Biological features of entomopathogenic fungi strains Beauveria bassiana, perspective for the creation of mycoinsecticides
DOI:
https://doi.org/10.26577/eb-2018-1-1314Abstract
One of the ways to suppress harmful phytophages is a microbiological method of protection. Entomopathogenic fungi are promising agents of biological control in the fight against insects - pests of agriculture and forestry. Biopreparations, based on entomopathogenic fungi Beauveria bassiana, lead to mass reproduction and distribution resulting in epizootics occurrence. A wide range of biological activity of ascomycete Beauveria bassiana and a safety in relation to animals, humans and plants allows the use of mycoinsecticides based on the fungi in agriculture and forestry. The migratory locust, the Colorado beetle and Ips hauseri are highly sensitive to fungi cultures isolated from the bark beetles. A similar susceptibility to the entomopathogenic fungus Beauveria bassiana is observed among these pests. The main purpose of the work is to assess the biological activity of the studied strains on insects from different systematic groups, as well as the evaluation of mycelial growth in the temperature range of 15-30°C in isolates of the entomopathogenic fungus Beauveria bassiana. Two new strains of Beauveria genus, that have a sufficiently high virulence for test insects, have been selected as a promising producer strains for the production of mycoinsecticides. In addition, temperature preferences are determined for the studied fungal cultures and optimal titers of the working suspension are selected.
Key words: entomopathogenic fungi, Beauveria bassiana, virulence, thermotolerance, mycoinsecticide.
References
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2. Tarocco F, Lecuona RE, Couto AS, Arcas JA. Optimization of erythritol and glycerol accumulation in conidia of Beauveria bassiana by solid-state fermentation, using response surface methodology // Appl Microbiol Biotechnol. – 2005. – Vol. 68 – P. 481–488.
3. Taylor B, Edgington S, Luke B, Moore D. Yield and germination of the entomopathogenic fungus Beauveria bassiana when grown on different rice preparations // J Stored Prod Res. – 2013. – Vol. 53 – P.23–26.
4. Gouli V, Gouli S, Kim JS. Production of Beauveria bassiana Air conidia by means of optimization of biphasic system technology // Braz Arch Biol Technol. – 2014. – Vol. 57. – P. 571–577.
5. Donadio S., Monciardini P., Alduina R. et al. Microbial technologies for the discovery of novel bioactive metabolites // Biotechnology. – 2012. – Vol. 99. – P. 187-198.
6. Fang WJ, Leng B, Xiao YH, Jin K, Ma JC, Fan YH, et al. Cloning of Beauveria bassiana chitinase gene Bbchit1 and its application to improve fungal strain virulence // Appl Environ Microbiol. – 2005. – Vol. 71. – P. 363–370.
7. Faria M.R., Wraight S.P. Mycoinsecticides and Mycoacaricides: A comprehensive list with worldwide coverage and international classification of formulation types // Biol Control. 2007. – Vol. 43. – P. 237–256.
8. Li MY., Li SG., Xu AM., Lin HF., Chen DX., Wang H. Selection of Beauveria isolates pathogenic to adults of Nilaparvata lugens // Journal of Insect Science. – 2014. – Vol. 14. – P. 32.
9. Jin SF, Feng MG, Chen JQ. Selection of global Metarhizium isolates for the control of the rice pest Nilaparvata lugens (Homoptera: Delphacidae) // Pest Manag Sci. – 2008. – Vol. 64. –P. 1008-1014.
10. Schrank A, Vainstein MH. Metarhizium anisopliae enzymes and toxins // Toxicon. – 2010. – Vol. 56. – P. 1267-1274.
11. Thomas K.C., Khachatourians G.G., Ingledew W.M. Production and properties of Beauveria bassiana conidia cultivated in submerged culture // Can. Microbiol. – 1986. – Vol. 33. – P. 12–20.
12. Fargues J., Luz C. Effects of fluctuating moisture and temperature regimes on the infection potential of Beauveria bassiana for Rhodnius prolixus // Invert Pathol. – 2000. – Vol. 75. – P. 202–211.
