Open Access
Knowl. Manag. Aquat. Ecosyst.
Number 417, 2016
Article Number 40
Number of page(s) 21
Published online 02 December 2016
  • Bańkowska A, Kłosowska M, Stryjecki R, Zawal A. 2015. New and rare water mite (Hydrachnidia) species in Polish fauna found in the Krąpiel River and valley water bodies in Ińskie Lake District. Acta Biol 22: 15–37. [CrossRef] [Google Scholar]
  • Bilton DT. 1994. The flight apparatus and flying ability of Hydroporus glabriusculus (Coleoptera, Dytiscidae), with a brief review of structural modifications in flightless beetles. Entomol Tidskr 115: 23–32. [Google Scholar]
  • Biesiadka E. 1974. Hydracarina of the river Raba and some of its tributaries. Acta Hydrob 16: 31–50. [Google Scholar]
  • Biesiadka E, Kurzątkowska A. 2003. Water Bugs (Heteroptera) of Nieman River, some of its tributaries and riverine reservoirs. Fragm Faun 46: 131–149. [CrossRef] [Google Scholar]
  • Biesiadka E, Pakulnicka J. 2004a. Water beetles (Coleoptera) in Łomżyński Landscape Park of Valley of Narew River. Parki Nar Rez Przyr 23: 427–447 [in Polish]. [Google Scholar]
  • Biesiadka E, Pakulnicka J. 2004b. Habitat distribution of water beetles (Coleoptera) in the middle reaches of the Neman river. Latvijas Entomologs 41: 9–18. [Google Scholar]
  • Biesiadka E, Cichocka M, Moroz M. 2004. Water mites (Hydrachnidia) from the Neman River, some of its tributaries and riverine reservoirs. Fragm Faun 7: 143–164. [CrossRef] [Google Scholar]
  • Bray J, Curtis JT. 1957. An ordination of the upland forest communities of southern Wisconsin. Ecol Monogr 27: 325–349. [CrossRef] [Google Scholar]
  • Buczyński P. 2007. Dragonflies (Odonata) of the valley of the River Bug between Gołębie and Włodawa. Nowy Pam Fizjogr 5: 3–26 [in Polish]. [Google Scholar]
  • Castella E, Amoros C. 1988. Freshwater macroinvertebrates as functional describers of the dynamics of the former river beds. Verh Internat Verein Theor Angew Limnol 23: 1299–1305. [Google Scholar]
  • Castella E, Richardot-Coulet M, Roux C, Richoux P. 1984. Macroinvertebrates as “describers” of morphological and hydrological types of aquatic ecosystems abandoned by the Rhone River. Hydrobiologia 119: 219–225. [CrossRef] [Google Scholar]
  • Castella E, Richardot-Coulet M, Roux C, Richoux P. 1991. Aquatic macroinvertebrate assemblages of two contrasting floodplains: the Rhône and Ain rivers, France. Regul Rivers Res Manage 6: 289–300. [CrossRef] [Google Scholar]
  • Costea G, Cojocaru I, Pusch M. 2013. The Aquatic Beetles (Insecta: Coleoptera) assemblages in the Lower Prut Floodplain Natural Park (Romania). Natura Montenegr 12: 719–736. [Google Scholar]
  • Czachorowski S. 2004. The Last Natural Eastern River? Caddisflies (Trichoptera) of the Neman River. Latvijas Entomologs 41: 44–51. [Google Scholar]
  • Czachorowski S, Lewandowski K, Wasilewska A. 1993. The importance of aquatic insects for landscape integration in the catchment area of the river Gizela (Masurian Lake District, northeastern Poland). Natura Montenegr 35: 49–64. [Google Scholar]
  • Dąbkowski P, Buczyński P, Zawal A, et al. 2016. The impact of dredging of a small lowland river on water beetle fauna (Coleoptera). J Limnol 75 (3): 472–487. [Google Scholar]
  • Delettre YR, Morvan N. 2000. Dispersal of adult aquatic Chironomidae (Diptera) in agricultural landscapes. Freshwater Biol 44: 399–411. [Google Scholar]
  • Delettre YR, Tréhen P, Grootaert P. 1992. Space heterogeneity, space use and short-rangedispersal in Diptera: a case study. Landsc Ecol 6: 175–181. [CrossRef] [Google Scholar]
  • Galic N, Hengeveld GM, van den Brink PJ, et al. 2013. Persistence of aquatic insects across managed landscapes: effects of landscape permeability on re-colonization and population recovery. PLoS ONE 8: e54584. [CrossRef] [PubMed] [Google Scholar]
