Annual Review of Entomology, 1993. 38: 181–206.
Laznik Ž., Tóth T., Lakatos T., et al. Control of the Colorado potato beetle (Leptinotarsa decemlineata [Say]) on potato under field conditions: a comparison of the efficacy of foliar application of two strains of Steinernema feltiae (Filipjev) and spraying with thiametoxam. Journal of Plant Disease Protection, 2010. 117: 129–135.
Bhat, A. H., Chaubey, A. K., & Askary, T. H. Global distribution of entomopathogenic nematodes, Steinernema and Heterorhabditis. Egyptian Journal of Biological Pest Control, 2020. 30(1), 1-15. https://doi.org/10.1186/s41938-020-0212-y
Zhang, C. X., Yang, S. Y., Xu, M. X., et al. A novel species of Serratia, family Enterobacteriaceae: Serratia nematodiphila sp.nov., symbiotically associated with entomopathogenic nematode Heterorhabditidoides chongmingensis (Rhabditida: Rhabditidae). Int. J. Syst. Evol. Microbiol. 2009. 59, 1603–1608.
Torres-Barragan, A., Suazo, A., Buhler, W. G., et al. Studies on the entomopathogenicity and bacterial associates of the nematode Oscheius carolinensis. Biol. Control. 2011. 59, 123–129.
Dillman, A. R., Chaston, J. M., Adams, B. J., et al. An entomopathogenic nematode by any other name. PLoS Pathogens 2012. 8:e1002527. https://doi.org/10.1371/journal.ppat.1002527
Koppenhöfer, A. M., Shapiro-Ilan, D. I., & Hiltpold, I. Entomopathogenic nematodes in sustainable food production. Frontiers in Sustainable Food Systems. 2020. 4, 125.
Lu, D., Macchietto, M., Chang, D., et al. Activated entomopathogenic nematode infective juveniles release lethal venom proteins. PLoS Pathogen, 2017 13:e1006302. https://doi.org/10.1371/journal.ppat.1006302
Lewis, E. E., and Clarke, D. J. “Nematode parasites and entomopathogens,” in Insect Pathology, eds E. F. Vega and H. K. Kaya (Amsterdam: Elsevier), 2012. p. 395–424.
Griffin, C. T. Behaviour and population dynamics of entomopathogenic nematodes following application. Nematode pathogenesis of insects and other pests: ecology and applied Technologies for sustainable plant and crop protection, 2015. p. 57-95.
Shapiro-Ilan, D. I., Hiltpold, I., and Lewis, E. E. “Ecology of invertebrate pathogens: nematodes,” in Ecology of Invertebrate Diseases, ed A. E. Hajek and D. I. Shapiro-Ilan (Hoboken, NJ: John Wiley & Sons, Ltd.), 2018. 415–440.
Baiocchi, T., Lee, G., Cho, D.-H., et al. Host seeking parasitic nematodes use specific odors to assess host resources. Sci. Rep. 2017 7:6270.
Rasmann, S., Köllner, T. G., Degenhardt, J., et al. Recruitment of entomopathogenic nematodes by insect-damaged maize roots. Nature 2015. 434, 732–737.
Helms, A. M., Ray, S., Matulis, N. L., et al. Chemical cues linked to risk: cues from below‐ground natural enemies enhance plant defences and influence herbivore behaviour and performance. Functional Ecology, 2019. 33(5), 798-808. https://doi.org/10.1111/1365-2435.13297
Boemare N.E., Laumond C., Mauleon H. The entomopathogenic nematode-bacterium complex: biology, life cycle and vertebrate safety. Biocontrol Science Technology, 1996. 6: 333–346. https://doi.org/10.1080/09583159631316
Tang, F. H., Lenzen, M., McBratney, A., et al. Risk of pesticide pollution at the global scale. Nature geoscience, 2021. 14(4), 206-210. doi:10.1038/s41561-021-00712-5
Arya, S., Kumar, R., Prakash, O., et al. Impact of insecticides on soil and environment and their management strategies. In Agrochemicals in soil and environment: Impacts and remediation. 2022. (pp. 213-230). Singapore: Springer Nature.
Goettel, M. S., & Glare, T. (2010). 11 Entomopathogenic fungi and their role in regulation of insect populations. Insect control: Biological and synthetic agents. 2010. p. 387-393.
Nickle, W.R. History, development, and importance of insect nematology. In: Nickle, W.R. (Ed.), Plant and Insect Nematodes. Marcel Dekker, New York, 1984. p. 627–653.
