Ключевые слова
насекомые; вид; отряд; видовой состав; биоразнообразие; балл; индекс; индикатор; экологическое состояние; территории; Южный Казахстан
Как цитировать
Slivinsky, S. G., Kazenas, V. L., & Temreshev, I. I. (2019). Биоразнообразие насекомых как показатель экологического состояния территорий юга Казахстана. Acta Biologica Sibirica, 5(1), 122-132. https://doi.org/10.14258/abs.v5.i1.5347
Аннотация
Представлены результаты визуальных полевых учетов состава индикаторных видов насекомых и их численности, выраженной в баллах, для природных и антропогенно трансформированных территорий юга Казахстана. Выяснена информативность различных индексов видового разнообразия насекомых при пятибалльной оценке численности. Для исследованных территорий наиболее информативными показателями по диапазону изменчивости было число зарегистрированных видов, а также индекс полидоминантности и индекс Маргалефа. При использованных стандартных условиях визуальных учетов между числом всех отмеченных индикаторных видов, а также числом видов из отдельных отрядов (х) и их численностью в баллах (у) установлена линейная зависимость вида y= 2,8x. Полученные данные позволяют считать, что разнообразие индикаторных видов насекомых может быть наиболее простым и информативным региональным показателем экологического состояния отдельных территорий.
Литература
Barsov, V.A., & Karnaukhova, N.V. (1993). Evaluation of the characteristics of the terrestrial entomofauna to indicate pollution of steppe ecosystems. Bulletin of the Dnipropetrovsk University: Series Biology and Ecology. 1, 50. (In Russian).
Bohac, J. (1999). Staphylinid beetles as bioindicators. Agriculture, Ecosystems and Environment. 74, 357-372. https://doi.org/10.1016/S0167-8809(99)00043-2
Christie, F.J., & Hochuli, D.F. (2009). Responses of wasp communities to urbanizations: effects on community resilience and species diversity. Journal of Insect Conservation. 13, 213-221. https://doi.org/10.1007/s10841-008-9146-5
Folgarait, P.J. (1998). Ant biodiversity and its relationship to ecosystem functioning: a review. Biodiversity and Conservation. 7, 1221-1244. https://doi.org/10.1023/A:1008891901953
Gaston, K.J., Warren, P.H., Thompson, K., & Smith, R.M. (2005). Urban domestic gardens (IV): the extent of the resources and its associated features. Biodiversity and Conservation. 14, 3327-3349. https://doi.org/10.1007/s10531-004-9513-9
Gorbach, V.V., & Saarinen, K. (2012). Estimation of occurrence and relative abundance of species in faunistic studies using the example of Finnish daytime butterflies (Lepidoptera: Hesperioidea, Papilionoidea). Principles of Ecology. 2, 45-53. DOI: 10.15393 / j1.art.2012.1087 (In Russian).
Gu, W., Ma, L., Ding, X.H., Zhang, J., & Han, Z.W. (2011). Insect diversity of different habitat types in Zhalong Wetland, northeast China. Ying Yong Sheng Tai Xue Bao. 22 (9), 2405-2412.
Duelli, P., & Obrist, M.K. (2003). Biodiversity indicators: the choice of values and measures. Agriculture, Ecosystems and Environment. 98, 87-98. https://doi.org/10.1016/S0167-8809(03)00072-0
Еyre, M.D., & Luff, M.L. (2004). Ground beetle species (Coleoptera, Carabidae) associations with land cover variables in northern England and southern Scotland. Ecography. 27, 417-426. https://doi.org/10.1111/j.0906-7590.2004.03757.x
Hornung, E., Tothmeresz, B., Magura, T., & Vilisics, F. (2007). Changes of isopod assmeblages along an urban-suburbanrural gradient in Hungary. European Journal of Soil Biology. 43, 158-165. https://doi.org/10.1016/-j.ejsobi.2007.01.001
Jana, G., Misra, K.K., & Bhattacharya, T. (2006). Diversity of some insect fauna in industrial and non-industrial areas of West Bengal, India. Journal of Insect Conservation. 10, 249. https://doi.org/10.1007/s10841-005-5094-5.
