1. bookVolume 15 (2016): Issue 2 (December 2016)
Journal Details
License
Format
Journal
eISSN
1854-9829
First Published
10 Jul 2007
Publication timeframe
2 times per year
Languages
English
Open Access

Effect of summer fire on cursorial spider (Aranei) and beetle (Coleoptera) assemblages in meadow steppes of Central European Russia

Published Online: 12 Aug 2016
Volume & Issue: Volume 15 (2016) - Issue 2 (December 2016)
Page range: 113 - 132
Received: 16 Dec 2015
Accepted: 09 Jul 2016
Journal Details
License
Format
Journal
eISSN
1854-9829
First Published
10 Jul 2007
Publication timeframe
2 times per year
Languages
English
Abstract

Fire is an important structuring force for grassland ecosystems. Despite increased incidents of fire in European steppes, their impact on arthropod communities is still poorly studied. We assessed short-term changes in cursorial beetle and spider assemblages after a summer fire in the meadow steppe in Central European Russia. The responses of spider and beetle assemblages to the fire event were different. In the first post-fire year, the same beetle species dominated burnt and unburnt plots, the alpha-diversity of beetle assemblages was similar, and there were no pronounced changes in the proportions of trophic groups. Beetle species richness and activity density increased in the second post-fire year, while that of the spiders decreased. The spider alpha-diversity was lowest in the first post-fire year, and the main dominants were pioneer species. In the second year, the differences in spider species composition and activity density diminished. The main conclusion of our study is that the large-scale intensive summer fire caused no profound changes in cursorial beetle and spider assemblages of this steppe plot. Mitigation of the fire effect is explained by the small plot area, its location at the edge of the fire site and the presence of adjacent undisturbed habitats with herbaceous vegetation.

Keywords

Aleksandrova, K.I. 1992: State of regional nature protection in the Lipetsk Region and suggestions of the botanists for improving the protected site system. Bulletin of MOIP. Series biology 97 (5): 107-117 [in Russian].Search in Google Scholar

Archibald, S., Lehmann, C., Gomez-Dans, J. & Bradstock, R. 2012: Defining pyromes and global syndromes of fire regime. Proceedings of the National Academy of Sciences of the United States of America 110: 6442-6447.10.1073/pnas.1211466110363163123559374Search in Google Scholar

Barratt, B.I.P., Ferguson, C.M., Barton, D.M. & Johnstone, P.D. 2009: Impact of fire on tussock grassland invertebrate populations. Science for conservation 291: 75 pp.Search in Google Scholar

Bond, W.J. & Keeley, J.E. 2005: Fire as a global ‘herbivore’: The ecology and evolution of flammable ecosystems. Trends in Ecology & Evolution 20 (7): 387-394.10.1016/j.tree.2005.04.02516701401Search in Google Scholar

Bowman, D.M.J.S., Balch, J.K., Artaxo, P., Bond, W.J., Carlson, J.M., Cochrane, M.A., D’Antonio, C.M., DeFries, R.S., Doyle, J.C., Harrison, S.P., Johnston, F.H., Keeley, J.E., Krawchuk, M.A., Kull, C.A., Marston, J.B., Moritz, M.A., Prentice, I.C., Roos, C.I., Scott, A.S., Swetnam, T.W., van der Werf, G.R & Pyne S.J. 2009: Fire in the Earth system. Science 324 (5926): 481-484.10.1126/science.116388619390038Search in Google Scholar

Chibilev, A.A. 2014: Reflections after the fire in the Burtinskaya Steppe. Steppe Bulletin (3): 42-43 [in Russian].Search in Google Scholar

Chuvieco, E., Giglio, L. & Justice, C. 2008: Global characterization of fire activity: Toward defining fire regimes from earth observation data. Global Change Biology 14: 1488-1502.10.1111/j.1365-2486.2008.01585.xSearch in Google Scholar

Cook, V. & Holt, R. 2006: Fire frequency and mosaic burning effects on a tallgrass prairie ground beetle assemblage. Biodiversity and Conservation 15: 2301-2323.10.1007/s10531-004-8227-3Search in Google Scholar

Deák, B., Valkó, O., Török, P.,Végvári, Zs., Hartel, T. & Schmotzer, A. 2014: Grassland fires in Hungary - experiences of nature conservationists on the effects of fire on biodiversity. Applied Ecology and Environmental Research 12 (1): 267-283.10.15666/aeer/1201_267283Search in Google Scholar

Dedyu, I.I. 1990: Ecological Encyclopedic Dictionary. Main Edition of the Moldavian Soviet Encyclopedia, Kishinev, 406 pp.Search in Google Scholar

