Open Access
Knowl. Manag. Aquat. Ecosyst.
Number 418, 2017
Article Number 14
Number of page(s) 12
Published online 29 March 2017
  • Allan JD, Castillo MM. 2007. Stream ecology: structure and function of running waters. Dordrecht: Springer, 436 p. [Google Scholar]
  • Bãnãrescu PM. 2004. Distribution pattern of the aquatic fauna of the Balkan Peninsula. In: Griffith H, Kryštufek B, Reed JM, eds. Balkan biodiversity pattern and process in the European hotspot. Dordrecht: Kluwer Academic Publishers, pp. 203–219. [Google Scholar]
  • Bauernfeind E, Humpesch UH. 2001. Die Eintagsfliegen Zentraleuropas − Bestimmung und Ökologie. Verlag Naturhistorisches Museum Wien: 1–239. [Google Scholar]
  • Bauernfeind E, Moog O. 2000. Mayflies (Insecta: Ephemeroptera) and the assessment of ecological integrity: a methodological approach. Hydrobiologia 422: 71–83. [CrossRef] [Google Scholar]
  • Bauernfeind E, Soldán T. 2012. The mayflies of Europe (Ephemeroptera). Ollerup: Apollo Books, 781 p. [Google Scholar]
  • Bauernfeind E, Moog O, Weichselbaumer P. 2002. Ephemeroptera. Part III. In: Moog O, ed. Fauna Aquatica Austriaca. Wasserwirtschaftkataster, Bundesministerium für Land und Forstwirtschaft, Umwelt und Wasserwirtschaft, Wien, 1–24. [Google Scholar]
  • Berner L, Pescador ML. 1988. The mayflies of Florida − Revised Edition. Gainesville: University Presses of Florida, 415 p. [Google Scholar]
  • Bonacci O, Jelin J. 1988. Identification of a karst hydrological system in the Dinaric karst (Yugoslavia). Hydrolog Sci J 33: 483–497. [Google Scholar]
  • Bonacci O. 2009. Karst landscape ecohydrology. In: Proceedings of International Symposium on Water Management and Hydraulic Engineering, Ohrid, pp. 781–790. [Google Scholar]
  • Bonacci O, Pipan T, Culver D. 2008. A framework for karst ecohydrology. Environ Geol 56: 891–900. [Google Scholar]
  • Bonacci O, Željković I, Galić A. 2013. Karst rivers' particularity: an example from Dinaric karst (Croatia/Bosnia and Herzegovina). Environ Earth Sci 70: 963–974. [CrossRef] [Google Scholar]
  • Brittain JE, Sartori M. 2003. Ephemeroptera (Mayflies). In: Resh VH, Cardé R, eds. Encylopedia of insects. Amsterdam: Academic Press, pp. 373–380. [Google Scholar]
  • Céréghino R, Lavandier P. 1998. Influence of hypolimnetic hydropeaking on the distribution and population dynamics of Ephemeroptera in a mountain stream. Freshwater Biol 40: 385–399. [CrossRef] [Google Scholar]
  • Choudhary J, Singh SN, Singh S. 2014. Physico-chemical and biological parameters of the three rural ponds of Sasaram of Bihar. Int J Appl Sci Biotechno 2: 206–210. [Google Scholar]
  • Clarke KR, Gorley RN. 2006. PRIMER V6: User Manual/Tutorial. Plymouth: Primer-E. [Google Scholar]
  • Dolisy D, Dohet A. 2003. The use of Ephemeroptera to assess aquatic biodiversity in the Luxembourgish rivers. In: Gaino E, ed. Research update on ephemeroptera and plecoptera. Perugia: University of Perugia, pp. 299–303. [Google Scholar]
  • Dufrêne M, Legendre P. 1997. Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecol Monogr 67: 345–366. [Google Scholar]
  • Fjellheim A. 1996. Distribution of benthic invertebrates in relation to stream flow characteristics in a Norwegian river. Regul River 12: 263–271. [CrossRef] [Google Scholar]
  • Fried S, Mackie B, Nothwehr E. 2003. Nitrate and phosphate levels positively affect the growth of algae species found in Perry Pond. Tillers 4: 21–24. [Google Scholar]