Jones, E.L., & Leather, S.R. (2012). Invertebrates in urban areas: A review. European Journal of Entomology. 109 (4), 463-478. https://doi.org/10.14411/eje.2012.060
Kascheev, V.A., & Kazenas, V.L. (2011). The basic principles of zoological monitoring of ecosystems of specially protected natural territories of Kazakhstan (on the example of invertebrates). Selevinia, 189-197. (In Russian).
Kozlov, M.V. (1990). The influence of anthropogenic factors on the population of terrestrial insects. Results of science and technology. Series Entomology, 13-192. (In Russian).
Kuznetsova, I.A., Golovatin, M.G., Gilev, A.V. Gorodilova Yu.V., Pustovalova, L.A., Erokhina, O.V., Stavishenko, I.V., Stepanov, L.N., Gileva, O.V., Zakharova, E.Yu., Oslina, T.S., Lyakhov, A.G., Vurdova, I.F., Sysoev, V.A., Sineva, N.V., Chibiryak, M.V. (2015). Specially Protected Natural Territories of the Sverdlovsk Region: Monitoring of the State of the Natural Environment. Ed. I.A. Kuznetsova. Ekaterinburg: Ural University Publishing House, 189. (In Russian).
Lebedeva, N.V., Krivolutsky, D.A., Puzachenko, Yu.G., Diyakonov, K.N., Aleshchenko, G.M., Smurov, A.V., Maksimov, V.N., Tikunov, V.S., Ogureeva, G.N., & Kotova, Т.V. (2002). Geography and monitoring of biodiversity. M.: Izd. Scientific and educational center, 432. (In Russian).
Litvinova, N.F., Guseva, V.S., & Vorontsova, L.I. (1991). Some regularities of anthropogenic succession of vegetation and locust population in the conditions of the dry steppes of the Lower Volga region. Animal world of the European part of Russia, its study, use and protection. M., 33-40. (In Russian).
Marttila, O., Saarinen, K., & Jantunen, J. (1999). The national butterfly recording scheme in Finland: first seven-year period 1991-1997. Nota lepidopterologica. 22. 1, 17-34.
Mauricio da Rocha, J.R., Almeida, J.R., Lins, G.A., & Durval, A. (2010). Insects as indicators of environmental changing and pollution: a review of appropriate species and their monitoring. Holos Environment. 10, 2. 250.
McGeoch, M.A. (2007). Insects and bioindication: theory and progress. In book: Insect conservation biology. Editors Stewart, A.J.A., New, T.R., Lewis, O.T. Chapter 7, 144.
Paly, V.F. (1965). On the determination of the abundance of faunistic studies. Collection of entomological works. Frunze, 112-121 (In Russian).
Pesenko, Yu.A. (1982). Principles and methods of quantitative analysis in faunistic studies. M.: Science, 287. (In Russian).
Santana, A.P., & Isaias, R.M.S. (2014). Galling insects are bioindicators of environmental quality in a Conservation Unit. Acta Botanica Brasilica. Belo Horizonte Oct./Dec. 28, 4. http://dx.doi.org/10.1590/0102-33062014abb3510
Slivinsky, G., Temreshev, I., Issenova, G., Kozhabaeva, G., & Sagitov, A. (2018). Insects as bioindicators of industrial pollution in Kazakhstan. Bioscience Research. 15 (2), 1270-1282.
Slivinsky, G.G., Kazenas, V.L., & Temreshev, I.I. (2017). Species diversity of the entomofauna in the territories of the south of Kazakhstan with different anthropogenic load. Ecological, Industrial and Energy Security-2017: Collection of articles on the materials of the scientific and practical conference with international participation "Ecological, Industrial and Energy Security-2017" (September 11-15, 2017). Ed. Yu.A. Omelchuk, N.V. Lyamina, G.V. Kucherik. Sevastopol: SevSU, 1242-1245. (In Russian).