13. Fargues J., Maniania N.K., Delmas J.C., Smits N. Influence of temperature on in vitro growth of entomopathogenic hyphomycetes // Agronomie. - 1992. - Vol. 12. - P. 557-564.
14. Ouedraogo A., Fargues J., Goettel M.S., Lomer C.J. Effect of temperature on vegetative growth among isolates of Metarhizium anisopliae and M. flavoviride // Mycopathologia. - 1997. - Vol. 137. - P. 37-43.
15. Wraight S.P., Inglis G.D., Goettel M.S. Field manual of techniques in invertebrate pathology. Application and evaluation of pathogens for control of insects and other invertebrate pests // Springer. – Dordrecht, Netherlands, 2007. - P. 223-248.
16. De Crecy E., Jaronski S., Lyons B., Lyons T.J., Keyhani N.O. Directed evolution of a filamentous fungus for thermotolerance // BMC Biotechnology. - 2009. – Vol. 9. - P. 74.
17. Fernandes E.K.K., Rangel D.E.N., Moraes A.M.L., Bittencourt V.R.E.P., Roberts D.W. Cold activity of Beauveria and Metarhizium, and thermotolerance of Beauveria // J. Invertebr. Pathol. - 2008. - Vol. 98. - P. 69-78.
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21. Леднев Г.Р., Абдукерим Р., Успанов А.М., Сабитова М.Н., Каменова А.С., Левченко М.В., Дуйсембеков Б.А. Энтомопатогенные грибы в популяциях жуков-короедов в предгорьях Заилийского Алатау // Вестник защиты растений. – 2016. - №3. – С. 93-94.
22. Лачининский А.В., Сергеев М.Г., Чильдебаев М.К., Черняховский М.Е., Локвуд Дж. А., Камбулин В.Е., Гаппаров Ф.А. Саранчовые Казахстана, Средней Азии и сопредельных территорий. – Ларами: Международная Ассоциация Прикладной Акридологии и Университет Вайоминга. – 2002. – 387 с.
23. Хабибуллина Ф.М. Основы микробиологии и биотехнологии: сб. описаний лабораторных работ для подготовки дипломированного специалиста по направлению 656600 «Защита окружающей среды» спец. 280201 «Охрана окружающей среды и рациональное использование природных ресурсов» оч. и оч.-заоч. форм обуч. – Сыктывкар. - 2007. – 36 с.
24. Леднев Г. Р., Борисов Б. А., Митина Г. В. Возбудители микозов насекомых: пособие по диагностике. – СПб.: Всерос. НИИ защиты растений. - 2003. – 79 с.
25. Успанов А.М. Биологическое обоснование отбора штаммов гриба Beauveria bassiana S.L. для снижения численности саранчовых в Казахстане. – Дисс. Успанов А.М. канд.биол.наук. – СПб., 2013. – 123 с.
References
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2. De Crecy E., Jaronski S., Lyons B., Lyons T.J., Keyhani N.O. (2009) Directed evolution of a filamentous fungus for thermotolerance. BMC Biotechnology, vol. 9, pp. 74.
3. Donadio S., Monciardini P., Alduina R. et al. (2012) Microbial technologies for the discovery of novel bioactive metabolites. Biotechnology, vol. 99, pp. 187-198.
4. Fang WJ, Leng B, Xiao YH, Jin K, Ma JC, Fan YH, et al. (2005) Cloning of Beauveria bassiana chitinase gene Bbchit1 and its application to improve fungal strain virulence. Appl Environ Microbiol., vol. 71, pp. 363–370.
5. Faria M.R., Wraight S.P. (2007) Mycoinsecticides and Mycoacaricides: A comprehensive list with worldwide coverage and international classification of formulation types. Biol Control., vol. 43, pp. 237–256.
6. Fargues J., Luz C. (2000) Effects of fluctuating moisture and temperature regimes on the infection potential of Beauveria bassiana for Rhodnius prolixus. Invert Pathol., vol. 75, pp. 202–211.
7. Fargues J., Maniania N.K., Delmas J.C., Smits N. (1992) Influence of temperature on in vitro growth of entomopathogenic hyphomycetes. Agronomie, vol. 12, pp. 557-564.