  • Gerhardt A. 1990. Effects of subacute doses of Cadmium on pH-stressed Leptophlebia marginata (L.) and Baetis rhodani Pictet (Insecta: Ephemeroptera). Environ Pollut 6: 29–42. [CrossRef] [Google Scholar]
  • Giller PS, Malmqvist B. 1998. The biology of streams and rivers. New York: Oxford University Press, 304 p. [Google Scholar]
  • Habdija I, Primc-Habdija B, Belinić I. 1994. Functional community organization of macroinvertebrates in lotic habitats of the Plitvice lakes. Acta Hydroch Hydrob 22: 85–92. [Google Scholar]
  • Habdija I, Primc-Habdija B, Matoničkin R, Kučinić M, Radanović I, Miliša M, Mihaljević Z. 2004. Current velocity and food supply as factors affecting the composition of macroinvertebrates in bryophyte habitats in karst running water. Biologia 59: 577–593. [Google Scholar]
  • Hrovat M, Urbanič G, Sivec I. 2009. Community structure and distribution of Ephemeroptera and Plecoptera larvae in lowland karst rivers in Slovenia. Aquat Insect 31: 343–357. [CrossRef] [Google Scholar]
  • Hrovat M, Urbanič G, Sivec I. 2014. Aquatic insects along environmental gradients in a karst river system: a comparative analysis of EPT larvae assemblage components. Int Rev Hydrobiol 99: 1–14. [CrossRef] [Google Scholar]
  • Ivković M, Plant A. 2015. Aquatic insects in the Dinarides: identifying hotspots of endemism and species richness shaped by geological and hydrological history using Empididae (Diptera). Insect Conserv Divers. doi: 10.1111/icad.12113. [Google Scholar]
  • Ivković M, Kesić M, Mihaljević Z, Kúdela M. 2013a. Emergence patterns and ecological associations of some haematophagous blackfly species along an oligotrophic hydrosystem. Med Vet Entomol 28: 94–102. [Google Scholar]
  • Ivković M, Gračan R, Horvat B. 2013b. Croatian aquatic dance flies (Diptera: Empididae: Clinocerinae and Hemerodromiinae): species diversity, distribution and relationship to surrounding countries. Zootaxa 3686: 255–276. [CrossRef] [PubMed] [Google Scholar]
  • Jacob U. 1974. Rhithrogena braaschi n. sp., eine neue Heptageniidae aus Bulgarien (Insecta, Ephemeroptera). Entomol Nachr Ber 18: 167–173. [Google Scholar]
  • Jazdzewska T, Górczynski A. 1991. Les Ephéméropteres des rivières qui franchissent la zone marginale du Roztocze Central. In: Alba-Tercedor J, Sánchez-Ortega A, eds. Overview and strategies of Ephemeroptera and Plecoptera. Florida: The Sandhill Crane Press, pp. 263–270. [Google Scholar]
  • Jones JB, Mulholland PJ. 2000. Streams and ground waters. San Diego: Academic Press, 425 p. [Google Scholar]
  • Kamler E. 1965. Thermal conditions in mountain waters and their influence on distribution of Plecoptera and Ephemeroptera larvae. Ekol Pol 13: 1–38. [Google Scholar]
  • Lencioni V, Spitale D. 2015. Diversity and distribution of benthic and hyporheic fauna in different stream types on an alpine glacial floodplain. Hydrobiologia 751: 73–87. [CrossRef] [Google Scholar]
  • López-Rodríguez MJ, Tierno de Figueroa JM, Alba-Tercedor J. 2010. Comparative Study of the Nymphal biology of two coexisting species of mayflies (Insecta: Ephemeroptera) in a Mediterranean stream in Southern Europe. Int Rev Hydrobiol 95: 58–71. [CrossRef] [Google Scholar]
  • Makjanić B. 1958. O klimi užeg područja Plitvičkih jezera. Hrvatski geografski glasnik (in Croatian): 33–34. [Google Scholar]
