[Bába, K., (1977). Die kontinentalen Schneckenbestände der Eichen-Ulmen-Eschen - Auwäldern (Fraxino pannonicae-Ulmetum pannonicum Soó) in der Ungarischen Tiefebene. Malacologia 16: 51–57.]Search in Google Scholar
[Baur, B., Bengtsson, J. (1987). Colonizing ability in land snails on Baltic uplift archipelagos. Journal of Biogeography 14, 329–341.10.2307/2844941]Search in Google Scholar
[Bishop, M.J., (1980). The Mollusca of acid woodland in the Italian province of Novara. Journal of Conchology 30: 181–188.]Search in Google Scholar
[Boss, K.J., (1974). Oblomovism in the Mollusca. Transaction of the American Microscopical Society 93: 460–481.]Search in Google Scholar
[Boycott, A.E., (1934). The habitats of land Mollusca in Britain. Journal of Ecology 22: 1–38.]Search in Google Scholar
[Brown, A.G., Harper, D., Peterken, G.F., (1997). European floodplain forests: structure, functioning and management. Global Ecology and Biogeography 6: 169–178.]Search in Google Scholar
[Břízová, E., Juřičková, L. (2011). Could canopy forests survive agricultural colonization in the Polabí lowland (Czech Republic)? Bulletin of Geosciences 86: 283–300.10.3140/bull.geosci.1260]Search in Google Scholar
[Burch, J.B., (1955). Some ecological factors of the soil affecting the distribution andabundance of terrestrial gastropods in eastern Virginia. The Nautilus 69: 62–69.]Search in Google Scholar
[Cameron, R.A.D., Down, K., Pannett, D.J., (1980). Historical and environmental influences on hedgerow snail faunas. Biological Journal of Linnean Society 13: 75–87.]Search in Google Scholar
[Cameron, R.A.D., Pokryszko, B.M., (2005). Estimating the species richness and composition of land mollusc communities: problems, consequences and practical advice. Journal of Conchology 38: 529–548.]Search in Google Scholar
[Cameron, R.D.A. (2015). Speedy snails (and spiedier slugs). World of snails.]Search in Google Scholar
[Cook, A., (2001). Behavioural ecology: on doing the right thing, in the right place at the right time. In: Barker G.M. (Ed.), The biology of terestrial molluscs (pp. 447–487). Wallingford, CABI Publishing.]Search in Google Scholar
[Cornelissen, J.H.C., Thompson, K., (1997). Functional leaf attributes predict litter decomposition rate in herbaceous plants. New Phytologist 135: 109–114.]Search in Google Scholar
[Cowie, R.H., (1985). Microhabitat choice and high temperature tolerance in the land snail Theba pisana (Mollusca: Gastropoda). Journal fo Zoology 207: 201–211.]Search in Google Scholar
[Čejka, T., (1999). The terrestrial molluscan fauna of the Danubian floodplain (Slovakia). Biologia 54: 489–500.]Search in Google Scholar
[Čejka, T., (2003). Molluscs (Mollusca). In: Stanová V., Viceníková A. (Eds), Biodiversity of Abrod - state, changes and restoration (pp. 187–190), Bratislava, Daphne - Institute of Applied Ecology.]Search in Google Scholar
[Čejka, T., Čiliak, M., Šteffek, J. (2015). Molluscan diversity in stream driftwood. Relation to land use and river section. Polish Journal of Ecology DOI: 10.3161/15052249PJE2015.63.1.01110.3161/15052249PJE2015.63.1.011]Search in Google Scholar
[Čejka, T., Hamerlík, L. (2009). Land snails as indicators of soil humidity in Danubian woodland (SW Slovakia). Polish Journal of Ecology 57: 741–747.]Search in Google Scholar
[Čejka, T., Horsák, M., Némethová, D. (2008). The composition and richness of Danubian floodplain forest land snail faunas in relation to forest type and flood frequency. Journal of Molluscan Studies 74: 37–45.]Search in Google Scholar
[Di Lellis, M.A., Seifan, M., Troschinski, S., Mazzia, C.H., Capowiez, Y., Triebskorn, R., Köhler, H. (2012). Solar radiation stress in climbing snails: behavioural and intrinsic features define the Hsp70 level in natural populations of Xeropicta derbentina (Pulmonata). Cell Stress and Chaperones 17: 717.]Search in Google Scholar
