1. bookVolume 40 (2021): Issue 4 (December 2021)
Journal Details
License
Format
Journal
eISSN
1337-947X
First Published
24 Aug 2013
Publication timeframe
4 times per year
Languages
English
access type Open Access

Environmental Aspect of Population Organisation of Terrestrial Mollusk Brephulopsis cylindrica (Pulmonata, Buliminidae) in Space and Time at a Remediation Territory (Nikopol Manganese ore Basin)

Published Online: 23 Dec 2021
Page range: 379 - 383
Received: 02 Mar 2021
Accepted: 27 Sep 2021
Journal Details
License
Format
Journal
eISSN
1337-947X
First Published
24 Aug 2013
Publication timeframe
4 times per year
Languages
English
Abstract

Density variability of a population of the mollusk Brephulopsis cylindrica (Menke, 1828) was studied at a reclaimed site in the Nikopol manganese ore basin. This study was conducted on sod-lithogenic soil on grey-green clay. The samples were collected over 3 years, 3 times a year, on a regular grid. Lexis aggregation index (λ) and geostatistical tools were used to characterise spatial distribution of the mollusks. The correlation between the distribution of B. cylindrica and environmental factors was established using correlation analysis. Valid correlations were identified between distribution of the mollusk and variation of the fraction content in composition of structural aggregates of soil. Also, valid correlations were identified with plant species composition at the reclaimed site.

Keywords

Andrusevich, E.V. & Shtirts Yu.A. (2014). Ekologicheskoe raznoobrazie rastitelnogo pokrova tehnozemov uchastka rekultivatsii Nikopolskogo margantsevorudnogobassey na. Industrial Botany, 14, 115–127. Search in Google Scholar

Andrusevych, K. & Zadorozhnaya G. (2019). Diversity, dynamics and ecological analysis of flora of reclaimed soil. Folia Oecologica, 46(2), 153−163. DOI:10.2478/foecol-2019-0018.10.2478/foecol-2019-0018 Search in Google Scholar

Arora, N.K. (2018). Biodiversity conservation for sustainable future. Environmental Sustainability, 1, 109–111. DOI: 10.1007/s42398-018-0023-1.10.1007/s42398-018-0023-1 Search in Google Scholar

Blaud, A., Menon, M., van der Zaan, B., Lair, G.J. & Banwar S.A. (2017). Chapter five - Effects of dry and wet sieving of soil on identification and interpretation of microbial community composition. Adv. Agr., 142, 119−142. DOI: 10.1016/bs.agron.2016.10.006.10.1016/bs.agron.2016.10.006 Search in Google Scholar

Buta, M., Blaga, G., Paulette, L., Păcurar, I., Roşca, S., Borsai, O., Grecu, F., Sînziana, P. & Negruşier C. (2019). Soil reclamation of abandoned mine lands by revegeta tion in northwestern part of Transylvania: a 40-year retro spective study. Sustainability, 11(12), 3393. DOI: 10.3390/su11123393.10.3390/su11123393 Search in Google Scholar

Chernov, Ju.I. (2008). Jekologija i biogeografija. Moscow: Tovarishhestvo nauchnyh izdanij KMK. Search in Google Scholar

Czachor, H., Charytanowicz, M., Gonet, S., Niewczas, J., Jozefaciuk, G. & Lichner L. (2015). Impact of long-term mineral and organic fertilizer application on the water stability, wettability and porosity of aggregates obtained from two loamy soils. Eur. J. Soil Sci., 66(3), 577. DOI: 10.1111/ejss.12242.10.1111/ejss.12242 Search in Google Scholar

Dray, S., Legendre, P. & Peres-Neto P. (2006). Spatial modelling: a comprehensive framework for principal coordinate analysis of neigh-bours matrices (PCNM). Ecol. Model., 196, 483–493. DOI: 10.1016/j.ecolmodel.2006.02.015.10.1016/j.ecolmodel.2006.02.015 Search in Google Scholar

