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Published April 4, 2018 | Version v1
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Analysis of the spatial organization of Vallonia pulchella (Muller, 1774) ecological niche in Technosols (Nikopol manganese ore basin, Ukraine)

Authors/Creators

  • 1. Bohdan Khmelnitsky Melitopol State Pedagogical University, Department of Chemistry and Biology, ul. Hetmanska 20, Melitopol, Zaporizhzhia oblast, 72312 Ukraine; E-mail: nadyayork777@gmail.com
  • 2. Dnipro Agrarian and Economy University, Serhii Efremov Str., 25, 49600 Dnipro, Ukraine; E-mail: mkaterina@ukr.net
  • 3. Oles Honchar Dnipro National University, pr. Gagarina, 72, 49010 Dnipro, Ukraine; E-mail: zhukov_dnipro@ukr.net, olga-kunakh@rambler.ru *Corresponding author: Nadia Yorkina. E-mail: nadyayork777@gmail.com

Description

Yorkina, Nadia, Maslikova, Katerina, Kunah, Olga, Zhukov, Olexandr (2018): Analysis of the spatial organization of Vallonia pulchella (Muller, 1774) ecological niche in Technosols (Nikopol manganese ore basin, Ukraine). Ecologica Montenegrina 17: 29-45, DOI: 10.37828/em.2018.17.5, URL: https://www.biotaxa.org/em/article/view/em.2018.17.5

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urn:lsid:plazi.org:pub:FFB3F46EC6217C30FF9B845BFFE58F4B

Cites
Publication: 10.1111/j.1472-4642.2011.00746.x (DOI)
Publication: 10.12657/folmal.015.015 (DOI)
Has part
Figure: 10.5281/zenodo.12716837 (DOI)
Figure: 10.5281/zenodo.12716839 (DOI)
Figure: 10.5281/zenodo.12716841 (DOI)
Figure: 10.5281/zenodo.12716843 (DOI)
Figure: 10.5281/zenodo.12716845 (DOI)
Figure: 10.5281/zenodo.12716847 (DOI)
Figure: 10.5281/zenodo.12716849 (DOI)