[Dirzo, R. (1980). Experimental studies on slug-plant interactions: I. The acceptability of thirty plant species to slug Agriolimax caruneae. Journal of Ecology 68: 981–998.]Search in Google Scholar
[Dvořáková, J., Horsák, M. (2012). Variation of snail assemblages in hay meadows: disentangling the predictive power of abiotic environment and vegetation. Malacologia 55: 151–162.]Search in Google Scholar
[Ernst, C.M., Cappuccino, N. (2005). The effect of an invasive alien vine, Vincetoxicum rossicum (Asclepiadaceae), on arthropod populations in Ontario old fields. Biological Invasions 7: 417–425.]Search in Google Scholar
[Evans, J.G. (1993). The influence of human communities on the English chalklands from the Mesolithic to the Iron Age: the molluscan evidence. In: Chambers F.M. (Ed.), Climate change and human impact on the landscap (pp. 147–156), London, Chapman and Hall.]Search in Google Scholar
[Frank, C. (1984). Aquatische und terrestrische Mollusken der niederösterreichischen Donau - Auengebiete und der angrenzenden Biotope. VI. Die Donau von Wien bis zur Staatsgrenze. Teil. 1. Zeitschrift für Angewandte Zoologie 3: 257–303.]Search in Google Scholar
[Frank, C. (1985). Aquatische und terrestrische Mollusken der niederösterreichischen Donau - Auengebiete und der angrenzenden Biotope. VI. Die Donau von Wien bis zur Staatsgrenze. Teil 2. Zeitschrift für Angewandte Zoologie 4: 405–457.]Search in Google Scholar
[Gerber, E., Krebs, C., Murrell, C., Moretti, M., Rocklin, R., et al. (2008). Exotic invasive knotweeds (Fallopia spp.) negatively affect native plant and invertebrate assemblages in European riparian habitats. Biological Conservation 141: 646–654.]Search in Google Scholar
[Getz, L.L., Uetz, G.W. (1994). Species diversity of terrestrial snails in the southern Appalachian mountains, U.S.A. Malacological Review 27: 61–74.]Search in Google Scholar
[Gittenberger, E., Groenenberg, D.S.J., Kokshoorn, B., Preece, R.C. (2006). Molecular trails from hitch- hiking snails. Nature 439, 409.10.1038/439409a16437103]Search in Google Scholar
[Gleich, J.G., Gilbert, F.F. (1976). A survey of terrestrial gastropods from central Maine. Canadian Journal of Zoology 54: 620–627.]Search in Google Scholar
[Greenwood, H., O'Dowd, D.J., Lake, P.S. (2004). Willow (Salix ×rubens) invasion of the riparian zone in south-eastern Australia: reduced abundance and altered composition of terrestrial arthropods. Diversity and Distribution 10: 485–492.]Search in Google Scholar
[Gurnell, A. (1977). The hydrological and geomorphological sifnificance of forested floodplains. Global Ecology and Biogeography 6: 219–229.]Search in Google Scholar
[Hedge, P., Kriwoken, L.K., (2000). Evidence for effects of Spartina anglica invasion on benthic macrofauna in Little Swanport estuary, Tasmania. Austral Ecology 25: 150–159.]Search in Google Scholar
[Hejda, M., Pyšek, P., (2006). What is the impact of Impatiens glandulifera on species diversity of invaded riparian vegetation? Biological Conservation 132: 143–152.10.1016/j.biocon.2006.03.025]Search in Google Scholar
[Hejda, M., Pyšek, P., Jarošík, V., (2009). Impact of invasive plants on the species richness, diversity and composition of invaded communities. Journal of Ecology 97: 393–403.]Search in Google Scholar
[Herrera, A.M., Dudley, T.L., (2003). Reduction of riparian arthropod abundance and diversity as a consequence of giant reed (Arundo donax) invasion. Biological Invasions 5: 167–177.]Search in Google Scholar
[Horáčková, J., Ložek, V., Juřičková, L. (2011a). Nivní malakofauna řeky Ohře – její minulost a současnost. Malacologica Bohemoslovaca (2011), 10: 51–6410.5817/MaB2011-10-51]Search in Google Scholar