8. Fernandes E.K.K., Rangel D.E.N., Moraes A.M.L., Bittencourt V.R.E.P., Roberts D.W. (2008) Cold activity of Beauveria and Metarhizium, and thermotolerance of Beauveria. J. Invertebr. Pathol., vol. 98, pp. 69-78.
9. Gouli V, Gouli S, Kim JS. (2014) Production of Beauveria bassiana Air conidia by means of optimization of biphasic system technology. Braz Arch Biol Technol., vol. 57, pp. 571–577.
10. Habibullina F.M. (2007) Osnovyi mikrobiologii i biotehnologii: sb. opisaniy laboratornyih rabot dlya podgotovki diplomirovannogo spetsialista po napravleniyu 656600 «Zaschita okruzhayuschey sredyi» spets. 280201 «Ohrana okruzhayuschey sredyi i ratsionalnoe ispolzovanie prirodnyih resursov» och. i och.-zaoch. form obuch. [Fundamentals of microbiology and biotechnology: Sat. descriptions of laboratory works for the preparation of a graduate in the direction 656600 "Protection of the environment" special. 280201 "Environmental protection and rational use of natural resources" full-time and part-time forms of training]. Syiktyivkar, pp. 36.
11. Jin SF, Feng MG, Chen JQ. (2008) Selection of global Metarhizium isolates for the control of the rice pest Nilaparvata lugens (Homoptera: Delphacidae). Pest Manag Sci., vol. 64, pp. 1008-1014.
12. Kazenas V.L., Temreshev I.I., Esenbekova P.A. (2016) Obzor sanitarnogo sostoyaniya hvoynyh lesov v mestah vetrovala v Ile-Alatauskom Gosudarstvennom Natsionalnom prirodnom parke (Kazahstan) v 2011-2015 gg. [The review of the sanitary condition of coniferous forests in places was winded in the Ile-Alatau State National Natural Park (Kazakhstan) in 2011-2015]. Nature Conservation Research. Zapov, nauka, vol. 1, pp. 23-37.
13. Kryukov V.Yu., Lednev G.R., Dubovskiy I.M., Serebrov V.V., Levchenko M.V., Hodyirev V.P., Sagitov A.O., Glupov V.V. (2007) Perspektivyi primeneniya entomopatogennyih gifomitsetov (Deuteromycota, Hyphomycetes) dlya regulyatsii chislennosti nasekomyih [Prospects for the use of entomopathogenic hyphomycetes (Deuteromycota, Hyphomycetes) for the regulation of insect numbers]. Evroaziatskiy entomologicheskiy zhurnal, vol. 2, pp. 195-204.
14. Lachininskiy A.V., Sergeev M.G., Childebaev M.K., Chernyahovskiy M.E., Lokvud Dzh. A., Kambulin V.E., Gapparov F.A. (2002) Saranchovyie Kazahstana, Sredney Azii i sopredelnyih territoriy [Locusts of Kazakhstan, Central Asia and adjacent territories]. Larami: Mezhdunarodnaya Assotsiatsiya Prikladnoy Akridologii i Universitet Vayominga, pp. 387.
15. Lednev G. R., Borisov B. A., Mitina G. V. (2003) Vozbuditeli mikozov nasekomyih: posobie po diagnostike [Pathogens of insect mycoses: a diagnostic manual]. SPb.: Vseros. NII zaschityi rasteniy, pp. 79.
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17. Li MY., Li SG., Xu AM., Lin HF., Chen DX., Wang H. (2014) Selection of Beauveria isolates pathogenic to adults of Nilaparvata lugens. Journal of Insect Science, vol. 14, pp. 32.
18. Ouedraogo A., Fargues J., Goettel M.S., Lomer C.J. (1997) Effect of temperature on vegetative growth among isolates of Metarhizium anisopliae and M. flavoviride. Mycopathologia, vol. 137, pp. 37-43.
19. Schrank A, Vainstein MH. (2010) Metarhizium anisopliae enzymes and toxins. Toxicon, vol. 56, pp. 1267-1274.
20. Tarocco F, Lecuona RE, Couto AS, Arcas JA. (2005) Optimization of erythritol and glycerol accumulation in conidia of Beauveria bassiana by solid-state fermentation, using response surface methodology. Appl Microbiol Biotechnol., vol. 68, pp. 481–488.