Gelashvili, D. B., Iudin, D. I., Rozenberg, G. S., Yakimov, V. N. & Solntsev, L. A. 2013: Fractals and multifractals in bioecology. PH NNU, Nizhniy Novgorod, 370 pp. [in Russian].Search in Google Scholar

Gelashvili, D. B., Iudin, D. I., Yakimov, V. N., Solntsev, L. A., Rozenberg, G. S., Shurganova, G. V., Okhapkin, A. G., Startseva, N. A., Pukhnarevich, D. A. & Snegireva, M. S. 2012: Multifractal analysis of the species structure of freshwater hydrobiocenoses. Biology Bulletin 39 (3): 271-278.10.1134/S1062359012010037Search in Google Scholar

Griffiths, A. & Brook, B. 2014: Effect of fire on small mammals: a systematic review. International Journal of Wildland Fire 23 (7): 1034-1043.10.1071/WF14026Search in Google Scholar

Guseva, N. A. & Bogach, Y. 1988: Impact of fire on soil surface dwelling Coleoptera of meadow steppe. In: Structure and function of protected forest-steppe ecosystems. Moscow, pp. 56-64 [in Russian].Search in Google Scholar

Hill, M.O. & Gauch, H.G. 1980: Detrended Correspondence Analysis: an imroved ordination technique. Vegetatio 42: 47-58.10.1007/978-94-009-9197-2_7Search in Google Scholar

Hammer, Ø., Harper, D.A.T. & Ryan, P.D., 2001: PAST: Paleontological Statistics Software Package for Education and Data Analysis. Palaeontology Electronic 4, 9 pp. http://folk.uio.no/ohammer/past Search in Google Scholar

Kitzberger, T., Veblen, T. & Villalba, R. 1997: Climatic influences of fire regimes along a rain forest-to-xeric woodland gradient in northern Patagonia, Argentina. Journal of Biogeography 24: 35-47.10.1111/j.1365-2699.1997.tb00048.xSearch in Google Scholar

Kwok, A.B.C. & Eldridge, D.J. 2015: Does fire affect the grounddwelling arthropod community through changes to fine-scale resource patches? International Journal of Wildland Fire 24 (4): 550-559.10.1071/WF14088Search in Google Scholar

Nedosekina, T.V., Grigorievskaya, A.Y., Khlyzova, N.Y. & Slavgorodsky, A.V. 2009: Plant communities of the Lipetsk Area (Cadastre). PPC VSU, Voronezh, 199 pp. [in Russian].Search in Google Scholar

Nemkov, V.A. & Sapiga, E.V. 2010: Impact of fires on the fauna of terrestrial arthropods in protected steppe ecosystems. Russian Journal of Ecology 41(2): 173-179.10.1134/S1067413610020104Search in Google Scholar

New, T.R. 2015: Insects, fire and conservation. Springer International Publishing, Switzerland. 208 p.Search in Google Scholar

Orgeas, J. & Andersen, A. 2001: Fire and biodiversity: Responses of grass-layer beetles to experimental fire regimes in an Australian tropical savanna. Journal of Applied Ecology 38: 49-62.10.1046/j.1365-2664.2001.00575.xSearch in Google Scholar

Panzer, R. 2002: Compatibility of prescribed burning with the conservation of insects in small, isolated prairie reserves. Conservation Biology 16 (5): 1296−1307.Search in Google Scholar

Parr, C.L. & Chown, S.L. 2003: Burning issues for conservation: a critique of faunal fire research in Southern Africa. Australian Ecology 28 (4): 384-395.10.1046/j.1442-9993.2003.01296.xSearch in Google Scholar

Parr, C.L. & Chown, S.L. 2006: Burning for biodiversity conservation: a critique of the pyrodiversity paradigm. Conservation Biology 20 (6): 1610-1619.10.1111/j.1523-1739.2006.00492.xSearch in Google Scholar

Polchaninova, N. 2015: Recovery of spider communities after a spontaneous summer fire in the forb-bunchgrass steppe of eastern Ukraine. Hacquetia 14 (1): 79-96.10.1515/hacq-2015-0015Search in Google Scholar

Prishutova, Z. G. & Arzanov, Y. G. 2008: Influence of the local steppe fire on the gerpetobionts. In: Trudy gosudarstvennogo prirodnogo zapovednika ‘Rostovskiy’ vypusk 4. ‘Donskoi Izdatelskiy Dom’, Rostov-on-Don, pp. 192-208 [in Russian, with English summary].Search in Google Scholar

Prodon, R., Fons, R. & Athias-Binche, F. 1987: The impact of fire on animal communities in the Mediterranean area. In: The role of fire in ecological systems. L. Trabaud. (ed.). SPB Academic, The Hague, pp. 121-157.Search in Google Scholar