[Horáčková, J., Ložek, V. & Juřičková, L. (2011b). Měkkýši v nivě Milešovského potoka. Malacologica Bohemoslovaca 10: 24–34.10.5817/MaB2011-10-24]Search in Google Scholar
[Horáčková, J. & Juřičková, L., (2013a). Nivní malakofauna Ploučnice (Severní Čechy). [The floodplain mollusc fauna of the Ploučnice River (North Bohemia)]. Malacologica Bohemoslovaca, 12: 40–47.10.5817/MaB2013-12-40]Search in Google Scholar
[Horáčková, J., Ložek, V. & Juřičková, L., (2013b). Malakofauna v nivě Jizery (Severní Čechy). [The mollusc fauna of the Jizera River floodplain (North Bohemia)]. Malacologica Bohemoslovaca, 12: 48–59.10.5817/MaB2013-12-40]Search in Google Scholar
[Horáčková, J., Ložek, V., Juřičková, L., (2013c). Malakofauna Úštěckého potoka a její vývoj během holocénu. Malacologica Bohemoslovaca (2013), 12: 26–39.10.5817/MaB2013-12-40]Search in Google Scholar
[Horáčková, J., Ložek, V., Beran, L., Juřičková, L., Podroužková, Š., Peterka, J., Čech, M. (2014a). Měkkýši údolí Vltavy Čechy). (Mollusc fauna of the Vltava River Valley (Bohemia). Malacologica Bohemoslovaca 13, 12–105.10.5817/MaB2014-13-12]Search in Google Scholar
[Horáčková, J., Horsák, M. & Juřičková, L. (2014b). Land snail diversity and composition in relation to ecological variations in Central European floodplain forests and history. Community Ecology, 15(1): 44–53.10.1556/ComEc.15.2014.1.5]Search in Google Scholar
[Horáčková, J., Juřičková, L., Šizling, A.L., Jarošík, V., Pyšek, P. (2014c). Invasiveness Does Not Predict Impact: Response of Native Land Snail Communities to Plant Invasions in Riparian Habitats. PLoS ONE, 9(9): e108296. doi:10.1371/journal.pone.010829610.1371/journal.pone.0108296416960625238059]Search in Google Scholar
[Horáčková, J., Ložek, V., Juřičková, L. (2015). List of malacologically treated Holocene sites with brief review of palaeomalacological research in the Czech and Slovak Republics. Quaternary International 357: 207–211.]Search in Google Scholar
[Horsák, M. (2000). Měkkýši (Mollusca) navrhované NPR Oderský luh v CHKO Poodří (Česká republika). Časopis Slezského Muzea Opava (A) 49: 183–187.]Search in Google Scholar
[Horsák, M. (2006). Mollusc community patterns and species response curves along a mineral richness gradient: a case study in fens. Journal of Biogeography 33: 98–107.]Search in Google Scholar
[Horsák, M., Novák, J., Novák, M. (2006). Prales NPR Mionší – malakozoologický ráj v Beskydech [Virgin forest of the Mionší National Nature Reserve - a malacological Eden in the Beskydy Mts (South Moravia, Czech Republic)]. Malacologica Bohemoslovaca, 5: 18–24. Online serial at <http://mollusca.sav.sk> 12-May-2006.]Search in Google Scholar
[Horsák, M., Cernohorsky, N. (2008). Mollusc diversity patterns in Central European fens: hotspots and conservation priorities. Journal of Biogeography 35: 1215–1225.]Search in Google Scholar
[Horsák, M., Hájek, M. (2003). Composition and species richness of mollusc communities in realtion to vegetation and water chemistry in the Western Carpathian spring fens: the poor-rich gradient. Journal of Molluscan Studies 69: 349–357.]Search in Google Scholar
[Horsák, M., Šteffek, J., Čejka, T., Ložek, V., Juřičková, L. (2009). Occurrence of Lucilla scintilla (R.T. Lowe, 1852) and Lucilla singleyana (Pilsbry, 1890) in the Czech and Slovak Republics – with remarks how to distinguish these two non-native minute snails. Malacologica Bohemoslovaca 8: 24–27.]Search in Google Scholar
[Horsák, M., Chytrý, M., Danihelka, J., Kočí, M., Kubešová, S., Lososová, Z., Otýpková, Z., Tichý, L. (2010). Snail faunas in the Southern Ural forests and their relations to vegetation: an analogue of the Early Holocene assemblages of Central Europe? Journal of Molluscan Studies 76: 1–10.10.1093/mollus/eyp039]Search in Google Scholar