  • Giora M. 2014. Habitats. In: Donald Y, ed. Ecology, systematics, and the natural history of predaceous diving beetles (Coleoptera: Dytiscidae). Netherlands: Springer, pp. 307–363. [Google Scholar]
  • Junk WJ. 2000. Mechanisms of development and maintenance of biodiversity in neotropical floodplains. In: Gopal B, Junk WJ, Davis JA, eds. Biodiversity in wetlands: assessment, function and conservation. Leiden: Backhuys Publishers, pp. 119–139. [Google Scholar]
  • Jurkiewicz-Karnkowska E. 2006. Communities of aquatic molluscs in floodplain water bodies of lowland river (Bug River, East Poland). Pol J Ecol 54: 253–266. [Google Scholar]
  • Kajak Z. 1959. The role of water rise in raising up and drifting of benthic fauna in ecosystems connected with rivers. Pol J Ecol 5: 47–53 [in Polish]. [Google Scholar]
  • Koch K. 1989. Die Käfer Mitteleuropas, Band E1. Ökologie: Carabidae-Micropeplidae. Krefeld: Goecke & Evers. [Google Scholar]
  • Kowalik W, Zawal A, Buczyńska E. 2014. Water mites (Acari, Hydrachnidia) of the River Szum and Stream Krupiec in the Roztocze region. Acta Biol 21: 75–89. [Google Scholar]
  • Lundkvist E, Landin J, Milberg P. 2001. Diving beetle (Dytiscidae) assemblages along environmental gradients in an agricultural landscape in Southeastern Sweden. Wetlands 21: 48–58. [CrossRef] [Google Scholar]
  • Lundkvist E, Landin J, Karlsson F. 2002. Dispersing diving beetles (Dytiscidae) in agricultural and urban landscapes in south-eastern Sweden. Ann Zool Fenn 39: 109–123. [Google Scholar]
  • Marchese M, Ezcurra de Drago I. 1992. Benthos of the lotic environments in the middle Paraná River system: transverse zonation. Hydrobiologia 237: 1–13. [CrossRef] [Google Scholar]
  • McAleece N, Lambshead PJD, Paterson GLJ. 1997. Biodiversity Pro. London: The Natural History Museum. [Google Scholar]
  • Mielewczyk S. 2003. Wiosenny stan entomofauny (Odonata, Heteroptera, Coleoptera) w Rzece Warcie i zbiornikach przyrzecznych w Nadwarciańskim Parku Krajobrazowym. R Nauk Pol Tow Ochr Przyr Salamandra 7: 87–99. [Google Scholar]
  • Moroz M, Pakulnicka J, Lukaszuk A. 2004. Fauna of the bugs (Heteroptera) and beetles (Coleoptera) in the watercourses of the Berezina River basin in the Berezinski Biosphere Reserve. Parki Nar Rez Przyr 23: 247–259 [in Polish]. [Google Scholar]
  • Obolewski K, Glińska-Lewczuk K, Kobus S. 2009. Effect of hydrological connectivity on the molluscan community structure in oxbow lakes of the Łyna river. Oceanol Hydrobiol St 37: 75–88. [Google Scholar]
  • Oertli B, Joye DA, Castella E, Juge R, Cambin D, Lachavanne JB. 2002. Does size matter? The relationship between pond area and biodiversity. Biol Conserv 104: 59–70. [CrossRef] [Google Scholar]
  • Pakulnicka J. 1999. The state of research on aquatic beetles (Coleoptera Aquatica) of springs in Poland. In: Biesiadka E, Czachorowski S, eds. Springs in Poland – state of research, monitoring and protection. Olsztyn: Wydawnictwo Wyższej Szkoły Pedagogicznej w Olsztynie, pp. 149–155 [in Polish]. [Google Scholar]
  • Pakulnicka J. 2008. The formation of water beetle fauna in anthropogenic water bodies. Oceanol Hydrobiol St 37: 1–12. [CrossRef] [Google Scholar]
  • Pakulnicka J., Nowakowski J.J. 2012. The effect of hydrological connectivity on water beetles fauna in water bodies within the floodplain of a lowland river (Neman river, Belarus). Oceanol Hydrobiol St 41: 7–17. [CrossRef] [Google Scholar]
  • Pakulnicka J, Górski A, Bielecki A, Buczyński P, Tończyk G, Cichocka M. 2013. Relationships within aquatic beetle (Coleoptera) communities in the light of ecological theories. Fundam Appl Limnol 183: 249–258. [CrossRef] [Google Scholar]