21. Taylor B, Edgington S, Luke B, Moore D. (2013) Yield and germination of the entomopathogenic fungus Beauveria bassiana when grown on different rice preparations. J Stored Prod Res., vol. 53, pp. 23–26.
22. Thomas K.C., Khachatourians G.G., Ingledew W.M. (1986) Production and properties of Beauveria bassiana conidia cultivated in submerged culture. Can. Microbiol., vol. 33, pp. 12–20.
23. Uspanov A.M. (2013) Biologicheskoe obosnovanie otbora shtammov griba Beauveria bassiana S.L. dlya snizheniya chislennosti saranchovyih v Kazahstane [Biological substantiation of the selection of strains of the fungus Beauveria bassiana S.L. to reduce the number of locusts in Kazakhstan]. Diss. Uspanov A.M. kand.biol.nauk, pp. 123.
24. Wraight S.P., Inglis G.D., Goettel M.S. (2007) Field manual of techniques in invertebrate pathology. Application and evaluation of pathogens for control of insects and other invertebrate pests. Springer, pp. 223-248.
25. Xiao G., Ying S., Zheng P., Wang Z., Zhang S., Xie X., Shang Y., et al. (2012) Genomic perspectives on the evolution of fungal entomopathogenicity in Beauveria bassiana. Scientific reports, vol. 2, pp. 483.
2. Tarocco F, Lecuona RE, Couto AS, Arcas JA. Optimization of erythritol and glycerol accumulation in conidia of Beauveria bassiana by solid-state fermentation, using response surface methodology // Appl Microbiol Biotechnol. – 2005. – Vol. 68 – P. 481–488.
3. Taylor B, Edgington S, Luke B, Moore D. Yield and germination of the entomopathogenic fungus Beauveria bassiana when grown on different rice preparations // J Stored Prod Res. – 2013. – Vol. 53 – P.23–26.
4. Gouli V, Gouli S, Kim JS. Production of Beauveria bassiana Air conidia by means of optimization of biphasic system technology // Braz Arch Biol Technol. – 2014. – Vol. 57. – P. 571–577.
5. Donadio S., Monciardini P., Alduina R. et al. Microbial technologies for the discovery of novel bioactive metabolites // Biotechnology. – 2012. – Vol. 99. – P. 187-198.
6. Fang WJ, Leng B, Xiao YH, Jin K, Ma JC, Fan YH, et al. Cloning of Beauveria bassiana chitinase gene Bbchit1 and its application to improve fungal strain virulence // Appl Environ Microbiol. – 2005. – Vol. 71. – P. 363–370.
7. Faria M.R., Wraight S.P. Mycoinsecticides and Mycoacaricides: A comprehensive list with worldwide coverage and international classification of formulation types // Biol Control. 2007. – Vol. 43. – P. 237–256.
8. Li MY., Li SG., Xu AM., Lin HF., Chen DX., Wang H. Selection of Beauveria isolates pathogenic to adults of Nilaparvata lugens // Journal of Insect Science. – 2014. – Vol. 14. – P. 32.
9. Jin SF, Feng MG, Chen JQ. Selection of global Metarhizium isolates for the control of the rice pest Nilaparvata lugens (Homoptera: Delphacidae) // Pest Manag Sci. – 2008. – Vol. 64. –P. 1008-1014.
10. Schrank A, Vainstein MH. Metarhizium anisopliae enzymes and toxins // Toxicon. – 2010. – Vol. 56. – P. 1267-1274.
11. Thomas K.C., Khachatourians G.G., Ingledew W.M. Production and properties of Beauveria bassiana conidia cultivated in submerged culture // Can. Microbiol. – 1986. – Vol. 33. – P. 12–20.
12. Fargues J., Luz C. Effects of fluctuating moisture and temperature regimes on the infection potential of Beauveria bassiana for Rhodnius prolixus // Invert Pathol. – 2000. – Vol. 75. – P. 202–211.