[Horsák, M., Juřičková, L., Picka, J. (2013a). Měkkýši České a Slovenské republiky. (Molluscs of the Czech and Slovak Republics). Nakl. Kabourek, Zlín, 264 pp.]Search in Google Scholar
[Horsák, M., Chytrý, M., Axmanová, I. (2013b). Exceptionally poor land snail fauna of central Yakutia (NE Russia): climatic and habitat determinants of species richness. Polar Biology 36: 185–191.10.1007/s00300-012-1249-5]Search in Google Scholar
[Hylander, K., Nilsson, C., Jonssona, B.G., Göthner, T. (2005). Differences in habitat quality explain nestedness in a land snail metacommunity. Oikos 108: 351–361.]Search in Google Scholar
[Ilg, C., Foeckler, F., Deichner, O., Henle, K. (2009). Extreme flood events favour floodplain mollusc diversity. Hydrobiologia 621: 63–73.]Search in Google Scholar
[Jeník, J., Slavíková, J. (1964). Střední Vltava a její přehrady z hlediska geobotanického. In: Jeník J. (ed.), Vegetační problémy při budování vodních děl (pp. 67–100). NČSAV, Praha.]Search in Google Scholar
[Jiráň, L., Venclová, N. (Eds) (2007–2008). Archeology of the prehistoric Czech 1–8. Archeologický ústav AV ČR v.v.i., Praha.]Search in Google Scholar
[Juřičková, L. (1995). Měkkýší fauna Velké Prahy a její vývoj pod vlivem urbanizace. Natura Pragensis 12. Český ústav pro ochranu přírody. 212 pp.]Search in Google Scholar
[Juřičková, L. (1998). Měkkýši Plzně (Mollusca of Plzeň, West Bohemia, Czech Republic). Sborn. Západočes. Muz. Plzeň, Přír., 96:1-47.]Search in Google Scholar
[Juřičková, L. & Kučera, T.: Land snail assemblage patterns along motorways in relation to environmental variables. In: Contributions to Soil Zoology in Central Europe II., Tajovský, K., Schlaghamerský, J. & Pižl, V. (eds.): (75-7)8. ISB BC AS CR, v.v.i., České Budějovice, 2007. ISBN 978-80-86525-08-2]Search in Google Scholar
[Juřičková, L., Horsák, M., Cameron, R.A.D., Hylander, K., Míkovcová, A., Hlaváč, J., Rohovec, J. (2008). Land snail distribution patterns within a site: the role of different calcium sources. European Journal of Soil Biology 44: 172–179.]Search in Google Scholar
[Juřičková, L., Horáčková, J., Ložek, V. & Horsák, M., (2013a). Impoverishment of recent floodplain forest mollusc fauna in the lower Ohře River (Czech Republic) as a result of prehistoric human impact. Boreas, 42: 932–946.10.1111/bor.12006]Search in Google Scholar
[Juřičková, L., Horáčková, J., Jansová, A., Ložek, V., (2013b). Mollusc succession of a prehistoric settlement area during the Holocene: A case study of the České středohoří Mountains (Czech Republic). The Holocene, 23(12): 1811–1823.10.1177/0959683613505347]Search in Google Scholar
[Juřičková, L., Horáčková, J., Ložek, V., (2014). Direct evidence of central European forest refugia during the last glacial period based on mollusc fossils. Quaternary Research, 82: 222–228.]Search in Google Scholar
[Kappes, H., Lay, R., Topp, W. (2007). Changes in different trophic levels of litter-dwelling macrofauna associated with giant knotweed invasion. Ecosystems 10: 734−744.]Search in Google Scholar
[Kennedy, T.A., Finlay, J.C., Hobbie, S.E. (2005). Eradication of invasive Tamarix ramosissima along a desert stream increases native fish density. Ecological Applications 15: 2072–2083.]Search in Google Scholar
[Kerney, M.P., Cameron, R.A.D., Jungbluth, J.H. (1983). Die Landschnecken Nord und Mitteleuropas. Hamburg and Berlin, Verlag Paul Parey, 384 pp.]Search in Google Scholar
[Klimo, E. (2000). Lesnická pedologie. MZLU Brno, 259 pp.]Search in Google Scholar
[Koutika, L.S., Rainey, H.J., Dassonville, N. (2011). Impacts of Solidago gigantea, Prunus serotina, Heracleum mantegazzianum and Fallopia japonica invasions on ecosystems. Applied Ecology and Environmental Research 9: 73–83.]Search in Google Scholar
