Abstract
Evidences from fossil records and genetic research suggest that the arboreal refugia were not restricted to Southern Europe and in particular to the Mediterranean peninsulas during the full-glacials. Fossil pollen data and macrofossil remains indicate that several tree species have survived also at the Southern edge of the cold-dry steppe-tundra area in Central and Eastern Europe. Recent results of surveys on the Late Pleistocene Mammalian fauna clearly contradict to the “tree-less tundra” models for Europe North of the transverse mountain ranges of the Pyrenees, Alps and Carpathians. It was pointed out that the carrying capacity to feed the herds of large herbivores demands a rather productive environment. The presence of Northern temperate refugia is also supported by the “non-analogue” assemblages of small mammals discovered from the Late Pleistocene of unglaciated areas of Eastern Central Europe. The assembly of species today typifying the tundra, steppe and semi-desert habitats seems to include also species from deciduous woodland. Extra-Mediterranean core areas were identified also in widely dispersed cold-tolerant frogs and reptiles. Some of their core areas had been at least near the Carpathians and/or marginal areas of the Carpathian Basin. The close faunal connections of the Carpathians suggest the existence of highly dynamic contacts and exchanges with mountains of the Balkan Peninsula during the climatic fluctuations of the Upper Pleistocene. The Eastern and Southern Carpathians, together with the mountains of Western Transylvania, can be considered as core areas of survival and autochtonous evolution in some invertebrate groups with limited mobility. The post-glacial re-population of the Carpathian Basin from different directions has been supported by Illyrian versus Dacian vicarious pairs of sister species/subspecies. In mobile insect groups, peripherically isolated sibling species/subspecies have only been evolved, which display manifold biogeographic connections, e.g. to the Balkan Peninsula, Asia Minor or Southern Russia. The organisation of community-complexes of the Pannonian forest-steppe connected by habitat ecotones resulted in the overlap of several different faunal types, e.g. Mediterranean, Balkanic, Siberian, Ponto-Caspian, Ponto-Pannonian, Turano-Eremic and Xeromontane elements.
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References
Babik W, Branicki W, Sandera M, Litvinchuk S, Borkin LJ, Irwin JT, Rafinski J (2004) Mitochondrial phylogeography of the moor frog, Rana arvalis. Mol Ecol 13:1469–1480
Bennett KD, Tzedakis PC, Willis KJ (1991) Quaternary refugia of North European trees. J Biogeogr 18:103–115
Bilton DT, Mirol PM, Mascheretti S, Fredga K, Zima J, Searle JB (1998) Mediterranean Europe as an area of endemism for small mammals rather than a source for Northwards post-glacial colonization. Proc R Soc Lond B Biol Sci 265:1219–1226
Björkman L, Feurdean A, Wohlfarth B (2003) Late-Glacial and Holocene forest dynamics at Steregoiu in the Gutaiului Mountains, Northwest Romania. Rev Palaeobot Palynol 124:79–111
Bordács S, Popescu F, Sladed D, Csaikl UM et al (2002) Chloroplast DNA variation of white oaks in Northern Balkans and in the Carpathian Basin. For Ecol Manage 156:197–209
Brunhoff C, Galbreath KE, Fedorov VB, Cook JA, Jaarola M (2003) Holarctic phylogeography of the root vole (Microtus oeconomus): implications for late Quaternary biogeography of high latitudes. Mol Ecol 12:957–968