  • Matoničkin I, Pavletić Z. 1961. Biljni i životinjski svijet na sedrenim slapovima jugoslavenskih krških voda. Biološki glasnik (in Croatian) 14: 105–127. [Google Scholar]
  • Matoničkin I, Pavletić Z. 1967. Hidrologija potočnog Sistema Plitvičkih jezera i njegove ekološko-biocenološke značajke. Krš Jugoslavije, JAZU, Zagreb (in Croatian) 5: 83–126. [Google Scholar]
  • Menetrey N, Oertli B, Sartori M, Wagner A, Lachavanne JB. 2008. Eutrophication: are mayflies (Ephemeroptera) good bioindicators for ponds ? Hydrobiologia 597: 125–135. [CrossRef] [Google Scholar]
  • Mičetić Stanković V, Jäch MA, Kučinić M. 2015. Annotated checklist of Croatian riffle beetles (Insecta: Coleoptera: Elmidae). Nat Croat 24: 93–109. [CrossRef] [Google Scholar]
  • Mihevc A, Zupan-Hajna N, Prelovšek M. 2010. Case study from the Dinaric karst of Slovenia. In: Mihevc A, Prelovšek M, Zupan-Hajna N, eds. Introduction to the Dinaric karst. Postojna: Karst Research Institute, pp. 49–66. [Google Scholar]
  • Miliša M, Habdija I, Primc-Habdija B, Radanović I, Matoničkin Kepčija R. 2006. The role of flow velocity in the vertical distribution of particulate organic matter on moss-covered travertine barriers of the Plitvice Lakes (Croatia). Hydrobiologia 553: 231–243. [CrossRef] [Google Scholar]
  • Moog O. 2002. Fauna Aquatica Austriaca, Edition 2002. Wassserwirtschaftskataster, Bundesministerium für Land- und Forstwirtschaft, Umwelt und Wasserwirtschaft, Vienna. [Google Scholar]
  • Obelić B, Horvatinčić N, Barešić J, Briansó Babinka S, Suckow A. 2005. Anthropogenic pollution in karst lake sediments (Croatia). In: Özkul M, Yaĝiz S, Jones B, eds. Proceedings of 1st International Symposium on Travertine, 179–186. [Google Scholar]
  • Petrik M. 1961. Temperatura i kisik Plitvičkih jezera. JAZU, Zagreb, 1–37 (In Croatian). [Google Scholar]
  • Petrin Z. 2011. Species traits predict assembly of mayfly and stonefly communities along pH gradients. Oecologia 167: 513–524. [CrossRef] [PubMed] [Google Scholar]
  • Popijač A, Sivec I. 2009. Diversity and distribution of stoneflies in the area of Plitvice Lakes National Park and along the Mediterranean river Cetina (Croatia). Aquat Insect 31: 731–742. [Google Scholar]
  • Previšić A, Kerovec M, Kučinić M. 2007. Emergence and composition of Trichoptera from karst habitats, Plitvice Lakes Region, Croatia. Int Rev Hydrobiol 92: 61–83. [CrossRef] [Google Scholar]
  • Previšić A, Walton C, Kučinić M, Mitrikeski PT, Kerovec M. 2009. Pleistocene divergence of Dinaric Drusus endemics (Trichoptera, Limnephilidae) in multiple microrefugia within the Balkan Peninsula. Mol Ecol 18: 634–647. [CrossRef] [PubMed] [Google Scholar]
  • Previšić A, Schnitzler J, Kučinić M, Graf W, Ibrahimi H, Kerovec M, Pauls SU. 2014. Microscale vicariance and diversification of Western Balkan caddisflies linked to karstification. Freshwater Sci 33: 250–262. [Google Scholar]
  • Sánchez‐Fernández D, Abellán P, Velasco J, Millán A. 2004. Selecting areas to protect the biodiversity of aquatic ecosystems in a semiarid Mediterranean region. Aquat Conserv 14: 465–479. [CrossRef] [Google Scholar]
  • Schmedtje U, Colling M. 1996. Ökologische Typisierung der aquatischen Makrofauna. Inf ber Bayer Landesamtes Wasserwirtsch 4: 1–543. [Google Scholar]
  • Schmidt-Kloiber A, Hering D. 2015. − an online tool that unifies, standardises and codifies more than 20,000 European freshwater organisms and their ecological preferences. Ecol Indic 53: 271–282. [CrossRef] [Google Scholar]