[Kovanda, J., Horáček, I., Symonová, R. (2005). Pátek, Levousy a Chlumčany – významné fosiliferní středopleistocénní lokality na pravém břehu Ohře mezi Louny a Libochovicemi. Malacologica Bohemoslovaca 3: 149–172.]Search in Google Scholar
[Labaune, C., Magnin, F. (2001). Land snail communities in Mediterranean upland grassland: the relative importance of four sets of environmental and spatial variables. Journal of Molluscan Studies 67: 463–474.]Search in Google Scholar
[Lenz, T.I., Moyle-Croft, J.L., Facelli, J.M. (2003). Direct and indirect effects of exotic annual grasses on species composition of a South Australian grassland. Austral Ecology 28: 23–32.]Search in Google Scholar
[Lespez, L., Clet-Pellerin, M., Limondin-Louzouet, N., Pastre, J.-F., Fontugne, M., Marcigny, C., (2008). Fluvial system evolution and environmental changes during the Holocene in the Mue valley (Western France). Geomorphology 98: 55–70.]Search in Google Scholar
[Limondin-Lozouet, N., Preece, R.C. (2004). Molluscan successions from the Holocene tufa of St. Germain-le Vasson, Normandy (France) and their biogeographical significance. Journal of Quaternary Science 19(1): 55–71.]Search in Google Scholar
[Ložek, V. (1947). Měkkýši dolního Povltaví. Časopis Národního muzea 2: 135–148.]Search in Google Scholar
[Ložek, V. (1949). Studie českých stepí na základě recentních i fosilních měkkýšů. Rozpravy České akademie věd a umění 58/18: 91.]Search in Google Scholar
[Ložek, V. (1955). Měkkýši lužní reservace u Kozel nad Labem. Ochrana přírody 10(6): 186.]Search in Google Scholar
[Ložek, V. (1963). Der altholozäne Dauch von Mrsklesy im Böhmischen Mittelgebirge. Antropozoikum 1: 63–74.]Search in Google Scholar
[Ložek, V. (1964a). Quartärmollusken der Tschechoslowakei. Rozpravy Ústředního ústavu geologického, Praha, 374 pp.]Search in Google Scholar
[Ložek, V. (1964b). Biostratigraphic research of the important Quaternary profiles of the ČSSR. Zprávy o geologických výzkumech 1: 348–350.]Search in Google Scholar
[Ložek, V. (1976). Měkkýší fauna potoční nivy pod Kuzovem u Třebívlic. Severočeskou přírodou 7: 1–14.]Search in Google Scholar
[Ložek, V. (1988). Říční fenomén a přehrady. Vesmír 67: 318–326.]Search in Google Scholar
[Ložek, V. (1998). Late Bronze Age environmental collapse in the sandstone areas of northern Bohemia. In: Hänsel B. (Ed.), Mensch und Umwelt in der Bronzezeit Europas (pp. 57–60.), Oetker–Voges–Verlag, Kiel.]Search in Google Scholar
[Ložek, V. (2003). IV. Fosilní měkkýši ve výplních pískovcových převisů a jejich význam pro poznání pravěkého prostředí. In: Svoboda J. (Ed.), Mezolit severních Čech (328 pp), Dolnověstonické studie 9.]Search in Google Scholar
[Ložek, V. (2005). Holocene malacofauna from Řisuty and its significance for the environmental history of the north-west Bohemian forest steppe area. Severočeskou přírodou 36/37: 11–22.]Search in Google Scholar
[Ložek, V. (2007). Zrcadlo minulosti. Česká a slovenská krajina v kvartéru. Praha, Dokořán, 198 pp.]Search in Google Scholar
[Ložek, V. (2011). Po stopách pravěkých dějů. O silách, které vytvářely naši krajinu. Dokořán, Praha, 181 pp.]Search in Google Scholar
[Ložek, V., Juřičková, L. (2012). Proudové koridory, náplavy a měkkýši. I. Pojem náplav, jeho vymezení a postavení v nivním ekosystému Živa 5: 218–220.II. Co vyčteme z náplavů.. Živa 6: 269–271.]Search in Google Scholar
[Martin, K., Sommer, M. (2004a). Relationships between land snail assemblage patternsand soil properties in temperate-humid forest ecosystems. Journal of Biogeography 31: 531–545.10.1046/j.1365-2699.2003.01005.x]Search in Google Scholar