Slivinsky, G.G., & Temreshev, I.I. (2018). Species diversity and abundance of insects in the territories of the south of Kazakhstan with various levels of contamination with heavy metals. Safety of Nature Management under Sustainable Development. Proceed. of the II International Scientific and Practical Conference, Irkutsk, November 19-21, 2018. FSBEI HE "ISU", Faculty of Geography, 233-238. (In Russian).
Sobolev-Dokuchaev, I.I. (1993). The influence of the environmental conditions of the city of Moscow on the characteristics of ground beetles (Coleoptera, Carabidae). Biological Sciences. 2, 140-158. (In Russian).
Sommaggio, D., & Burgio, G. (2014). The use of Syrphidae as functional bioindicator to compare vineyards with different managemants. Bulletin of Insectology. 67 (1), 147-156.
Sushko, G.G. (2015). Insects - as indicators of the ecological state of bogs of the Belarusian Polesye. Proceedings of BSU. 10. 1, 359-367. (In Russian).
Rainio, J., & Niemela, J. (2003). Ground beetles (Coleoptera: Carabidae) as bioindicators. Biodiversity and Conservation. 12, 487-506. https://doi.org/10.1023/A:1022412617568
Temreshev, I.I., Esenbekova, P.A., Kenzhegaliev, Y.M., Sagitov, A.O., Muhamadiev, N.S., & Homziak, J. (2017). Diurnal insect pollinators of legume forage crops in Southeastern Kazakhstan. International Journal of Entomology Research. 2; 2, 17-30.
Temreshev, I.I., Esenbekova, P.A., Sagitov, A.O., Mukhamadiev, N.S., Sarsenbaeva, G.B., Ageenko, A.V., & Homziak, J. (2018). Evaluation of the effect of locally produced biological pesticide (AқKөbelek™) on biodiversity and abundance of beneficial insects in four forage crops in the Almaty region of Kazakhstan. International Journal of Environment, Agriculture and Biotechnology (IJEAB). 3, 1, Jan-Feb-2018, 72-91. http://dx.doi.org/10.22161/ijeab/3.1.10.
Temreshev, I.I., Kazenas, V.L., Childebaev, M.K., Isenova, G.Zh., & Kozhabaeva, G.E. (2015). Preliminary list of indicator species of insects of South Kazakhstan. Almaty: Nur-Print, 165. (In Russian).
Temreshev, I.I., Kazenas, V.L., Esenbekova, P.A., Isenova, G.Zh., & Kozhabaeva, G.E. (2016). Addition to the list of indicator species of insects of South Kazakhstan. Almaty: Nur-Print, 180. (In Russian).
Wang, Y.P., Wu, H., & Xu, H.C. (2008). Biological and ecological bases of using insect as a bioindicator to asses forest health. YingYong Sheng Tai Xue Bao. 19 (7), 1626-1630.
Zaitsev, G.N. (1974). Building scales for scoring. Biometric methods. M., 30-45. (In Russian).
Bohac, J. (1999). Staphylinid beetles as bioindicators. Agriculture, Ecosystems and Environment. 74, 357-372. https://doi.org/10.1016/S0167-8809(99)00043-2
Christie, F.J., & Hochuli, D.F. (2009). Responses of wasp communities to urbanizations: effects on community resilience and species diversity. Journal of Insect Conservation. 13, 213-221. https://doi.org/10.1007/s10841-008-9146-5
Folgarait, P.J. (1998). Ant biodiversity and its relationship to ecosystem functioning: a review. Biodiversity and Conservation. 7, 1221-1244. https://doi.org/10.1023/A:1008891901953
Gaston, K.J., Warren, P.H., Thompson, K., & Smith, R.M. (2005). Urban domestic gardens (IV): the extent of the resources and its associated features. Biodiversity and Conservation. 14, 3327-3349. https://doi.org/10.1007/s10531-004-9513-9
Gorbach, V.V., & Saarinen, K. (2012). Estimation of occurrence and relative abundance of species in faunistic studies using the example of Finnish daytime butterflies (Lepidoptera: Hesperioidea, Papilionoidea). Principles of Ecology. 2, 45-53. DOI: 10.15393 / j1.art.2012.1087 (In Russian).