  • Šemnički P, Previšić A, Ivković M, Čmrlec K, Mihaljević Z. 2012. Tufa barriers from a caddisfly's point of view: streams or Lake Outlets? Int Rev Hydrobiol 97: 465–484. [Google Scholar]
  • Sertić Perić M, Miliša M, Matoničkin Kepčija R, Primc-Habdija B, Habdija I. 2011. Seasonal and fine-scale spatial drift patterns in tufa-depositing barrage hydrosystem. Fund Appl Limnol 178: 131–145. [Google Scholar]
  • Siegloch AE, Suriano M, Spies M, Fonseca-Gessner A. 2014. Effect of land use on mayfly assemblages structure in Neotropical headwater streams. An Acad Bras Ciênc 86(4): 1735–1747. doi:10.1590/0001-3765201420130516. [CrossRef] [Google Scholar]
  • Šikić Z. 2007. Plan upravljanja Nacionalnog parka Plitvička Jezera [Plitvice Lakes National Park Management Plan]. Croatian Ministry of Culture. ISBN 978-953-6240-83-8. Retrieved 31 March 2015 (In Croatian). [Google Scholar]
  • Špoljar M, Primc-Habdija B, Habdija I. 2007. Transport of seston in the karstic hydrosystem of the Plitvice Lakes (Croatia). Hydrobiologia 579: 199–209. [CrossRef] [Google Scholar]
  • Srdoč D. 1985. Procesi taloženja kalcita u krškim vodama s posebnim osvrtom na Plitvička jezera. Krš Jugoslavije 11: 4–6. [Google Scholar]
  • Štambuk-Giljanović N. 2005. The quality of water resources in Dalmatia. Environ Monit Assess 104: 235–267. [Google Scholar]
  • Stilinović B, Božičević S. 1998. The Plitvice Lakes − a natural phenomenon in the middle of the Dinaric karst in Croatia. Eur Water Manage 1: 15–24. [Google Scholar]
  • Ter Braak CJF, Šmilauer P. 1998. Canoco for windows: software for canonical community ordination (version 4.02). Wageningen, The Netherlands: Centre for Biometry Wageningen, CPRODLO. [Google Scholar]
  • Vannote RR, Minshall GW, Cummins KW, Sedell JR, Cushing CE. 1980. The river continuum concept. Can J Fish Aquat Sci 37: 130–137. [Google Scholar]
  • Vidinova Y. 2003. Contribution to the study of mayfly fauna (Ephemeroptera) in Bulgaria. In: Gaino E, ed. Research update on Ephemeroptera and Plecoptera, Proceedings of the International Joint Meeting, 2001, Perugia (Italy), pp. 159–163. [Google Scholar]
  • Vilenica M, Gattolliat J-L, Ivković M, Kučinić M, Mičetić Stanković V, Mihaljević Z, Sartori M. 2014. The mayfly fauna (Insecta, Ephemeroptera) of the Plitvice Lakes National park, Croatia. Nat Croat 23: 349–363. [Google Scholar]
  • Vilenica M, Gattolliat J-L, Mihaljević Z, Sartori M. 2015. Croatian mayflies (Insecta, Ephemeroptera): species diversity and distribution patterns. ZooKeys 523: 99–127. [Google Scholar]
  • Vilenica M, Previšić A, Kučinić M, Gattolliat JL, Sartori M, Mihaljević Z. 2016a. Distribution and autecology of mayflies (Insecta, Ephemeroptera) in a Mediterranean river in the Western Balkans. Entomol News 126: 19–35. [CrossRef] [Google Scholar]
  • Vilenica M, Previšić A, Ivković M, et al. 2016b. Mayfly (Insecta: Ephemeroptera) assemblages of a regulated perennial Mediterranean river system in the Western Balkans. Biologia 71: 1038–1048. [CrossRef] [Google Scholar]
  • Wetzel RG. 2001. Limnology: lake and river ecosystems, 3rd ed. San Francisco, New York, London: Academic Press (An Elsevier Science Imprint), 1006 p. [Google Scholar]
  • Williams DD, Hynes HBN. 1974. The occurrence of benthos deep in the substratum of a stream. Freshwater Biol 4: 233–256. [CrossRef] [Google Scholar]

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