Eкологічна ніша дощових черв’яків (Lumbricidae) у просторі гігротопу і трофотопу біогеоценозів степового Придніпров'я

Brind'Amour, A. Boisclair, D., Dray, S., Legendre, P. (2011). Relationships between species feeding traits and environmental conditions in fish communities: A three-matrix approach. Ecological

https://doi.org/10.1890/09-2178.1

Applications, 21 (2), 363-377.

Olden, J.D., Jackson, D.A. (2002). A comparison of statistical approaches for modelling fish species distributions. Freshwater Biology, 47, 1976-1995.

https://doi.org/10.1046/j.1365-2427.2002.00945.x

McGill, B.J., Enquist, B. J., Weiher, E., Westoby, M. (2006). Rebuilding community ecology from functional traits. Trends in Ecology and Evolution, 21, 178-184.

https://doi.org/10.1016/j.tree.2006.02.002

Austen, D.J., Bayley, P.B., Menzel, B.W. (1994). Importance of the guild concept to fisheries research and management. Fisheries, 19, 12-20.

https://doi.org/10.1577/1548-8446(1994)019<0012:IOTGCT>2.0.CO;2

Zhukov, O.V. (2009). Ekomorfical consortia analysis of soil animals. Dnipropetrovsk: «Svidler A. L.», 239 (in Ukraine).

Zhukov, O.V. (2007). Trofotsenomorfis soil animals and their diagnostic value for setting trophotopes. Bulletin of Donetsk University. Series A: Natural Sciences, 277-291.

Mouillot, D., Spatharis, S., Reizopoulou, S., Laugier, T., Sabetta, L., Basset, A., Do Chi, T. (2006). Alternatives to taxonomic-based approaches to assess changes in transitional water communities.

https://doi.org/10.1002/aqc.769

Aquatic Conservation: Marine and Freshwater Ecosystems, 16, 469-482.

Tonn, W. M. , J. J. Magnuson, M. Rask, J. (1990). Toivonen Intercontinental 1 comparison of smalllake fish assemblages: the balance between local and regional processes.The American

https://doi.org/10.1086/285102

Naturalist,136, 345-375.

Zobel, M. (1997). The relative role of species pools in determining plant species richness: alternative explanation of species coexistence? Trends in Ecology and Evolution, 12, 266-269.

https://doi.org/10.1016/S0169-5347(97)01096-3

Angermeier, P.L., Winston, M.R. (1998). Local vs regional influences on local diversity in stream fish community of Virginia. Ecology, 79, 911-927.

https://doi.org/10.1890/0012-9658(1998)079[0911:LVRIOL]2.0.CO;2

Belhard, A.L. (1950). Forest vegetation of the south and east of the Ukrainian SSR. Кiev: Izdatelstvo КHU, 263 (in Ukraine).

Belhard, A.L. (1971). Steppe Forestry. Мoscow: Lesnaia promyshlennost, 336 (in Russia).

Kunach, O.M., Zhukov, O.V., Pachomov, O.E. (2010). Morphology of earthworms (Lumbricidae). Dnepropetrovsk: FОP Dryga Т.V., 52 (in Ukraine).

Kunach, O.M., Zhukov, O.V., Baliuk, Yu.A. (2013). Spatial variation of soil structure ekomorfical mesofauna of urbazem. Scientific notes of Taurida National University. A series of "Biology,

Chemistry",26 (65), № 3, 107-126.

Zhukov, O.V. (2010). Ekomorfs Bellegarde-Akimov and environmental matrix. Ecology and Noosferology, 21( 3-4), 109-111.

Zhukov, O.V., Pachomov, O.E., Kunach, O.M. (2007). Biodiversity Ukraine. Dnipropetrovsk region earthworms (Lumbricidae). Dnepropetrovsk: Vydavnytstvo DNU, 371 (in Ukraine).

Zhukov, O.V., Kunach, O.M., Baliuk, Yu.A. (2014). Spatial variation of soil structure ekomorfical mesofauna forest park spaces (for example, in Dnipropetrovsk park). Journal of National University

of Lviv, 65, 224-237.

Hill, M.O. (1974). Correspondence analysis: a neglected multivariate Method. Journal of the Royal Statistical Society: Ceries C, 23, 340-354.

https://doi.org/10.2307/2347127

Hill, M.O. (1973). Reciprocal averaging: an eigenvector method of ordination. Journal Ecology, 61, 237-249.

https://doi.org/10.2307/2258931

Doledec, S., Chessel, D., Gimaret-Carpentier, C. (2000). Niche separation in community analysis: a new method. Ecology, 81, 2914-2927.

https://doi.org/10.1890/0012-9658(2000)081[2914:NSICAA]2.0.CO;2

Dray, S., Dufour, A.B. (2007). The ade4 package: implementing the duality diagram for ecologists. Journal of Statistical Software, 22(4),1-20.

https://doi.org/10.18637/jss.v022.i04

Ter Braak, C. J. F. (1986). Canonical correspondence analysis: A new eigenvector technique for multivariate direct gradient analysis. Ecology, 67, 1167-1179.

https://doi.org/10.2307/1938672

Palmer, M.W. (1986). Putting things in even better order: the advantages of canonical correspondence analysis. Ecology, 74, 2215-2230.

https://doi.org/10.2307/1939575

Kunach, O.M., Zhukov, O.V., Baliuk, Yu.A. (2013). Ekomorfical and spatial organization mezopedobionts park plantations in Dnepropetrovsk. Problems of Ecology and Nature Protection technogenic region, 1 (13),106-121.