Prokopenko, E. V. & Savchenko, E. Y. 2013: An influence of the steppe fire on fauna and spiders population structure (Aranei, Arachnida) in «Kamennye Mogyly» reserve (Volodarskiy Region, Donetskaya Oblast). Biological bulletin of Bogdan Chmelnitskiy Melitopol state pedagogical university, 1 (7): 90-105 [in Russian, with English summary].10.7905/bbmspu.v0i1(7).602Search in Google Scholar

Richards, S.A., Possingham, P. H. & Tizard, J. 1999: Optimal fire management for maintaining community diversity. Ecological Applications 9 (3): 880-892.10.1890/1051-0761(1999)009[0880:OFMFMC]2.0.CO;2Search in Google Scholar

Robinson, N.M., Leonard, S.W.J., Ritchie, E.G., Bassett, M., Chia, E.K., Buckingham, S., Gibb, H., Bennett, A.F. & Clarke, M.F. 2013: Refuges for fauna in fire-prone landscapes: their ecological functions and importance. Journal of Applied Ecology 50: 1321-1329.10.1111/1365-2664.12153Search in Google Scholar

Sackmann, P. & Farji-Brener, A. 2006: Effect of fire on ground beetle and ant assemblages along an environmental gradient in NW Patagonia: Does habitat type matter? Ecoscience 13 (3): 360-371.10.2980/i1195-6860-13-3-360.1Search in Google Scholar

Samu, F., Kádár, F., Ónodi, G., Kertész, M., Szirányi, A., Szita, É., Fetykó, K., Neidert, D., Botos, E. & Altbäcker, V. 2010: Differential ecological responses of two generalist arthropod groups, spiders and carabid beetles (Araneae, Carabidae), to the effects of wildfire. Community Ecology 11 (2): 129-139.10.1556/ComEc.11.2010.2.1Search in Google Scholar

Savchenko, K. Yu. 2009: Pyrogenic factor influence on surfacedwelling Coleoptera in the forbs-fescue-feather grass steppe. Kharkov Entomological Society Gazette 17 (1-2): 67-73 [in Russian, with English summary].Search in Google Scholar

Skufyin, K.V. 1978. Insects of the southeast of the Black Earth Centre. PH VGU, Voronezh, 163 pp. [in Russian].Search in Google Scholar

Southword, T.R.E. 1978: Ecological methods. Chapman and Hall, London. 253 pp.Search in Google Scholar

Swengel A. B. 1996: Effects of fire and hay management on abundance of prairie butterflies. Biological Conservation 76: 73-85.10.1016/0006-3207(95)00085-2Search in Google Scholar

Swengel, A. B. 2001. A literature review of insect responses to fire, compared to other conservation managements of open habitat. Biodiversity and Conservation 10: 1141-1169.Search in Google Scholar

Tsurikov, N.M. 2005: Faunistic relations of the beetles (Coleoptera, Insecta) of “Galich’ya Gora” Nature Reserve and mountain ecosystems of Eurasia. In: Mountain ecosystems and their components: Book of Materials of the International Conference (4-9 September 2005, Nalchik). Volume 2. Nalchik, pp. 162-163 [in Russian].Search in Google Scholar

Tsurikov, N.M. & Polchaninova, N.Y. 2015: Post-fire recovery of the ground dwelling beetles (Coleoptera) and spiders (Araneae) in the steppe gully “Bykova Sheya” (Lipetsk Region, Russia). In: Steppes of the Northern Eurasia: Materials of the VII International Symposium. A.A. Chibilev (ed.). IS UrD RAS, SPB “Dimiur”, Ornburg, pp. 899-903 [in Russian, with English summary].Search in Google Scholar

Valkó, O., Deák, B., Magura, T., Török, P., Kelemen, A., Tóth, K., Horváth, R., Nagy, D., Debnár, Z., Zsigrai, G., Kapocsi, I. & Tóthmérész, B. 2016. Supporting biodiversity by prescribed burning in grasslands - A multi-taxa approach. Science of the Total Environment http://dx.doi.org/10.1016/j.scitotenv.2016.01.18410.1016/j.scitotenv.2016.01.18426852186Search in Google Scholar

Vassiliev, V.P. 1987: Pests of the agricultural crops and forest plantations. Volume 1. Harmful nematodes, mollusks and arthropods. Second edition. “Urozhai”, Kyiv, 440 pp. [In Russian].Search in Google Scholar

Vogel, J.A., Koford, R. & Debinski, D. 2010: Direct and indirect responses of tallgrass prairie butterflies to prescribed burning. Journal of Insect Conservation 14: 663-677.10.1007/s10841-010-9295-1Search in Google Scholar

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