13. Fargues J., Maniania N.K., Delmas J.C., Smits N. Influence of temperature on in vitro growth of entomopathogenic hyphomycetes // Agronomie. - 1992. - Vol. 12. - P. 557-564.
14. Ouedraogo A., Fargues J., Goettel M.S., Lomer C.J. Effect of temperature on vegetative growth among isolates of Metarhizium anisopliae and M. flavoviride // Mycopathologia. - 1997. - Vol. 137. - P. 37-43.
15. Wraight S.P., Inglis G.D., Goettel M.S. Field manual of techniques in invertebrate pathology. Application and evaluation of pathogens for control of insects and other invertebrate pests // Springer. – Dordrecht, Netherlands, 2007. - P. 223-248.
16. De Crecy E., Jaronski S., Lyons B., Lyons T.J., Keyhani N.O. Directed evolution of a filamentous fungus for thermotolerance // BMC Biotechnology. - 2009. – Vol. 9. - P. 74.
17. Fernandes E.K.K., Rangel D.E.N., Moraes A.M.L., Bittencourt V.R.E.P., Roberts D.W. Cold activity of Beauveria and Metarhizium, and thermotolerance of Beauveria // J. Invertebr. Pathol. - 2008. - Vol. 98. - P. 69-78.
18. Крюков В.Ю., Леднев Г.Р., Дубовский И.М., Серебров В.В., Левченко М.В., Ходырев В.П., Сагитов А.О., Глупов В.В. Перспективы применения энтомопатогенных гифомицетов (Deuteromycota, Hyphomycetes) для регуляции численности насекомых // Евроазиатский энтомологический журнал. – 2007. – №2. – С. 195–204.
19. Чекмарев П.А. Удобрения, урожай и качество клубней // Картофель и овощи. – 2006. – №8. – С. 10.
20. Казенас В.Л., Темрешев И.И., Есенбекова П.А. Обзор санитарного состояния хвойных лесов в местах ветровала в Иле-Алатауском Государственном Национальном природном парке (Казахстан) в 2011-2015 гг. // Nature Conservation Research. Запов. наука. – 2016. - №1. – С. 23-37.
21. Леднев Г.Р., Абдукерим Р., Успанов А.М., Сабитова М.Н., Каменова А.С., Левченко М.В., Дуйсембеков Б.А. Энтомопатогенные грибы в популяциях жуков-короедов в предгорьях Заилийского Алатау // Вестник защиты растений. – 2016. - №3. – С. 93-94.
22. Лачининский А.В., Сергеев М.Г., Чильдебаев М.К., Черняховский М.Е., Локвуд Дж. А., Камбулин В.Е., Гаппаров Ф.А. Саранчовые Казахстана, Средней Азии и сопредельных территорий. – Ларами: Международная Ассоциация Прикладной Акридологии и Университет Вайоминга. – 2002. – 387 с.
23. Хабибуллина Ф.М. Основы микробиологии и биотехнологии: сб. описаний лабораторных работ для подготовки дипломированного специалиста по направлению 656600 «Защита окружающей среды» спец. 280201 «Охрана окружающей среды и рациональное использование природных ресурсов» оч. и оч.-заоч. форм обуч. – Сыктывкар. - 2007. – 36 с.
24. Леднев Г. Р., Борисов Б. А., Митина Г. В. Возбудители микозов насекомых: пособие по диагностике. – СПб.: Всерос. НИИ защиты растений. - 2003. – 79 с.
25. Успанов А.М. Биологическое обоснование отбора штаммов гриба Beauveria bassiana S.L. для снижения численности саранчовых в Казахстане. – Дисс. Успанов А.М. канд.биол.наук. – СПб., 2013. – 123 с.
References
1. Chekmarev P.A. (2006) Udobreniya, urozhay i kachestvo klubney [Fertilizers, yield and quality of tubers]. Kartofel i ovoschi, vol. 8, pp. 10.
2. De Crecy E., Jaronski S., Lyons B., Lyons T.J., Keyhani N.O. (2009) Directed evolution of a filamentous fungus for thermotolerance. BMC Biotechnology, vol. 9, pp. 74.
