Abstract
Arachnids living in the herbaceous layer have been studied in 2006–2008 in secondary upland meadows along the gradient of pollution with emissions from the Middle Ural Copper Smelter (Revda, Sverdlovsk oblast). It has been shown that absolute abundance and general diversity decrease with increasing levels of technogenic pressure. Direct toxic effect of heavy metals is especially strong on taxa closely associated with soil and litter; this effect is the most likely cause of the absence of harvestmen near the smelter. The other groups of arachnids are more strongly affected by environmental changes (depletion of species diversity, simplification of architecture of the herbaceous layer, and modification of the hydrothermal regime of this layer) indirectly caused by pollution.
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References
Bei-Bienko, G.Ya., On some trends of changes in the invertebrate fauna during land development in virgin steppes, Entomol. Obozr., 1961, vol. 40, no. 4, pp. 763–775.
Butovskii, R.O., Ustoichivost’ kompleksov pochvoobitayushchikh chlenistonogikh k antropogennym vozdeistviyam (Stability of Soil Arthropod Communities under Anthropogenic Impact), Moscow: Den’ Serebra, 2001.
Chichkov, B.M., The structure of hortobiont arachnid community in certain types of agrocenoses in the Southern Urals, Sovremennye problemy populyatsionnoi, istoricheskoi i prikladnoi ekologii: Mat-ly konf. molodykh uchenykh (Current Problems in Population, Historical, and Applied Ecology: Proc. Young Scientists Conf.), Yekaterinburg, 2001, part 2, pp. 288–289.
Ermakov, A.I., Structural changes in the carabid fauna of forest ecosystems under a toxic impact, Russ. J. Ecol., 2004, vol. 35, no. 6, pp. 403–408.
Gongalsky, K.B., Filimonova, Zh.V., Pokarzhevskii, A.D., and Butovsky, R.O., Differences in responses of herpetobionts and geobionts to impact from the Kosogorsky Metallurgical Plant (Tula region, Russia), Russ. J. Ecol., 2007, vol. 38, no. 1, pp. 52–57.
Hammer, Ø., Harper, D.A.T., and Ryan, P.D., PAST: Paleontological statistics software package for education and data analysis, Palaeontol. Electron., 2001, vol. 4, no. 1. http://palaeo-electronica.org/2001-1/past/issue1-01.htm
Hunter, B.A., Johnson, M.S., and Thompson, D.J., Ecotoxicology of copper and cadmium in a contaminated grassland ecosystem: 2. Invertebrates, J. Appl. Ecol., 1987, vol. 24, no. 2, pp. 587–599.
Kuznetsova, N.A., Soil-dwelling Collembola in coniferous forests along the gradient of pollution with emissions from the Middle Ural Copper Smelter, Russ. J. Ecol., 2009, vol. 40, no. 6, pp. 415–423.
Khantemirova, E.V., Composition and structure of meadow cenoses in a gradient of pollution with emissions from a copper smelter in the Middle Urals, in Flora i rastitel’nost’ antropogenno narushennykh territorii: Sb. nauch. trudov Kemerovskogo otd. RBO (The Flora and Vegetation of Anthropogenically Disturbed Areas: Collected Studies by the Kemerovo Branch of the Russian Botanical Society), Kemerovo: Irbis, 2010, no. 6, pp. 61–63.
Kirilenko, V.A., Comparison between spider faunas of artificial and natural biocenoses, Fauna i ekologiya paukoobraznykh: Mezhvuz. sb. nauch. trudov (The Fauna and Ecology of Arachnids: Interdepartmental Collection of Scientific Papers), Perm: Perm. Gos. Univ., 1984, pp. 138–141.
Lagunov, A.V., Structure of the fauna of herbaceous vegetation layer in meadow and forest communities of the Il’men State Nature Reserve, Extended Abstract of Cand. Sci. (Biol.) Dissertation, Moscow, 1990.
Lagunov, A.V., Stratigraphic structure of hortobiont invertebrate community in the Il’men State Nature Reserve, in Ekologicheskie issledovaniya v Il’menskom gosudarstvennom zapovednike (Ecological Studies in the Il’men State Nature Reserve), Miass, 1994, pp. 25–42.
