Abstract
Environmental factors driving compositional changes of headwater aquatic assemblages have been widely studied as these habitats are among the most vulnerable environments and host diverse and species-rich assemblages. However, responses of individual species to multiple environmental gradients remain poorly known, despite such information being essential for understanding the differences in metacommunity structuring. This study aims to explore species-specific responses to the main environmental gradients in Central European spring fens and to assess the responses in relation to the specialist-generalist categorization of species. In total, the responses of 40 species were analysed by GLM, cluster analysis and PCA. Spring-fen specialists responded predominantly to water temperature and the proportion of fine particulate organic matter in the substratum, while generalists responded mainly to flow conditions and oxygenation in the combination with various substratum characteristics. Our results revealed that it is not easy to find general patterns in species responses to environmental gradients. However, we found a clear distinction between specialist and generalist species in how the local environment affects their successful colonization and establishment of viable population. This result emphasizes the need to consider species specialization in future ecological studies of aquatic spring biota.
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References
Barquín, J. & R. G. Death, 2011. Downstream changes in spring-fed stream invertebrate communities: the effect of increased temperature range? Journal of Limnology 70: 134–146.
Beaujean, A. A., 2012. BaylorEdPsych: r package for Baylor University Educational Psychology Quantitative Courses. R package version 0.5. http://CRAN.R-project.org/package=BaylorEdPsych.
Blythe, M., 2010. Ellipteroides craneflies (Diptera: Limoniidae) in the Wyre Forest. Wyre Forest Study Group Review, Me Blythe.
Bojková, J. & J. Helešic, 2009. Spring fens as a unique biotope of stonefly larvae (Plecoptera): species richness and species composition gradients. Aquatic Insects 31: 359–367.
Borcard, D., P. Legendre, C. Avois-Jacquet & H. Tuomisto, 2004. Dissecting the spatial structure of ecological data at multiple scales. Ecology 85: 1826–1832.
Bottazzi, E., M. C. Bruno, V. Pieri, A. di Sabatino, L. Silveri, M. Carolli & G. Rossetti, 2011. Spatial and seasonal distribution of invertebrates in Northern Apennine rheocrene springs. Journal of Limnology 70: 77–92.
Brázdil, R., L. Řezníčková, J. Balek, L. Bartošová, I. Bičík, P. Cudlín, P. Čermák, P. Dobrovolný, M. Dubrovský, A. Farda, M. Hanel, J. Hladík, P. Hlavinka, B. Janský, P. Ježík, K. Klem, J. Kocum, T. Kolář, O. Kotyza, T. Kyncl, E. Krkoška Lorencová, J. Macků, J. Mikšovský, M. Možný, R. Muzikář, I. Novotný, A. Pártl, P. Pařil, R. Pokorný, M. Rybníček, D. Semerádová, E. Soukalová, Z. Stachoň, P. Štěpánek, P. Štych, P. Treml, O. Urban, D. Vačkář, H. Valášek, A. Vizina, R. Vlnas, J. Vopravil, P. Zahradníček & Z. Žalud, 2015. Historie počasí a podnebí v českých zemích XI: Sucho v českých zemích: minulost, současnost a budoucnost. Centrum výzkumu globální změny Akademie věd České republiky, v.v.i., Brno.
Bulánková, E., 2007. Microhabitat distribution of Diptera larvae (excl. Chironomidae, Simuliidae) in a small Carpathian stream. Acta Zoologica Universitatis Comenianae 47: 127–135.
Cantonati, M., R. Gerecke & E. Bertuzzi, 2006. Springs of the Alps—sensitive ecosystems to environmental change: from biodiversity assessments to long-term studies. Hydrobiologia 562: 59–96.
Cantonati, M., L. Füreder, R. Gerecke, I. Jüttner & E. J. Cox, 2012. Crenic habitats, hotspots for freshwater biodiversity conservation: toward an understanding of their ecology. Freshwater Science 31: 463–480.
Crossley, R., 2005. Noteworthy Diptera from Yorkshire in 2004. In Dipterists Day Exhibits 2004, edited by P.J. Chandler. Dipterists Digest 10: 49–54.
Domisch, S., M. Araújo, N. Bonada, S. U. Pauls, S. C. Jähnig & P. Haase, 2013. Modelling distribution in European stream macroinvertebrates under future climates. Global Change Biology 19: 752–762.
Epler, J. H., T. Ekrem & P. S. Cranston, 2013. 10 The larvae of Chironominae of the Holarctic Region—Keys and diagnoses, pp. 387–556. In: Andersen, T., P. S. Cranston & J. H. Epler (eds), The larvae of Chironomidae (Diptera) of the Holarctic Region—Keys and diagnoses. Insect Systematics & Evolution 66: 1–571.