Gu, W., Ma, L., Ding, X.H., Zhang, J., & Han, Z.W. (2011). Insect diversity of different habitat types in Zhalong Wetland, northeast China. Ying Yong Sheng Tai Xue Bao. 22 (9), 2405-2412.
Duelli, P., & Obrist, M.K. (2003). Biodiversity indicators: the choice of values and measures. Agriculture, Ecosystems and Environment. 98, 87-98. https://doi.org/10.1016/S0167-8809(03)00072-0
Еyre, M.D., & Luff, M.L. (2004). Ground beetle species (Coleoptera, Carabidae) associations with land cover variables in northern England and southern Scotland. Ecography. 27, 417-426. https://doi.org/10.1111/j.0906-7590.2004.03757.x
Hornung, E., Tothmeresz, B., Magura, T., & Vilisics, F. (2007). Changes of isopod assmeblages along an urban-suburbanrural gradient in Hungary. European Journal of Soil Biology. 43, 158-165. https://doi.org/10.1016/-j.ejsobi.2007.01.001
Jana, G., Misra, K.K., & Bhattacharya, T. (2006). Diversity of some insect fauna in industrial and non-industrial areas of West Bengal, India. Journal of Insect Conservation. 10, 249. https://doi.org/10.1007/s10841-005-5094-5.
Jones, E.L., & Leather, S.R. (2012). Invertebrates in urban areas: A review. European Journal of Entomology. 109 (4), 463-478. https://doi.org/10.14411/eje.2012.060
Kascheev, V.A., & Kazenas, V.L. (2011). The basic principles of zoological monitoring of ecosystems of specially protected natural territories of Kazakhstan (on the example of invertebrates). Selevinia, 189-197. (In Russian).
Kozlov, M.V. (1990). The influence of anthropogenic factors on the population of terrestrial insects. Results of science and technology. Series Entomology, 13-192. (In Russian).
Kuznetsova, I.A., Golovatin, M.G., Gilev, A.V. Gorodilova Yu.V., Pustovalova, L.A., Erokhina, O.V., Stavishenko, I.V., Stepanov, L.N., Gileva, O.V., Zakharova, E.Yu., Oslina, T.S., Lyakhov, A.G., Vurdova, I.F., Sysoev, V.A., Sineva, N.V., Chibiryak, M.V. (2015). Specially Protected Natural Territories of the Sverdlovsk Region: Monitoring of the State of the Natural Environment. Ed. I.A. Kuznetsova. Ekaterinburg: Ural University Publishing House, 189. (In Russian).
Lebedeva, N.V., Krivolutsky, D.A., Puzachenko, Yu.G., Diyakonov, K.N., Aleshchenko, G.M., Smurov, A.V., Maksimov, V.N., Tikunov, V.S., Ogureeva, G.N., & Kotova, Т.V. (2002). Geography and monitoring of biodiversity. M.: Izd. Scientific and educational center, 432. (In Russian).
Litvinova, N.F., Guseva, V.S., & Vorontsova, L.I. (1991). Some regularities of anthropogenic succession of vegetation and locust population in the conditions of the dry steppes of the Lower Volga region. Animal world of the European part of Russia, its study, use and protection. M., 33-40. (In Russian).
Marttila, O., Saarinen, K., & Jantunen, J. (1999). The national butterfly recording scheme in Finland: first seven-year period 1991-1997. Nota lepidopterologica. 22. 1, 17-34.
Mauricio da Rocha, J.R., Almeida, J.R., Lins, G.A., & Durval, A. (2010). Insects as indicators of environmental changing and pollution: a review of appropriate species and their monitoring. Holos Environment. 10, 2. 250.
McGeoch, M.A. (2007). Insects and bioindication: theory and progress. In book: Insect conservation biology. Editors Stewart, A.J.A., New, T.R., Lewis, O.T. Chapter 7, 144.
Paly, V.F. (1965). On the determination of the abundance of faunistic studies. Collection of entomological works. Frunze, 112-121 (In Russian).
Pesenko, Yu.A. (1982). Principles and methods of quantitative analysis in faunistic studies. M.: Science, 287. (In Russian).