References

  • Anselin, L., Ibnu, S. & Youngihn, Kh. (2006) GeoDa: An Introduction to Spatial Data Analysis, Geographical Analysis, 38, 1, 5-22.
  • Begon, M., Harper, J. & Townsend, K. (1989) Ecology. Individuals, populations and communities, Mir, 2, 478 pp. (in Russian)
  • Biggs, B.J.F. (1990) Periphyton communities and their environmental gradients in New Zealand rivers. New Zealand Journal of Marine and Freshwater Research, 24, 367-386.
  • Bohan, D. A., Glen, D. M., Wiltshire, Ch. W. & Hughes, L. (2000) Parametric intensity and the spatial arrangement of the terrestrial mollusc herbivores Deroceras reticulatum and Arion intermedius, Journal of Animal Ecology, 69, 6, 1031-1046.
  • Calenge, C. & Basille, M. (2008) A general framework for the statistical exploration of the ecological niche, Journal of Theoretical Biology, 252, 4, 674- 685.
  • Calenge, C., Darmon, G., Basille, M., Loison, A. & Jullien, J. M. (2008) The factorial decomposition of the Mahalanobis distances in habitat selection studies, Ecology, 89, 2, 555-566.
  • Calenge, C. (2006) The package adehabitat for the R software: a tool for the analysis of space and habitat use by animals, Ecological Modelling, 197, 516-519.
  • Caruso, N., Guerisoli, M., Luengos Vidal, E.M., Castillo, D., Casanave, E.B. & Lucherini, M. (2015) Modelling the ecological niche of an endangered population of Puma concolor: First application of the GNESFA method to an elusive carnivore, Ecological Modelling, 297, 11-19.
  • Cejka, T. & Hamerlik, L. (2009) Land snails as indicators of soil humidity in Danubian woodland (SW Slovakia). Polish Journal of Ecology, 57(4), 741-747.
  • De Angelo, C., Paviolo, A. & Di Bitetti, M. Di (2011) Differential impact of landscape transformation on pumas (Puma concolor) and jaguars (Panthera onca) in the Upper Parana Atlantic Forest, Diversity and Distributions,17, 422-436. DOI: 10.1111/j.1472-4642.2011.00746.x
  • Dvorakova, J. & Horsak, M. (2012) Variation of snail assemblages in hay meadows: disentangling predictive power of abiotic environment and vegetation, Malacologia, 55, 151-162.
  • Horsak, M., Hajek, M., Tichy, L. & Jurickova, L. (2007) Plant indicator values as a tool for land mollusc autecology assessment, Acta Oecologica, 32, 161-171.
  • Galparsoro, I., Borja, A., Bald, J., Liria, P. & Chust, G. (2009) Predicting suitable habitat for the European lobster (Homarus gammarus) on the Basque continental shelf (Bay of Biscay), using Ecological- Niche Factor Analysis, Ecological Modelling, 220, 556-567.
  • Gural-Sverlova, N.V. & Gural, R.I. (2012) Guide for the terrestrial molluscs of Ukraine. Lviv, 216 pp. (in Ukrainian).
  • Hall, L., Krausman, P. & Morrison, M. (1997) The habitat concept and a plea for standard terminology, Wildlife Society Bulletin, 25, 173-182.
  • Halstead, B.J., Wylie, G. D. & Casazza, M.L. (2010) Habitat suitability and conservation of the giant gartersnake (Thamnophis gigas) in the Sacramento Valley of California, Copeia, 591-599.
  • Hemery, L., Galton-Fenzi, B., Ameziane, N., Riddle, M., Rintoul, S., Beaman, R., Post, A. & Eleaume, M. (2011) Predicting habitat preferences for Anthometrina adriani (Echinodermata) on the East Antarctic continental shelf, Marine Ecology Progress Series, 441, 105-116.
  • Hermida, J., Outeiro, A. & Rodriguez, T. (1993) Aspectos ecologicos de Vallonia pulchella (Muller, 1774) (Gastropoda, Pulmonata). Nova Acta Cientifica Compostelana (Bioloxia), 4, 129-135.
  • Hirzel, A.H., Hausser, J., Chessel, D. & Perrin, N. (2002) Ecological-niche factor analysis: How to compute habitat-suitability maps without absence data? Ecology, 83, 2027-2036.
  • IUSS Working Group WRB, (2007) World reference base for soil resources 2006, first update 2007. World Soil Resources Reports No. 103. FAO, Rome
  • Jurickova, L., Horsak, M., Cameron, R., Hylander, K., Mikovcova, A., Hlavac, J.C. & Rohovec, J. (2008) Land snail distribution patterns within a site: the role of different calcium sources, European Journal of Soil Biology, 44, 172-179.
  • Kearney, M. P. & Cameron, R. A. D. (1979) A Field Guide to the Land Snails of Britain and North West Europe. Collins. 288 pp.
  • Kearney, M., Simpson, S.J., Raubenheimer, D. & Helmuth, B. (2010) Modelling the ecological niche from functional traits. Philosophical Transactions of the Royal Society B: Biological Sciences, 365(1557), 3469-3483.