3. Donadio S., Monciardini P., Alduina R. et al. (2012) Microbial technologies for the discovery of novel bioactive metabolites. Biotechnology, vol. 99, pp. 187-198.
4. Fang WJ, Leng B, Xiao YH, Jin K, Ma JC, Fan YH, et al. (2005) Cloning of Beauveria bassiana chitinase gene Bbchit1 and its application to improve fungal strain virulence. Appl Environ Microbiol., vol. 71, pp. 363–370.
5. Faria M.R., Wraight S.P. (2007) Mycoinsecticides and Mycoacaricides: A comprehensive list with worldwide coverage and international classification of formulation types. Biol Control., vol. 43, pp. 237–256.
6. Fargues J., Luz C. (2000) Effects of fluctuating moisture and temperature regimes on the infection potential of Beauveria bassiana for Rhodnius prolixus. Invert Pathol., vol. 75, pp. 202–211.
7. Fargues J., Maniania N.K., Delmas J.C., Smits N. (1992) Influence of temperature on in vitro growth of entomopathogenic hyphomycetes. Agronomie, vol. 12, pp. 557-564.
8. Fernandes E.K.K., Rangel D.E.N., Moraes A.M.L., Bittencourt V.R.E.P., Roberts D.W. (2008) Cold activity of Beauveria and Metarhizium, and thermotolerance of Beauveria. J. Invertebr. Pathol., vol. 98, pp. 69-78.
9. Gouli V, Gouli S, Kim JS. (2014) Production of Beauveria bassiana Air conidia by means of optimization of biphasic system technology. Braz Arch Biol Technol., vol. 57, pp. 571–577.
10. Habibullina F.M. (2007) Osnovyi mikrobiologii i biotehnologii: sb. opisaniy laboratornyih rabot dlya podgotovki diplomirovannogo spetsialista po napravleniyu 656600 «Zaschita okruzhayuschey sredyi» spets. 280201 «Ohrana okruzhayuschey sredyi i ratsionalnoe ispolzovanie prirodnyih resursov» och. i och.-zaoch. form obuch. [Fundamentals of microbiology and biotechnology: Sat. descriptions of laboratory works for the preparation of a graduate in the direction 656600 "Protection of the environment" special. 280201 "Environmental protection and rational use of natural resources" full-time and part-time forms of training]. Syiktyivkar, pp. 36.
11. Jin SF, Feng MG, Chen JQ. (2008) Selection of global Metarhizium isolates for the control of the rice pest Nilaparvata lugens (Homoptera: Delphacidae). Pest Manag Sci., vol. 64, pp. 1008-1014.
12. Kazenas V.L., Temreshev I.I., Esenbekova P.A. (2016) Obzor sanitarnogo sostoyaniya hvoynyh lesov v mestah vetrovala v Ile-Alatauskom Gosudarstvennom Natsionalnom prirodnom parke (Kazahstan) v 2011-2015 gg. [The review of the sanitary condition of coniferous forests in places was winded in the Ile-Alatau State National Natural Park (Kazakhstan) in 2011-2015]. Nature Conservation Research. Zapov, nauka, vol. 1, pp. 23-37.
13. Kryukov V.Yu., Lednev G.R., Dubovskiy I.M., Serebrov V.V., Levchenko M.V., Hodyirev V.P., Sagitov A.O., Glupov V.V. (2007) Perspektivyi primeneniya entomopatogennyih gifomitsetov (Deuteromycota, Hyphomycetes) dlya regulyatsii chislennosti nasekomyih [Prospects for the use of entomopathogenic hyphomycetes (Deuteromycota, Hyphomycetes) for the regulation of insect numbers]. Evroaziatskiy entomologicheskiy zhurnal, vol. 2, pp. 195-204.
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Published
2018-07-07
How to Cite
Serzhanova, S., Rakhimbaeva, S., Tulebaeva, D., Uspanova, A., Uspanov, A., Duisembekov, B., & Orazova, S. (2018). Biological features of entomopathogenic fungi strains Beauveria bassiana, perspective for the creation of mycoinsecticides. Experimental Biology, 74(1), 42–50. https://doi.org/10.26577/eb-2018-1-1314
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BIOTECHNOLOGY