Mirkin, B.M., Naumova, L.G., and Solomeshch, A.I., Sovremennaya nauka o rastitel’nosti: Uchebnik (Modern Science of Vegetation: A Textbook), Moscow: Logos, 2001.
Nesterkov, A.V. and Vorobeichik, E.L., Changes in the structure of chortobiont invertebrate community exposed to emissions from a copper smelter, Russ. J. Ecol., 2009, vol. 40, no. 4, pp. 286–296.
Perner, J., Voigt, W., Bahrmann, R., et al., Responses of arthropods to plant diversity: Changes after pollution cessation, Ecography, 2003, vol. 26, pp. 788–800.
Rabitsch, W.B., Metal accumulation in arthropods near a lead/zinc smelter in Arnoldstein, Austria: 3. Arachnida, Environ. Pollut., 1995, vol. 90, no. 2, pp. 249–257.
Read, H.J., Martin, M.H., and Rayner, J.M., Invertebrates in woodlands polluted by heavy metals: An evaluation using canonical correspondence analysis, Water Air Soil Pollut., 1998, vol. 106, nos. 1–2, pp. 17–42.
Reid, A.M. and Hochuli, D.F., Grassland invertebrate assemblages in managed landscapes: Effect of host plant and microhabitat architecture, Austr. Ecol., 2007, vol. 32, no. 6, pp. 708–718.
Sanders, D. and Platner, C., Intraguild interactions between spiders and ants and top-down control in a dry grassland, Oecologia, 2007, vol. 150, pp. 611–624.
Seifulina, R.R. and Chernyshev, V.B., Spiders (Arachnida, Aranea) in the herbaceous layer of argoecosystems in the Moscow region: Species composition, spatial distribution, and seasonal dynamics, Zool. Zh., 2001, vol. 80, no. 10, pp. 1176–1188.
Sokal, R.R. and Rohlf, F.J., Biometry: The Principles and Practice of Statistics in Biological Research, 3rd ed., New York: Freeman, 1995.
Uetz, G., Halaj, J., and Cady, A.B., Guild structure of spiders in major crops, J. Arachnol., 1999, vol. 27, pp. 270–280.
Vorobeichik, E.L., Sadykov, O.F., and Farafontov, M.G., Ekologicheskoe normirovanie tekhnogennykh zagryaznenii nazemnykh ekosistem (Ecological Rating of Technogenic Pollutants in Terrestrial Ecosystems), Yekaterinburg: Nauka, 1994.
Vorobeichik, E.L., Ermakov, A.I., Zolotarev, M.P., et al., Changes in the diversity of soil macrofauna in a gradient of industrial pollution, Russ. Entomol. J., 2012, vol. 21, no. 2, pp. 203–218.
Wilczek, G., Babczynska, A., Augustyniak, M., et al., Relations between metals (Zn, Pb, Cd, and Cu) and glutathione-dependent detoxifying enzymes in spiders from a heavy metal pollution gradient, Environ. Pollut., 2004, vol. 132, no. 3, pp. 453–461.
Woodcock, B.A., Potts, S.G., Westbury, D.B., et al., The importance of sward architectural complexity in structuring predatory and phytophagous invertebrate assemblages, Ecol. Entomol., 2007, vol. 32, no. 3, pp. 302–311.
Zolotarev, M.P., Changes in the taxonomic structure of herpetobiont arachnids along the gradient of pollution with emissions from a copper smelter, Russ. J. Ecol., 2009, vol. 40, no. 3, pp. 356–360.
Zolotarev, M.P. and Bel’skaya, E.A., Effects of technogenic and natural factors on the abundance of soil herpetobionts, Evraz. Entomol. Zh., 2012, vol. 11, no. 1, pp. 19–28.
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Original Russian Text © M.P. Zolotarev, A.V. Nesterkov, 2015, published in Ekologiya, 2015, No. 1, pp. 48–56.
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Zolotarev, M.P., Nesterkov, A.V. Arachnids (Aranei, Opiliones) in meadows: Response to pollution with emissions from the Middle Ural Copper Smelter. Russ J Ecol 46, 81–88 (2015). https://doi.org/10.1134/S1067413614060162
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DOI: https://doi.org/10.1134/S1067413614060162