  • Pakulnicka J, Buczyńska E, Buczyński P, et al. 2015a. Are beetles good indicators of insect diversity in freshwater lakes? Oceanol Hydrobiol St 44: 487–499. [Google Scholar]
  • Pakulnicka J, Górski A, Bielecki A. 2015b. Environmental factors associated with biodiversity and the occurrence of rare, threatened, thermophilous species of aquatic beetles in the anthropogenic ponds of the Masurian Lake District. Biodivers Conserv 24: 429–445. [CrossRef] [Google Scholar]
  • Pakulnicka J, Buczyński P, Dąbkowski P, et al. 2016. Aquatic beetles (Coleoptera) in springs of a small lowland river: habitat factors vs landscape factors. Knowl Manag Aquat Ecosyst 417: 29. [CrossRef] [EDP Sciences] [Google Scholar]
  • Pawłowski J, Kubisz D, Mazur M. 2002. Coleoptera beetles. In: Głowaciński Z, ed. Red list of threatened animals in Poland. Kraków: Wydawnictwo Instytutu Ochrony Przyrody Polskiej Akademii Nauk, pp. 88–110 [in Polish]. [Google Scholar]
  • Persson Vinnersten TZ, Lundström JO, Petersson E, Landin J. 2009. Diving beetle assemblages of flooded wetlands in relation to time, wetland type and Bti-based mosquito control. Hydrobiologia 635: 189–203. [CrossRef] [Google Scholar]
  • Petryszak B. 2004. Adephaga. In: Bogdanowicz W, Chudzicka E, Filipiuk I, Skibińska E, eds. Fauna of Poland, characteristics and checklist of species. Warszawa: Muzeum i Instytut Zoologii PAN, pp. 28–44. [Google Scholar]
  • Pither J, Taylor PD. 1998. An experimental assessment of landscape connectivity. Oikos 83, 166–174. [CrossRef] [Google Scholar]
  • Płaska W, Kurzątkowska A, Stępień E, et al. 2016. The effect of dredging of a small lowland river (Krąpiel – NW Poland) on aquatic Heteroptera. Ann Zool Fenn 53: 139–153. [CrossRef] [Google Scholar]
  • Przewoźny M. 2004. Hydrophyloidea. In: Bogdanowicz W, Chudzicka E, Filipiuk I, Skibińska E, eds. Fauna of Poland, vharacteristics and checklist of species. Warszawa: Muzeum i Instytut Zoologii PAN, pp. 149–151. [Google Scholar]
  • Przewoźny M, Buczyński P, Mielewczyk S. 2006. Aquatic beetles (Coleoptera: Adephaga, Hydrophiloidea, Byrrhoidea) of the valley of the River Bug in the Lublin District (South-Eastern Poland). Nowy Pam Fizjogr 4: 23–54 [in Polish]. [Google Scholar]
  • Reckendorfer W, Baranyi C, Funk A, Schiemer F. 2006. Floodplain restoration by reinforcing hydrological connectivity: expected effects on aquatic mollusc communities. J Appl Ecol 43: 474–484. [CrossRef] [Google Scholar]
  • Richards C, Host G. 1994. Examining land use influences on stream habitats and macroinvertebrates: a GIS approach. Water Resour Bull 30: 729–738. [CrossRef] [Google Scholar]
  • Richards C, Johnson LB, Host G. 1996. Landscape-scale influences on stream habitats and biota. Can J Fish Aquat Sci 53: 295–311. [Google Scholar]
  • Robinson CT, Tockner K, Ward V. 2002. The fauna of dynamic riverine landscapes. Freshwater Biol 47: 661–677. [CrossRef] [Google Scholar]
  • Sanderson RA, Eyre MD, Rushton SP. 2005. Distribution of selected macroinvertebrates in a mosaic of temporary and permanent freshwater ponds as explained by autologistic models. Ecography 28: 355–362. [CrossRef] [Google Scholar]
  • Smock LA. 1994. Movements of invertebrates between stream channels and forested floodplains. J North Am Benthological Soc 13: 524–531. [CrossRef] [Google Scholar]
  • Sokal RR, Sneath PHA. 1995. Biometry. San Francisco: W. H. Freeman and Co. [Google Scholar]
  • Stanford JA, Ward JV, Liss WJ, et al. 1996. A general protocol for restoration of regulated rivers. Regul Rivers Res Manage 12: 391–413. [CrossRef] [Google Scholar]
  • Stanley EH, Fisher SG, Grimm NB. 1997. Ecosystem expansion and contraction in streams. Bioscience 47: 427–436. [CrossRef] [Google Scholar]
  • Stępień E, Zawal A, Buczyński P, Buczyńska E. 2015. Changes in the vegetation of small lowland river valley (Krąpiel, NW Poland) after dredging. Acta Biol 22: 168–196. [CrossRef] [Google Scholar]