Faechner, T., Pyrcz, M.J. & Deutsch C.V. (2000). Soil remediation decision making in presence of uncertainty in crop yield response. Geoderma, 97, 21–38. DOI: 10.1016/S0016-7061(00)00024-0.10.1016/S0016-7061(00)00024-0 Search in Google Scholar

Farjalla, V.F., Srivastava, D.S., Marino, N.A.C., Azevedo, F.D., Dib, V., Lopes, P.M., Rosado, A.S., Bazelli, R.L. & Esteves F.A. (2012). Ecological determinism increases with organism size. Ecology, 93(7), 1752–1759. DOI: 10.1890/11-1144.1.10.1890/11-1144.1 Search in Google Scholar

García-Palacios, P., Maestre, F.T., Bardgett, R.D. & de Kroon H. (2012). Plant responses to soil heterogeneity and global environmental change. J. Ecol., 100(6), 1303–1314. DOI: 10.1111/j.1365-2745.2012.02014.x.10.1111/j.1365-2745.2012.02014.x Search in Google Scholar

García-Palacios, P., Maestre, F.T. & Gallardo A. (2011). Soil nutrient het-Soil nutrient heterogeneity modulates ecosystem responses to changes in the identity and richness of plant functional groups. J. Ecol., 99(2), 551–562. DOI: 10.1111/j.1365-2745.2010.01765.x.10.1111/j.1365-2745.2010.01765.x Search in Google Scholar

Giljarov, A.M., Chekryzheva, T.A. & Sadchikov A.P. (1979). Struktura gorizontal‘nogo raspredelenija planktona. Hydrobiological Journal, 15(4), 10–18. Search in Google Scholar

Giljarov, М.S. (1983). Fauna i jekologija pochvennyh bespozvonochnyh Moskovskoj oblasti. Moscow: Nauka. Search in Google Scholar

Gural-Sverlova, N.V. & Gural R.I. (2012). Naukovі kolekcії Derzhavnogo prirodoznavchogo muzeju. Malakologіchnij fond. L’viv. Search in Google Scholar

IUSS Working Group WRB (2015). World reference base for soil resources 2014, update 2015: international soil clas sification system for naming soils and creating legends for soil maps. World Soil Resources Reports, No. 106. Rome: FAO. Search in Google Scholar

Jacobson, B., Grant, J.W.A. & Peres-Neto P.R. (2015). The interaction between the spatial distribution of resource patches and population density: consequences for intraspecific growth and morphology. J. Anim. Ecol., 84, 934–942. DOI: 10.1111/1365-2656.12365.10.1111/1365-2656.12365 Search in Google Scholar

Kramarenko, S.S. & Dovgal I.V. (2014). Spatial variation of the land snail Brephulopsis cylindrical (Gastropoda, Pulmonata, Enidae): a fractal approach. Vestn. Zool., 48(5), 433–440. DOI: 10.2478/vzoo-2014-0051.10.2478/vzoo-2014-0051 Search in Google Scholar

Legendre, P. & Legendre L. (1998). Numerical ecology. Amsterdam: Elsevier. Search in Google Scholar

Medvedev, V.V. (2010). Neodnorodnost kak zakonomernoe proyavlenie gorizontalnoy strukturyi pochvennogo pokrova. Gruntoznavstvo, 11(1–2), 6–15. Search in Google Scholar

Pokarzhevsky, A.D., Gongalsky, K.B. & Zaitsev A.S. (2007). Prostranstvennaja jekologija pochvennyh zhivotnyh. Moscow: Galleja Print. Search in Google Scholar

Ravkin, Yu.S. & Livanov S.G. (2008). Faktornaja zoogeografija. Principy, metody i teoreticheskie predstavlenija. Novosibirsk: Nauka. Search in Google Scholar

Shilejko, A. A. (1984). Nazemnye molljuski podotrjada Pupillina fauny SSSR (Gastropoda, Pulmonata, Geophila). Leningrad: Nauka. Search in Google Scholar

Snegin, E.A., Adamova, V.V. & Sichev A.A. (2017). Morfo-geneticheskaja izmenchivost’ nativnyh i adventivnyh populjacij molljuska Brephulopsis cylindrica (Gastropoda, Pulmonata, Enidae). Ruthenica, 27(3), 119−132. DOI: 10.35885/ruthenica.2017.27(3).3.10.35885/ruthenica.2017.27(3).3 Search in Google Scholar