Bunje PME (2007) Fluvial range expansion, allopatry and parallel evolution in a Danubian snail lineage (Neritidae: Theodoxus). Biol J Linn Soc 90:603–617
Canestrelli D, Cimmaruta R, Costantini V, Nascetti G (2006) Genetic diversity and phylogeography of the Apennine yellow-bellied toad Bombina pachypus, with implications for conservation. Mol Ecol 15:3741–3754
Carcaillet C, Vernet JL (2001) Comments on “the full-glacial forests of central and South-Eastern Europe” by Willis et al. Quat Res 55:385–387
Carlsson M (2003) Phylogeography of the adder (Vipera berus). Ph.D. Theses. Uppsala University
Csuzdi CS, Pop VV (2007) The earthworms of the Carpathian basin (in Hung). In: Forró L (ed) The genesis of the fauna of the Carpathian Basin (in Hung.). Natural History Museum, Budapest, pp 13–20
Dányi L, Traser G (2007) The springtails of Hungary (in Hung.). In: Forró L (ed) The genesis of the fauna of the Carpathian Basin (in Hung.). Natural History Museum, Budapest, pp 21–28
Deffontaine V, Libois R, Kotlík P, Sommer R, Nieberding C, Paradis E, Searle JB, Michaux JR (2005) Beyond the Mediterranean peninsulas: evidence of Central European glacial refugia for a temperate forest mammal species, the bank vole (Clethrionomys glareolus). Mol Ecol 14:1727–1739
Deli T, Sümegi P (1999) Biogeographical characterisation of Szatmár-Bereg plain based on the mollusc fauna. In: Hamar J, Sárkány-Kiss A (eds) The Upper Tisza Valley. Szeged, Tiscia Monograph Series, pp 471–477
Dennis RLH, Williams WR, Shreeve TG (1991) A multivariate approach to the determination of faunal structures among European butterfly species (Lep.: Rhopalocera). Zool J Linn Soc 101:1–49
Duriez O, Sachet JM, Menoni E, Pidancier N, Miquel Ch, Taberlet P (2007) Phylogeography of the capercaillie in Eurasia: what is the conservation status in the Pyrenees and Cantabrian Mounts? Cons Genet 8:513–526
Farcas¸ S, de Beaulieu JL, Reille M, Coldea G, Diaconeasa B, Goeury C, Goslar T, Jull T (1999) First 14C datings of Late Glacial and Holocene pollen sequences from Romanian Carpathes. C R Acad Sci Paris, Sciences de la vie 322:799–807
Farcas¸ S, Miclaus M, Tantau I (2004) Correlations between the actual hilly and plain vegetation from Transylvania and recent-sub-recent palynological spectra. Studii Cercet Biol Bistrita 9:99–111
Fedorov VB, Goropashnaya AV, Jarrell GH, Cook JA (1999) Phylogeographic structure and mitochondrial DNA variation in true lemmings (Lemmus) from the Eurasian Arctic. Biol J Linn Soc 66:357–371
Fedorov VB, Goropashnaya AV, Boeskorov GG, Fredga K (2008) Comparative phylogeography and demographic history of the wood lemming (Myopus schisticolor): implications for late Quaternary history of the taiga species in Eurasia. Mol Ecol 17:598–610
Fedorov VB, Stenseth NC (2002) Multiple glacial refugia in the North American Arctic: inference from phylogeography of the collared lemming (Dicrostonyx groenlandicus). Proc R Soc Lond B Biol Sci 269:2071–2077
Fehér Z, Varga A, Deli T, Domokos T, Szabó K, Bozsó M, Pénzes ZS (2007) Phylogenetic surveys on protected molluscs (in Hung.). In: Forró L (ed) The genesis of the fauna of the Carpathian Basin (in Hung.). Natural History Museum, Budapest, pp 183–200
Fekete G, Varga Z (2006) Pannonian vegetation (in Hung.). In: Fekete G, Varga Z (eds) Vegetation and wildlife of landscapes of Hungary (in Hung.). MTA Társadkut Közp, Budapest, pp 78–80