Erman, N. A. & D. C. Erman, 1995. Spring permanence, Trichoptera species richness, and the role of drought. Journal of the Kansas Entomological Society 68: 50–64.
Ferrington Jr., L. C., R. G. Kavanaugh, F. J. Schmidt & J. L. Kavanaugh, 1995. Habitat separation among Chironomidae (Diptera) in Big Springs. Journal of the Kansas Entomological Society 68: 152–165.
Gerecke, R., M. Cantonati, D. Spitale, E. Stur & S. Wiedenbrug, 2011. The challenges of long-term ecological research in springs in the northern and southern Alps: indicator groups, habitat diversity, and medium-term change. Journal of Limnology 70: 168–187.
Giłka, W., 2005. A systematic review of European Stempellina Thienemann et Bause, 1913 (Diptera: Chironomidae) with description of a new species from Fennoscandia. Annales Zoologici 55: 413–419.
Glazier, D. S., 1991. The fauna of North American temperate cold springs: patterns and hypotheses. Freshwater Biology 26: 527–542.
Glazier, D. S. & J. L. Gooch, 1987. Macroinvertebrate assemblages in Pennsylvania (U.S.A.) springs. Hydrobiologia 150: 33–43.
Hájek, M., M. Horsák, P. Hájková & D. Dítě, 2006. Habitat diversity of central European fens in relation to environmental gradients and an effort to standardise fen terminology in ecological studies. Perspectives in Plant Ecology, Evolution and Systematics 8: 97–114.
Hájková, P., M. Horsák & M. Hájek, 2012. Late Glacial and Holocene history of the Western Carpathian calcareous fens. In Grootjans, A., V. Šefferová-Stanová & A. Jansen (eds), Calcareous Mires of Slovakia: Landscape Setting, Management and Restoration Prospects. KNNV Publishing, Zeist: 13–20.
Heino, J. & H. Mykrä, 2008. Control of stream insect assemblages: roles of spatial configuration and local environmental factors. Ecological Entomology 33: 614–622.
Hoffsten, P.-O. & B. Malmqvist, 2000. The macroinvertebrate fauna and hydrogeology of springs in central Sweden. Hydrobiologia 463: 91–104.
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.
Horsák, M. & N. Cernohorsky, 2008. Mollusc diversity patterns in Central European fens: hotspots and conservation priorities. Journal of Biogeography 35: 1215–1225.
Horsák, M. & M. Hájek, 2003. Composition and species richness of molluscan communities in relation to vegetation and water chemistry in the Western Carpathian spring fens: the poor–rich gradient. Journal of Molluscan Studies 69: 349–435.
Horsák, M., V. Rádková, V. Syrovátka, J. Bojková, V. Křoupalová, J. Schenková & J. Zajacová, 2015. Drivers of aquatic invertebrate richness at spring fens related to dispersal mode and habitat specialisation. Journal of Biogeography 42: 2112–2121.
Hubáčková, L., V. Rádková, J. Bojková, V. Syrovátka, V. Polášková, J. Schenková & M. Horsák, 2016. Diversity patterns of aquatic specialists and generalists: contrasts among two spring–fen mesohabitats and nearby streams. Biologia 71: 678–687.
Ilmonen, J. & L. Paasivirta, 2005. Benthic macrocrustacean and insect assemblages in relation to spring habitat characteristics: patterns in abundance and diversity. Hydrobiologia 533: 99–113.
Ivković, M., M. Miliša, V. Baranov & Z. Mihaljevič, 2015. Environmental drivers of biotic traits and phenology patterns of Diptera assemblages in karst springs: the role of canopy uncovered. Limnologica 54: 44–57.
Landeiro, V. L., L. M. Bini, A. S. Mělo, A. M. O. Pes & W. E. Magnusson, 2012. The roles of dispersal limitation and environmental conditions in controlling caddisfly (Trichoptera) assemblages. Freshwater Biology 57: 1554–1564.
Lau, M., 2013. Dunnett-Tukey-Kramer pairwise multiple comparison test adjusted for unequal variances and unequal sample sizes. R package version 3.5. http://CRAN.R-project.org/package=DTK.
Lencioni, V., L. Marziali & B. Rossaro, 2011. Diversity and distribution of chironomids (Diptera, Chironomidae) in pristine Alpine and pre-Alpine springs Northern Italy. Journal of Limnology 70: 106–121.
Lindegaard, C., 1995. Chironomidae (Diptera) of European cold springs and factors influencing their distributions. Journal of the Kansas Entomological Society 68: 108–131.
Maliolini, B., M. Carolli & L. Silveri, 2011. Ephemeroptera, Plecoptera and Trichoptera in springs in Trentino south-eastern Alps. Journal of Limnology 70: 122–133.