  • Koralewska-Batura, E. & Bloszyk, J. (2007) Stability of malacocoenoses in an ash- elm forest based on twoyear observations. Folia Malacologica, 15(4), 175-180. DOI: 10.12657/folmal.015.015
  • Kunakh, O.N. & Kolyada, V.V. (2010) Mapping of techno-earth in geographical and ecological spaces. News of the Dnipropetrovsk state agrarian university, 1, 56--60. (in Russian)
  • Martin, K. & Sommer, M. (2004) Relationships between land snail assemblage patterns and soil properties in temperate-humid forest ecosystems. Journal of Biogeography, 31, 531-545.
  • McClain, C. & Nekola, J.C. (2008) The role of local-scale on terrestrial and deep-sea Gastropod body size distributions across multiple scales, Evolutionary Ecology Research, 10, 129-146.
  • Medvedev, V.V. (2009) Soil penetration resistance and penetrographs in studies of tillage technologies Hardness and hardness schemes in studies of soil cultivation, Eurasian soil science, 3, 325299- 327309.
  • Millar, A.J. & Waite, S. (1999) Molluscs in coppice woodland, Journal of Conchology, 36, 25-48.
  • Muller, J., Stratz, C. & Hothorn, T. (2005) Habitat factors for land snails in European beech forests with a special focus on coarse woody debris, European Journal of Forest Research, 124, 233-242.
  • Mysak, J., Horsak, M., Svobodova, E. & Cernohorsky, N. (2013) Small-scale distribution of terrestrial snails: patterns of species richness and abundance related to area, Journal of Molluscan Studies, 1- 10.
  • Nekola, J.C. (2003) Large-scale terrestrial gastropod community composition patterns in the Great Lakes region of North America, Diversity and Distributions, 9, 55-71.
  • Nekola, J.C. & Smith, T.M. (1999) Terrestrial gastropod richness patterns in Wisconsin carbonate cliff communities, Malacologia, 41, 253-269.
  • Nelson, D.W.& Sommers, L.E. (1982) Total carbon, organic carbon and organic matter. In: Page, A.L. (ed.): Methods of Soil Analyses. Chemical and Microbiological Properties. ASA Monograph, Madison, Wisconsin USA. pp. 539-579.
  • Ondina, P., Mato, S., Hermida, J. & Outeiro, A. (1998) Importance of soil exchangeable cations and aluminium content on land snail distribution, Applied Soil Ecology, 9, 229-232.
  • Ondina, P., Hermida, J., Outeiro, A. & Mato, S. (2004) Relationships between terrestrial gastropod distribution and soil properties in Galicia (NW Spain), Applied Soil Ecology, 26, 1, 1-9.
  • Slepetiene, A., Slepetys, J. & Liaudanskiene, I. (2008). Standard and modified methods for soil organic carbon determination in agricultural soils. Agronomy Research, 6 (2), 543-554.
  • Szybiak, K., Bloszyk, J., Koralewska-Batura, E. & Goldyn, B. (2009) Small-scale distribution of wintering terrestrial snails in forest site: relation to habitat conditions, Polish Journal of Ecology, 57, 525-535.
  • Thiebot, J.-B., Lescroel, A., Pinaud, D., Trathan, P.N. & Bost, C.-A. (2011) Larger foraging range but similar habitat selection in non-breeding versus breeding sub Antarctic penguins, Antarctic Science, 23, 117-126.
  • Tsyganov, D.N. (1983) Phytoindication of environmental factors in the subzone of coniferous-broadleaf forests. Nauka, 198 pp. (in Russian).
  • Tyurin, I.V. (1931) A new modification of the volumetric method of determining soil organic matter by means of chromic acid, Soil Science, 26, 36-47. (in Russian).
  • Uvalieva, K.K. (1990) Terrestrial Mollusks of Kazakhstan and Adjacent Territories. Publishing house "Science", Alma- Ata, 224 p. (in Russian).
  • Vadyunina, A.F. & Korchagina, Z.A. (1986) Methods for studying the physical properties of soils, Agropromizdat, 416 pp. (in Russian).
  • Valle, M., Borja, A., Chust, G., Galparsoro, I. & Garmendia, J.M. (2011) Modelling suitable estuarine habitats for Zostera noltii, using Ecological Niche Factor Analysis and Bathymetric LiDAR, Estuarine, Coastal and Shelf Science, 94, 144-154.
  • Weaver, K.F., Anderson, T. & Guralnick, R. (2006) Combining phylogenetic and ecological niche modeling approaches to determine distribution and historical biogeography of Black Hills mountain snails (Oreohelicidae) Diversity and Distributions, 12, 756-766.
  • Zemoglyadchuk, K.V. (2005) Species composition of terrestrial mollusks of the Berezinsky state biosphere reserve. Proceedings of the National Academy of Sciences of Belarus, Biological Series, 5(1), 87-90. (in Russian).