  • Stryjecki R, Kowalczyk-Pecka D. 2013. A faunistic and ecological characterization of the water mites (Acari: Hydrachnidia) of the highly anthropologically transformed Mietiulka river in Polesie. National Park Environ 24: 11–15. [Google Scholar]
  • Szlauer-Łukaszewska A, Zawal A. 2014. The impact of river dredging on ostracod assemblages in the Krąpiel River (NW Poland). A faunistic and ecological characterization of the water mites (Acari: Hydrachnidia) of the highly anthropologically transformed Mietiulka river in Polesie National Park. Fundam Appl Limnol 185: 295–305. [CrossRef] [Google Scholar]
  • ter Braak CJF. 1986. Canonical correspondence analysis: a new eigenvector technique for ultivariate direct gradient analysis. Ecology, 67: 1167–1179. [CrossRef] [Google Scholar]
  • ter Braak CJF, Verdonschot PFM. 1995. Canonical correspondence analysis and related multivariate methods in aquatic ecology. Aquat Sci 57: 255–289. [CrossRef] [Google Scholar]
  • Tockner K, Malard F, Ward JV. 2000. An extension of the flood pulse concept. Hydrol Process 14: 2861–2883. [Google Scholar]
  • Van den Brink FWB, Van der Velde G. Buijse AD, Klink AG. 1996. Biodiversity in the lower Rhine and Meuse river-floodplains: its significance for ecological river management. Neth J Aquat Ecol 30: 129–149. [CrossRef] [Google Scholar]
  • Ward JV. 1998. Riverine landscapes: biodiversity patterns, disturbance regimes, and aquatic conservation. Biol Cons 83: 269–278. [CrossRef] [Google Scholar]
  • Ward JV, Tockner K, Schiemer F. 1999. Biodiversity of floodplain river ecosystems: ecotones and connectivity. Regul Rivers Res Manage 15: 125–139. [CrossRef] [Google Scholar]
  • Ward JV, Tockner K, Arscott DB, Claret C. 2002. Riverine landscape diversity. Freshw Biol 47: 517–539. [Google Scholar]
  • Winfield Fairchild G, Faulds AM, Matta JF. 2000. Beetle assemblages in ponds: effects of habitat and site age. Freshw Biol 44: 523–534. [CrossRef] [Google Scholar]
  • Wissinger SA. 1999. Ecology of wetland invertebrates: synthesis and applications for conservation and management. In: Batzer DP, Rader RB, Wissinger SA. eds. Invertebrates in freshwater wetlands of North America, ecology and management. New York: John Wiley and Sons, pp. 1043–1086 [Google Scholar]
  • Zawal A, Kowalik W. 2013. Water Mites of the Biała Łada nd Czarna Łada Rivers in the Lublin Region. Annales Universitatis Mariae Curie-Skłodowska, Sectio C 93, pp. 117–125. [Google Scholar]
  • Zawal A, Stępień E, Szlauer-Łukaszewska A, et al. 2015. The influence of a lowland river dredging (the Krąpiel in NW Poland) on water mite fauna (Acari: Hydrachnidia). Fundam Appl Limnol 186: 217–232. [CrossRef] [Google Scholar]
  • Zawal A, Czachorowski S, Stępień E, et al. 2016a. Early post-dredging recolonization of caddisflies (Insecta: Trichoptera) in a small lowland river (NW Poland). Limnology 17: 71–85. [CrossRef] [Google Scholar]
  • Zawal A, Lewin I, Stępień E, et al. 2016b. The influence of landscape structure within buffer zones, catchment land use and instream environmental variables on mollusc communities in a medium-sized lowland river. Ecol Res 31 (6): 853–867. [CrossRef] [Google Scholar]
  • Zawal A, Stryjecki R, Stępień E, et al. 2016c. Water mites (Acari, Hydrachnidia) of water bodies of the Krąpiel River valley − interactions in the spatial arrangement of a river valley. Limnology 17 (3): 247–261. [Google Scholar]
  • Zawal A, Sulikowska-Drozd A, Stępień E, Szlauer-Łukaszewska A, Jankowiak Ł. 2016d. Regeneration of the molluscan fauna of a small lowland river after dredging. Fundam Appl Limnol 187 (4): 281–293. [Google Scholar]

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