Santana, A.P., & Isaias, R.M.S. (2014). Galling insects are bioindicators of environmental quality in a Conservation Unit. Acta Botanica Brasilica. Belo Horizonte Oct./Dec. 28, 4. http://dx.doi.org/10.1590/0102-33062014abb3510
Slivinsky, G., Temreshev, I., Issenova, G., Kozhabaeva, G., & Sagitov, A. (2018). Insects as bioindicators of industrial pollution in Kazakhstan. Bioscience Research. 15 (2), 1270-1282.
Slivinsky, G.G., Kazenas, V.L., & Temreshev, I.I. (2017). Species diversity of the entomofauna in the territories of the south of Kazakhstan with different anthropogenic load. Ecological, Industrial and Energy Security-2017: Collection of articles on the materials of the scientific and practical conference with international participation "Ecological, Industrial and Energy Security-2017" (September 11-15, 2017). Ed. Yu.A. Omelchuk, N.V. Lyamina, G.V. Kucherik. Sevastopol: SevSU, 1242-1245. (In Russian).
Slivinsky, G.G., & Temreshev, I.I. (2018). Species diversity and abundance of insects in the territories of the south of Kazakhstan with various levels of contamination with heavy metals. Safety of Nature Management under Sustainable Development. Proceed. of the II International Scientific and Practical Conference, Irkutsk, November 19-21, 2018. FSBEI HE "ISU", Faculty of Geography, 233-238. (In Russian).
Sobolev-Dokuchaev, I.I. (1993). The influence of the environmental conditions of the city of Moscow on the characteristics of ground beetles (Coleoptera, Carabidae). Biological Sciences. 2, 140-158. (In Russian).
Sommaggio, D., & Burgio, G. (2014). The use of Syrphidae as functional bioindicator to compare vineyards with different managemants. Bulletin of Insectology. 67 (1), 147-156.
Sushko, G.G. (2015). Insects - as indicators of the ecological state of bogs of the Belarusian Polesye. Proceedings of BSU. 10. 1, 359-367. (In Russian).
Rainio, J., & Niemela, J. (2003). Ground beetles (Coleoptera: Carabidae) as bioindicators. Biodiversity and Conservation. 12, 487-506. https://doi.org/10.1023/A:1022412617568
Temreshev, I.I., Esenbekova, P.A., Kenzhegaliev, Y.M., Sagitov, A.O., Muhamadiev, N.S., & Homziak, J. (2017). Diurnal insect pollinators of legume forage crops in Southeastern Kazakhstan. International Journal of Entomology Research. 2; 2, 17-30.
Temreshev, I.I., Esenbekova, P.A., Sagitov, A.O., Mukhamadiev, N.S., Sarsenbaeva, G.B., Ageenko, A.V., & Homziak, J. (2018). Evaluation of the effect of locally produced biological pesticide (AқKөbelek™) on biodiversity and abundance of beneficial insects in four forage crops in the Almaty region of Kazakhstan. International Journal of Environment, Agriculture and Biotechnology (IJEAB). 3, 1, Jan-Feb-2018, 72-91. http://dx.doi.org/10.22161/ijeab/3.1.10.
Temreshev, I.I., Kazenas, V.L., Childebaev, M.K., Isenova, G.Zh., & Kozhabaeva, G.E. (2015). Preliminary list of indicator species of insects of South Kazakhstan. Almaty: Nur-Print, 165. (In Russian).
Temreshev, I.I., Kazenas, V.L., Esenbekova, P.A., Isenova, G.Zh., & Kozhabaeva, G.E. (2016). Addition to the list of indicator species of insects of South Kazakhstan. Almaty: Nur-Print, 180. (In Russian).
Wang, Y.P., Wu, H., & Xu, H.C. (2008). Biological and ecological bases of using insect as a bioindicator to asses forest health. YingYong Sheng Tai Xue Bao. 19 (7), 1626-1630.
Zaitsev, G.N. (1974). Building scales for scoring. Biometric methods. M., 30-45. (In Russian).
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