Kunach, O.M., Zhukov, O.V., Baliuk, Yu.A. (2013). Ekomorfical projection of spatial organization of soil mesofauna community. Bulletin of Kharkiv National University, 18 (№1079), 118-131.

Pachomov, O.E., Kunach, O.M., Zhukov, O.V., Baliuk, Yu.A. (2013). The spatial organization of the ecological niche of soil mesofauna urbozem. Bulletin of Dnipropetrovsk University. Biology.

https://doi.org/10.15421/011309

Ecology, 21(1), 51-57.

Zhukov, O.V., Shtirts, A.D., Zadorozhnaia, G.A., Kunach, O.M. (2013). Fractionation of the spatial variation of armored mite communities (Acari: Oribatida) in the soil of agricultural fields in the steppe zone of Ukraine. Problems of Ecology and Nature Protection technogenic region, 1 (13), 87-105.

Shtirts, A.D., Zadorozhnaia, Kunach, O.M., G.A., Zhukov, O.V. (2013). The spatial organization of the community armored mites (Acari: Oribatida) in the soil of agricultural fields in the steppe zone

of Ukraine. Proceedings of the Kharkov Entomological Society, XXI, (1),49-60.

Belhard, A.L. (1948). On amfitsenozah. Scientific Notes of the Dnepropetrovsk State University, 30, 87-89.

Belova, N.A., Travleev, A.P. (1999). Natural forests and steppe soils. Dnepropetrovsk: Izdatelstvo DNU, 346 (in Ukraine).

Belova, N.A. (1997). Ecology, micromorphology, anthropogenesis forest soils in the steppe zone of Ukraine. Dnepropetrovsk: Izdatelstvo DNU, 264 (in Ukraine).

Tsvetkova N.N. (1992). Features of migration of organic and mineral substances and trace elements in the forest steppe of Ukraine Biogeocenoses. Dnepropetrovsk: Izdatelstvo DNU, 238 (in Ukraine).

Zhukov, O.V., Shatalin, D.B. (2016). Gigrotop and trophotopes ecosystems steppe Dnieper as determinants of β-diversity of earthworm communities (Lumbricidae). The biological messenger

MDPU, 6 (2), 129-157.

Perel, Т.S. (1979). Dissemination and distribution patterns of earthworms fauna of the USSR. Moskow: Nauka, 272 (in Russia).

Vsevolodova-Perel, Т.S. (1997). Earthworms fauna of Russia. Moskow: Nauka, 102 (in Russia).

Csuzdi, Cs., Zicsi, A. (2003). Earthworms of Hungary (Annelida: Oligochaeta; Lumbricidae). Hungarian Natural history Museum Budapest, 271.

Hubbell, S. P. (2001). The Unified Neutral Theory of Biodiversity and Biogeography. Princeton, NJ: Princeton University Press, 540.

Zhirkov, I.A. (2010). Life at the bottom. Biogeography and bio-ecology of benthic. Moskow: Тovarishchestvo nauchnykh izdanii КМК, 453 (in Russia).

Мirkin, B. М., Naumova, L.G., Solomeshch, A.I. (2001). The modern science of vegetation. Moskow: Logos, 264 (in Russia).

Zhukov, O.V., Zhukova, V.V. (2004). Earthworms as a component biogeocoenose and their role in bioindication. Edaphology, 5(1-2), 44-57.

Zhukov, O.V. Zhukova, V.V. (1997). Ekomorfical spectrs of complexes of earthworms in the zoological diagnostics of soils. News DSU. Series biology and ecology, 3, 216-221.

Brind'amour, A., Boisclair, D., Legendre, P., Borcard, D. (2005). Multiscale spatial distribution of a littoral fish community in relation to environmental variables. Limnology and Oceanography, 50 (2), 465-479.

https://doi.org/10.4319/lo.2005.50.2.0465

Chessel, D., Lebreton, J.D., Prodon, R. (1982). Mesures symétriques d'amplitude d'habitat et de diversité intra-échantillon dans un tableau espèces-relevés: cas d'un gradient simple. Compte rendu hebdomadaire des séances de l'Académie des sciences. Paris, D III, 295, 83-88.