McCullagh, P. & J. A. Nelder, 1989. Generalized Linear Models, 2nd ed. Chapman and Hall, London.
McFadden, D., 1974. Conditional logit analysis of qualitative choice behavior. In Zarembka, P. (ed.), Frontiers in Econometrics. Academic Press, New York: 105–142.
Moller Pillot, H. K. M., 2009. Chironomidae Larvae of Netherlands and Adjacent Lowlands: Biology and Ecology of the Aquatic Chironomini. KNNV Publishing, Zeist.
Moller Pillot, H. K. M., 2013. Chironomidae Larvae of Netherlands and Adjacent Lowlands: Biology and Ecology of the Aquatic Orthocladiinae. KNNV Publishing, Zeist.
Oksanen, J., F. G. Blanchet, R. Kindt, P. Legendre, P. R. Minchin, R. B. O’Hara, G. L. Simpson, P. Solymos, M. H. H. Stevens & H. Wagner, 2013. Vegan: community ecology package. R package version 2.0-10. http://CRAN.R-project.org/package=vegan.
Omelková, M., V. Syrovátka, V. Křoupalová, V. Rádková, J. Bojková, M. Horsák, M. Zhai & J. Helešic, 2013. Dipteran assemblages of spring fens closely follow the gradient of groundwater mineral richness. Canadian Journal of Fisheries and Aquatic Sciences 70: 689–700.
Poulíčková, A., M. Hájek & K. Rybníček, 2005. Ecology and Palaeoecology of Spring Fens in the Western Part of the Carpathians. Palacký University, Olomouc.
R Core Team. 2014. R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna. http://www.R-project.org.
Rádková, V., V. Syrovátka, J. Bojková, J. Schenková, V. Křoupalová & M. Horsák, 2014a. The importance of species replacement and richness differences in small-scale diversity patterns of aquatic macroinvertebrates in spring fens. Limnologica 47: 52–61.
Rádková, V., J. Bojková, V. Křoupalová, J. Schenková, V. Syrovátka & M. Horsák, 2014b. The role of dispersal mode and habitat specialisation in metacommunity structuring of aquatic invertebrates in isolated spring fens. Freshwater Biology 59: 2256–2267.
Salmela, J., 2001. Adult craneflies (Diptera: Nematocera) around springs in southern Finland. Entomologica Fennica 12: 139–152.
Siqueira, T., L. M. Bini, F. O. Roque, S. R. Marques Couceiro, S. Trivinho-Strixino & K. Cottenie, 2012. Common and rare species respond to similar niche processes in macroinvertebrate metacommunities. Ecography 35: 183–192.
Soininen, J., M. Kokocinski, S. Estlander, J. Kotanen & J. Heino, 2007. Neutrality, niches, and determinants of plankton metacommunity structure across boreal wetland ponds. Ecoscience 14: 146–154.
Spitale, D., M. Leira, N. Angeli & M. Cantonati, 2012. Environmental classification of springs of the Italian Alps and its consistency across multiple taxonomic groups. Freshwater Science 31: 563–574.
Thomson, A. G. & N. Friberg, 2002. Growth and emergence of the stonefly Leuctra nigra in coniferous forest streams with contrasting ph. Freshwater Biology 47: 1159–1172.
Von Fumetti, S., P. Nagel, N. Scheifhacken & B. Baltes, 2006. Factors governing macrozoobenthic assemblages in perennial springs in north-western Switzerland. Hydrobiologia 568: 467–475.
Wagner, R., J. Fisher & S. Schnabel, 1998. The Diptera community of central european springs: a summary. In Botosaneanu, L. (ed.), Studies in Crenobiology. The Biology of Springs and Springbrooks. Backhuys Publishers, Leiden.
Zhai, M., O. Nováček, D. Výravský, V. Syrovátka, J. Bojková & J. Helešic, 2015a. Environmental and spatial control of ostracod assemblages in the Western Carpathian spring fens. Hydrobiologia 745: 225–239.
Zhai, M., D. Hřívová & T. Peterka, 2015b. The harpacticoid assemblages (Copepoda: Harpacticoida) in the Western Carpathian spring fens in relation to environmental variable and habitat age. Limnologica 53: 84–89.
Acknowledgements
We thank Ondřej Hájek for the map preparation. The study was financially supported by the Czech Science Foundation (P505/16-03881S).
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Rádková, V., Polášková, V., Bojková, J. et al. Environmental filtering of aquatic insects in spring fens: patterns of species-specific responses related to specialist-generalist categorization. Hydrobiologia 797, 159–170 (2017). https://doi.org/10.1007/s10750-017-3169-4
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DOI: https://doi.org/10.1007/s10750-017-3169-4