[Martin, K., Sommer, M. (2004b). Effects of soil properties and land management on the structure of grassland snail assemblages in SW Germany. Pedobiologia 48: 193–203.10.1016/j.pedobi.2003.12.004]Search in Google Scholar
[McCoy, K., Nudds, T.D. (1997). Interspecific variation in climbing by gastropods: implications for transmission of Parelaphostrongylus tenuis. American Midland Naturalist 137: 320–328.]Search in Google Scholar
[Millar, A.J., Waite, S. (1999). Molluscs in coppice woodland. Journal of Conchology 36: 25–48.]Search in Google Scholar
[Mincheva, T., Barni, E., Varese, G.C., Brusa, G., Cerabolini, B., et al. (2014). Litter quality, decomposition rates and saprotrophic mycoflora in Fallopia japonica (Houtt.) Ronse Decraene and in adjacent native grassland vegetation. Acta Oecologica 54: 2–35.]Search in Google Scholar
[Myšák, J. & Horáčková, J., (2011). Malakofauna údolí Tiché Orlice. [Mollusc fauna of the]Search in Google Scholar
[Tichá Orlice River valley]. Malacologica Bohemoslovaca, 10: 38–44.]Search in Google Scholar
[Myšák, J., Horsák, M. (2011). Floodplain corridor and slope effects on land mollusc distribution patterns in a riverine valley. Acta Oecologica 37: 146–154.]Search in Google Scholar
[Obrdlík, P., Falkner, G., Castella, E. (1995). Biodiversity of Gastropoda in European floodplains. Archiv für Hydrobiologie, Suppl. 101: 339–356.]Search in Google Scholar
[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.]Search in Google Scholar
[Pálková, K. (2007). Palatabilita druhů, jejich bionomické vlastnosti a rychlost rozkladu detritu. Diplomová práce, Jihočeská univerzita v Českých Budějovicích, České Budějovice, 68 pp.]Search in Google Scholar
[Pišút, P., Čejka, T. (2002). Historical development of floodplain site using Mollusca and cartographic evidence. Ekológia 21/4: 378–396.]Search in Google Scholar
[Pleinerová, I. (1990). Dva eneolitické dlouhé domy u Března. Památky archeologické 81:266–274.]Search in Google Scholar
[Pleinerová, I., Pavlů, I. (1979). Březno. Osada z mladší doby kamenné v severozápadních Čechách. Ústí nad Labem, 139 pp.]Search in Google Scholar
[Podroužková, Š., Janovský, Z., Juřičková, J. & Horáčková, J. (2014). Do snails eat exotic plant species invading the river floodplains? Journal of Molluscan Studies (2014): 1–8.10.1093/mollus/eyu073]Search in Google Scholar
[Podroužková, Š., Říhová, D., Juřičková, L. (in prep.). Flood deposits – the storytellers about mollusc fauna: a case study on the Kačák brook (Central Bohemia: Czech Republic).]Search in Google Scholar
[Pokorný, P. (2005). Role of man in development of Holocene vegetation in Central Bohemia. Preslia 77: 113–127.]Search in Google Scholar
[Pokorný, P. (2011). Neklidné časy. Kapitoly ze společných dějin přírody a lidí. Dokořán, Praha, 369 pp.]Search in Google Scholar
[Pokorný, P., Chytrý, M., Juřičková, L., Sádlo, J., Novák, J., Ložek, V. (2015). Mid-Holocene bottleneck for central european dry grasslands: Did steppe eurvive the forest optimum in northern Bohemia, Czech Repulic? The Holocene 25(4), 716-726.10.1177/0959683614566218]Search in Google Scholar
[Pokryszko, B.M. (1993). Fen malacocenoses in Dovrefjell (S. Norway). Fauna Norvegica, Ser. A 14: 27–38.]Search in Google Scholar
[Pokryszko, B.M., Cameron, R.A.D. (2005). Geographical variation in the composition and richness of forest snail faunas in northern Europe. In: Cameron R.A.D., Nekola J.C., Pokryszko B.M., Wells F.E. (Eds), Pattern and proces in land mollusc diversity, (pp. 115–132), Records of the Western Australian Museum, Suppl. 68, Perth, Western Australia.]Search in Google Scholar
[Ricciardi, A., Cohen, J. (2007). The invasiveness of an introduced species does not predict its impact. Biological Invasions 9: 309–315.]Search in Google Scholar