Feurdean A, Bennike O (2004) Late Quaternary palaeoecological and paleoclimatological reconstruction in the GutaiuluiMountains, NWRomania. J Quat Sci 19:809–827
Feurdean A, Wohlfarth B, Björkman L, Tantau I, Bennike O, Willis KJ, Farcas S, Robertsson AM (2007a) The influence of refugial population on Lateglacial and early Holocene vegetational changes in Romania. Rev Palaeobot Palynol 145:305–320
Feurdean A, Mosbrugger V, Onac BP, Polyak V, Veres D (2007b) Younger Dryas to mid-Holocene environmental history of the lowlands of NW Transylvania, Romania. Quat Res 68:364–378
Fink S, Excoffier L, Heckel G (2004) Mitochondrial gene diversity in the common vole Microtus arvalis shaped by historical divergence and local adaptations. Mol Ecol 13:3501–3514
Finnie TJR, Preston CD, Hill MO, Uotila P, Crawley MJ (2007) Floristic elements in European vascular plants: an analysis based on Atlas Florae Europaeae. J Biogeogr 34:1848–1872
Frenzel B (1992) European climate reconstructed from documentary data, methods and results. Gustav Fischer, Stuttgart
Fumagalli L, Hausser J, Taberlet P, Gielly L, Steward DT (1996) Phylogenetic structure of the Holarctic Sorex araneus group and its relationship with S. samniticus, as inferred from mtDNA sequences. Hereditas 125:191–199
Füköh L, Krolopp E, Sümegi P (1995) Quaternary malacostratigraphy in Hungary. Malacol Newsl 1(Suppl):1–219
Gömöry D, Paule L, Shvadchak IM, Popescu F, Sukowska M, Hynek V, Longauer R (2003) Spatial patterns of the genetic differentiation in European beech (Fagus sylvatica L.) at allozyme loci in the Carpathians and the adjacent regions. Silvae Genet 52:78–83
Guthrie RD (1990) Frozen fauna of the mammoth steppe: the story of blue babe. University of Chicago Press, London
Guthrie RD (2000) Origin and cause of the mammoth steppe: a story of cloud cover, woolly mammal tooth pits, buckles, and inside-out Beringia. Quat Sci Rev 20:549–574
Guthrie D, van Kolfschoten T (1999) Neither warm and moist nor cold and arid: the ecology of the Mid Upper Palaeolithic. In: Roebroeks W, Mussi W, Svoboda J, Fennema K (eds) Hunters of the golden age, 31. Analecta Prehistorica, Leiden, pp 13–20
Haase M, Misof B, Wirth T, Baminger H, Baur B (2003) Mitochondrial differentiation in a polymorphic land snail: evidence for Pleistocene survival within the boundaries of permafrost. J Evol Biol 16:415–428
Haynes S, Jaarola M, Searle JB (2003) Phylogeography of the common vole (Microtus arvalis) with particular emphasis on the colonization of the Orkney archipelago. Mol Ecol 12:951–956
Hertelendy E, Sümegi P, Szöör G (1992) Geochronological and paleoclimatic characterisation of Quaternary sediments in the Great Hungarian Plain. Radiocarbon 34:833–839
Hewitt GM (1996) Some genetic consequences of ice ages and their role in divergence and speciation. Biol J Linn Soc 58:247–276
Hewitt GM (1999) Post-glacial re-colonisation of European biota. Biol J Linn Soc 68:87–112
Hewitt GM (2000) The genetic legacy of the Quaternary ice ages. Nature 405:907–913
Hewitt GM (2001) Speciation, hybrid zones and phylogeography - or seeing genes in space and time. Mol Ecol 10:537–549
Hewitt GM (2004) Genetic consequences of climatic oscillation in the Quaternary. Phil Trans R Soc Lond B 359:183–195
Hofmann E (1873) Die Isoporien der europäischer Tagfalter. Dissertatio, Phil. Fac., Jena.