Soininen, J. (2015). Spatial structure in ecological communities – a quantitative analysis. Oikos, 125(2), 160−166. DOI: 10.1111/oik.02241.10.1111/oik.02241 Search in Google Scholar

Štursová, M., Bárta, J., Šantrůčková, H. & Baldrian P. (2016). Small-scale spatial heterogeneity of ecosystem properties, microbial community composition and microbial activities in a temperate mountain forest soil. FEMS Microbiol. Ecol., 92(12), 185. DOI: 10.1093/femsec/fiw185.10.1093/femsec/fiw185 Search in Google Scholar

Valbuena Calderon, C.A., Martines, L.J. & Giraldo H. (2008). Variabilidad espacial del suelo y su relacion con el rendimiento de mango (Mangifera indica L.). Revista Brasileira de Fruticultura, 30(4), 1146–1151. DOI: 10.1590/S0100-29452008000400049.10.1590/S0100-29452008000400049 Search in Google Scholar

Verones Junior, V., Carvalho, M.P., Dafonte, J., Freddi, O.S., Vidal Vazquey, E. & Ingaramo O.E. (2006). Spatial variability of soil water content and mechanical resistance of Brazilian ferralsol. Soil Tillage Res., 85(1–2), 166–177. DOI: 10.1016/j.still.2005.01.018.10.1016/j.still.2005.01.018 Search in Google Scholar

Webster, R. & Oliver M.A. (2007). Geostatistics for environmental scientist. Chichester: John Wiley & Sons.10.1002/9780470517277 Search in Google Scholar

Yavitt, J.B., Harms, K.E., Garcia, M., Smithsonian, W., Joseph, S., He, F. & Mirabello M.J. (2009).Spatial heterogeneity of soil chemical properties in a lowland tropical moist forest, Panama. Austr. J. Soil Res., 47(7), 674−687. DOI: 10.1071/SR08258.10.1071/SR08258 Search in Google Scholar

Yeterevska, L.V., Stammerer, G.F. & Kanash A.P. (2008). Rekultyvovani grunty pidkhody do klasyfikatsii i systematyky. Gruntiznavstvo, 9(3–4), 147–150. Search in Google Scholar

Zadorozhnaya, G. (2018). Spatiotemporal dynamics of soil penetration resistance of recultivated soil. Ekológia (Bratislava), 37(3), 82–89. DOI: 10.2478/eko-2018-0008.10.2478/eko-2018-0008 Search in Google Scholar

Zadorozhnaya, G.A., Andrusevych, K.V. & Zhukov O.V. (2018). Soil heterogeneity after recultivation: ecological aspect. Folia Oecologica, 45(1), 46−52. DOI: 10.2478/foecol-2018-0005.10.2478/foecol-2018-0005 Search in Google Scholar

Zhang, Z., Hu, B. & Hu G. (2014). Spatial heterogeneity of soil chemical prop-Spatial heterogeneity of soil chemical properties in a subtropical Karst forest, Southwest China. The Scientific World Journal, 2014(1−2), 473651. DOI: 10.1155/2014/473651.10.1155/2014/473651 Search in Google Scholar

Zhukov, A.V., Zadorojhna, G.O. & Lyadskaya I.V. (2013). Agregatnaja struktura tehnozemov Nikopol‘skogo margancevo-rudnogo bassejna. Biological Bulletin of Bogdan Chmelnitskiy Melitopol State Pedagogical University, 3(3), 274–286.10.15421/20133_58 Search in Google Scholar

Zuo, X., Zhao, X., Zhao, H., Hui, Z. T., Guo, Y., Li, Y. & Huang Y. (2009). Spatial heterogeneity of soil properties and vegetation–soil relationships following vegetation restoration of mobile dunes in Horqin Sandy Land, Northern China. Plant and Soil, 318(1), 153−167. DOI: 10.1007/s11104-008-9826-7.10.1007/s11104-008-9826-7 Search in Google Scholar

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