Nguyen, K.B., Hunt, D.J. Entomopathogenic Nematode: Systematics, Phylogeny and Bacterial Symbionts. Brill,, Leiden, the Netherlands, 2007. p. 816.
Glaser, R.W., Fox, H. A nematode parasite of the Japanese beetle (Popillia japonica Newm.). Science. 1930. 70, 16–17. doi: 10.1126/science.71.1827.16.c
Steiner, G. Neoaplectana glaseri n.g., n. sp. (Oxyuridae), a new nemic parasite of the Japanese beetle (Popillia japonica Newm.). J. Washington Acad. Sci. 1929: 19, 436–440.
Smart Jr., G.C. Entomopathogenic nematodes for the biological control of insects. J. Nematol. 1995. 27, 529–534 PMID: 19277318; PMCID: PMC2619649.
Kaya H.K., Gaugler R. Entomopathogenic nematodes. Annual Review of Entomology, 1993. 38: 181–206.
Laznik Ž., Tóth T., Lakatos T., et al. Control of the Colorado potato beetle (Leptinotarsa decemlineata [Say]) on potato under field conditions: a comparison of the efficacy of foliar application of two strains of Steinernema feltiae (Filipjev) and spraying with thiametoxam. Journal of Plant Disease Protection, 2010. 117: 129–135.
Bhat, A. H., Chaubey, A. K., & Askary, T. H. Global distribution of entomopathogenic nematodes, Steinernema and Heterorhabditis. Egyptian Journal of Biological Pest Control, 2020. 30(1), 1-15. https://doi.org/10.1186/s41938-020-0212-y
Zhang, C. X., Yang, S. Y., Xu, M. X., et al. A novel species of Serratia, family Enterobacteriaceae: Serratia nematodiphila sp.nov., symbiotically associated with entomopathogenic nematode Heterorhabditidoides chongmingensis (Rhabditida: Rhabditidae). Int. J. Syst. Evol. Microbiol. 2009. 59, 1603–1608.
Torres-Barragan, A., Suazo, A., Buhler, W. G., et al. Studies on the entomopathogenicity and bacterial associates of the nematode Oscheius carolinensis. Biol. Control. 2011. 59, 123–129.
Dillman, A. R., Chaston, J. M., Adams, B. J., et al. An entomopathogenic nematode by any other name. PLoS Pathogens 2012. 8:e1002527. https://doi.org/10.1371/journal.ppat.1002527
Koppenhöfer, A. M., Shapiro-Ilan, D. I., & Hiltpold, I. Entomopathogenic nematodes in sustainable food production. Frontiers in Sustainable Food Systems. 2020. 4, 125.
Lu, D., Macchietto, M., Chang, D., et al. Activated entomopathogenic nematode infective juveniles release lethal venom proteins. PLoS Pathogen, 2017 13:e1006302. https://doi.org/10.1371/journal.ppat.1006302
Lewis, E. E., and Clarke, D. J. “Nematode parasites and entomopathogens,” in Insect Pathology, eds E. F. Vega and H. K. Kaya (Amsterdam: Elsevier), 2012. p. 395–424.
Griffin, C. T. Behaviour and population dynamics of entomopathogenic nematodes following application. Nematode pathogenesis of insects and other pests: ecology and applied Technologies for sustainable plant and crop protection, 2015. p. 57-95.
Shapiro-Ilan, D. I., Hiltpold, I., and Lewis, E. E. “Ecology of invertebrate pathogens: nematodes,” in Ecology of Invertebrate Diseases, ed A. E. Hajek and D. I. Shapiro-Ilan (Hoboken, NJ: John Wiley & Sons, Ltd.), 2018. 415–440.
Baiocchi, T., Lee, G., Cho, D.-H., et al. Host seeking parasitic nematodes use specific odors to assess host resources. Sci. Rep. 2017 7:6270.
Rasmann, S., Köllner, T. G., Degenhardt, J., et al. Recruitment of entomopathogenic nematodes by insect-damaged maize roots. Nature 2015. 434, 732–737.
Helms, A. M., Ray, S., Matulis, N. L., et al. Chemical cues linked to risk: cues from below‐ground natural enemies enhance plant defences and influence herbivore behaviour and performance. Functional Ecology, 2019. 33(5), 798-808. https://doi.org/10.1111/1365-2435.13297
Boemare N.E., Laumond C., Mauleon H. The entomopathogenic nematode-bacterium complex: biology, life cycle and vertebrate safety. Biocontrol Science Technology, 1996. 6: 333–346. https://doi.org/10.1080/09583159631316
Pages
131-138
Published
January 13, 2025
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