Hofman S, Spolsky Ch, Uzzel Th, Cogalniceanu D, Babik W, Szymura JM (2007) Phylogeography of the fire-bellied toads Bombina :independent Pleistocene histories inferred from mitochondrial genomes. Mol Ecol 16:2301–2316
Horvat I, Glavac V, Ellenberg H (1974) Die Vegetation Südosteuropas. Gustav Fischer, Stuttgart
Huntley B, Birks HJB (1983) An Atlas of past and present pollen maps for Europe: 0–13, 000 years ago. Cambridge University Press, Cambridge
Huntley B, Allen JRM (2003) Glacial environments III. Palaeovegetation patterns in late glacial Europe. In: van Andel TH, Davies SW (eds) Neanderthals and modern humans in the European landscape during the last glaciation. McDonald Institute for Archaeological Research, Cambridge, pp 79–102
Iversen J (1958) The bearing of glacial and interglacial epochs on the formation and extinction of plant taxa. In: Hedberg O (ed.): Systematics of to-day. Uppsala Univ. Arsskr. 6:210–215
Jaarola M, Searle JB (2002) Phylogeography of field voles (Microtus agrestis) in Eurasia inferred from mitochondrial DNA sequences. Mol Ecol 11:2613–2621
Jánossy D (1979) Subdivision of the Hungarian Pleistocene on the basis of vertebrate fauna (in Hung.). Akadémiai Kiadó, Budapest
Kasy F (1965) Zur Kenntnis der Schmetterlingsfauna des östlichen Neusiedlersee-Gebietes. Wissensch Arb Burgenland (Eisenstadt) 34:75–211
Kis B (1965) Zubovskia banatica, eine neue Orthoptera-Art aus Rumänien. Reichenbachia, Abhandl Mus Tierkunde, Dresden 5:5–8
Kis B (1980) Die endemischen Orthopteren in der Fauna von Rumänien. Muz Brukenthal, Stud Comunic 24:421–431
Kordos L (1977) A sketch of the biostratigraphy of the Hungarian Holocene (in Hung.). Földr Közl 25:144–160
Korsós Z (1994) Checklist, preliminary distribution maps and bibliography of Millipedes of Hungary (Diplopoda). Misc zool hung 9:29–82
Kostrowicki AS (1969) Geography of the Palearctic papilionoidea (Lepidoptera). Panstwowe Wydawnictwo Naukowe, Warszawa
Kotlík P, Deffontaine V, Mascheretti S, Zima J, Michaux JR, Searle JB (2006) A Northern glacial refugium for bank voles (Chlethrionomys glareolus). Proc Natl Acad Sci USA 103(40):14860–14864
Kretzoi M (1969) Sketch of the late Cenozoic terrestrial biostratigraphy of Hungary (in Hung.). Földr Közl 16(92):179–198
Kretzoi M (1977) Ecological Conditions of the “Loess” Period in Hungary as Revealed from the Vertebrate Fauna (in Hung.). Földr Közl 25:75–93
Krolopp E, Sümegi P (1995) Palaeoecological reconstruction of the late Pleistocene, based on loess malacofauna in Hungary. GeoJournal 36(2–3):213–222
Kupriyanova LA, Mayer W, Böhme W (2006) Karyotype diversity of the Eurasian lizard Zootoca vivipara (Jacquin, 1787) from Central Europe and the evolution of viviparity. In: Vences M, Köhler J, Ziegler T, Böhme W (eds): Herpetologia Bonnensis II. Proceedings of the 13th of the Congress Society European Herpetology pp. 67–72
Lattin G de (1949) Beiträge zur Zoogeographie des Mittelmeergebietes. Verh dtsch zool Ges Kiel Zool Anz Suppl 13 (1948): 143–151
Lattin G de (1957) Die Ausbreitungszentren der holarktischen Landtierwelt. Verh dtsch zool Ges Hamburg Zool Anz Suppl 21 (1956): 380–410
de Lattin G (1964) Die Verbreitung des sibirischen Faunenelements in der Westpaläarktis. Nat Mus 94:104–125
de Lattin G (1967) Grundriss der Zoogeographie. Gustav Fischer, Stuttgart
Litynska-Zajac M (1995) Anthracological analysis. In: Hromada J, Kozlowski J (eds) Complex of upper palaeolithic sites near. Jagellonian University Press, Moravany, Western Slovakia, pp 74–79
Magri D (2007) Patterns of post-glacial spread and the extent of glacial refugia of European beech (Fagus sylvatica). J. Biogeogr. doi:10.1111/j.1365–2699.2007.01803.x