[Reid, D.G., Claremont, M., Smith, L., Shamoto, M., Glaubrecht, M., Ozawa, T. (2013). Mosaics in the mangroves: allopatric diversification of tree-climbing mudwhelks (Gastropoda: Potamididae: Cerithidea) in the Indo-West Pacific. Biological Journal of the Linnean Society 110: 564–580.]Search in Google Scholar
[Rejšek, K. (1999). Lesnická pedologie (cvičení). MZLU Brno, 154 s.]Search in Google Scholar
[Rochette, R., Dill, L.M. (2000). Mortality, behaviour and the effects of predators on the intertidal distribution of littorinid gastropods. Journal of Experimental Marine Biology and Ecology 253: 165–191.]Search in Google Scholar
[Ruckli, R., Rusterholz, H., Baur, B. (2013). Invasion of Impatiens glandulifera affects terrestrial gastropods by altering microclimate. Acta Oecologica 47: 16–24.]Search in Google Scholar
[Schnitzler, A. (1994). European alluvial hardwood forests of large floodplains. Journal of Biogeography 14: 97–117.]Search in Google Scholar
[Schnitzler, A., Hale, B.W., Alsum, E. (2005). Biodiversity of floodplain forests in Europe and eastern North America: a comparative study of the Rhine and Mississippi Valleys. Biodiversity and Conservation 14: 97–114.]Search in Google Scholar
[Slobodchikoff, C.N., Doyen, J.T. (1977). Effects of Ammophila arenaria on sand dune arthropod communities. Ecology 58: 1171–1175.]Search in Google Scholar
[Smolíková, L., Ložek, V. (1978). Die nacheiszeitlichen Bodenabfolgen von Poplze und Štětí als Beleg der Boden- und Landschaftsentwicklung im böhmischen Tschernosemgebiet. In: Beitr. zur Quartär und Landschaftsforsch (pp. 531–549). Festschrifte zum 60. Geburgstag von J. Fink. Verlag F. Hirt, Wien.]Search in Google Scholar
[Speiser, B. (2001). Food and feeding behaviour. In: Barker G. M. (Ed.), The biology of terrestrial molluscs (pp. 259–288), Wallingford, CABI Publishing.]Search in Google Scholar
[Stoll, P., Gatzsch, K., Rusterholz, R., Baur, B. (2012). Response of plant and gastropod species to knotweed invasion. Basic and Applied Ecology 13: 232–240.]Search in Google Scholar
[Sulikowska-Drozd, A., Horsák, M. (2007). Woodland mollusc communities along environmental gradients in the East Carpathians. Biologia 62: 201–209.]Search in Google Scholar
[Štěrba, O. et al. (Ed.) (2008). Říční krajina a její ekosystémy. Olomouc, Univerzita Palackého v Olomouci, 391 pp.]Search in Google Scholar
[Topp, W., Kappes, H., Rogers, E. (2008). Response of ground-dwelling beetle (Coleoptera) assemblages to giant knotweed (Reynoutria spp.) invasion. Biological Invasions 10: 381–390.]Search in Google Scholar
[Vašátko, J., Wohlgemuth, E., Horsák, M., (2002). Nivní malakocenózy v povodí dolní Olšavy. Sborník Přírodovědeckého klubu v Uherském Hradišti 7: 77–88.]Search in Google Scholar
[Wada, S., Kawakami, K., Chiba, S., (2012). Snails can survive passage throuth a bird’s digestive system. Journal of Biogeography 39(1), 69–73. DOI: 10.1111/j.1365-2699.2011.02559.]Search in Google Scholar
[Wäreborn, I., (1969). Land molluscs and their environments in an oligotrophic area in southern Sweden. Oikos 20: 461–479.]Search in Google Scholar
[Wäreborn, I., (1970). Environmental factors influencing the distribution of land molluscs of an oligotrophic area in southern Sweden. Oikos 21: 285–291.]Search in Google Scholar
[Wäreborn, I., (1979). Reproduction of two species of land snails in relation to calcium salts in foerna layer. Malacologia 18: 177–180.]Search in Google Scholar
[Wilkie, L., Cassis, G., Gray, M., (2007). The effects on terrestrial arthropod communities of invasion of a coastal heath ecosystem by the exotic weed bitou bush (Chrysanthemoides monilifera ssp. rotundata L.). Biological Invasions 9: 477–498.]Search in Google Scholar