Magri D, Vendramin GG, Comps B, Dupanloup I et al (2006) A new scenario for the Quaternary history of European beech populations: palaeobotanical evidence and genetic consequences. New Phytol 171:199–221
Mahunka S (1993) Hungaromotrichus baloghi gen. et sp. n. (Acari: Oribatida), and some suggestions to the faunagenesis of the Carpathian basin. Folia ent hung 54:75–83
Mahunka S (2007) The oribatid mites of the Carpathian basin (in Hung.). In: Forró L (ed) The genesis of the fauna of the Carpathian Basin. Natural History Museum, Budapest, pp 37–44
Magyari E, Jakab G, Rudner E, Sümegi P (1999) Palynologicaland plant macrofossil data on Late Pleistocene short term climatic oscillations in North-east Hungary. Acta Palaeobot, Suppl 2:491–502
Michaux JR, Magnanou E, Paradis E, Nieberding C, Libois RM (2003) Mitochondrial phylogeography of the woodmouse (Apodemus sylvaticus) in the Western Palearctic region. Mol Ecol 12:685–697
Nève G (1996) Dispersion chez un espèce à habitat fragmenté: Proclossiana eunomia (Lepidoptera, Nymphalidae). Dissertation, University of catholique de Louvain, Louvain-la-Neuve, pp. 1–128
Orci KM, Nagy B, Szövényi G, Rácz IA, Varga Z (2005) A comparative study on the song and morphology of Isophya stysi Cejchan, 1958 and I. modestior Brunner von Wattenwyl, 1882. Zool Anz 244:31–42
Oshida T, Abramov A, Yanagava H, Masuda R (2005) Phylogeography of the Russian flying squirrel (Pteromys volans): implication of refugia theory in arboreal small mammal of Eurasia. Mol Ecol 14:1191–1196
Petit RJ, Csaikl UM, Bordács S et al (2002) Chloroplast DNA variation in European white oaks. Phylogeography and patterns of diversity based on data from over 2600 populations. For Ecol Manage 156:5–26
Petit RJ, Aguinagalde I, de Beaulieu J-L, Bittkau C, Brewer S, Cheddadi R, Ennos R, Fineschi S, Grivet D, Lascoux M, Mohnty A, Müller-Starck G, Demesure-Musch B, Palmé A, Pedro Martin J, Rendell S, Vendramin GG (2003) Glacial refugia: hotspots but not melting pots of genetic diversity. Science 300:1563–1565
Pinceel J, Jordaens K, Pfenninger M, Backeljau T (2005) Rangewide phylogeography of a terrestrial slug in Europe: evidence for Alpine refugia and rapid colonization after the Pleistocene glaciations. Mol Ecol 14:1133–1150
Pokorny P, Jankovská V (2000) Long-term vegetation dynamics and the infilling process of a former lake (Svarcenberk, Czech Republic). Folia Geobot 35:433–457
Rácz GR, Gubányi A, Vozár Á (2005) Morphometric differences among root vole (Muridae: Microtus oeconomus) populations in Hungary. Acta Zool Hung 51:39–53
Rebel H (1931) Zur Frage der europäischen Faunenelemente. Ann Nathist Mus Wien 46:49–55
Reinig W (1950) Chorologische Voraussetzungen für die Analyse von Formenkreisen. Syllegomena biol. Festschr Kleinschmidt, Leipzig, pp 346–378
Rudner ZE, Sümegi P (2001) Recurring Taiga forest-steppe habitats in the Carpathian Basin in the Upper Weichselian. Quat Int 76(77):177–189
Rybnıcková E, Rybnıcek K (1991) In: Kovar-Eder J (ed.): Palaeovegetational development in Europe and regions relevant to its plaeofloristic evolution. Mus Nat Hist Vienna, pp. 73–79
Saarma U, Ho SYW, Pybus OG, Kaljuste M et al (2007) Mitogenetic structure of brown bears (Ursus arctos L.) in North-Eastern Europe and a new time frame for the formation of European brown bear lineages. Mol Ecol 16:401–413
Scharff RF (1899) The history of the European fauna. Walter Scott, London
Schirrmeister L, Siegert C, Kuznetsova T et al (2002) Paleoenvironmental and paleoclimatic records from permafrost deposits in the Arctic region of Northern Siberia. Quat Int 89:97–118
Schmitt T (2007) Molecular biogeography of Europe: Pleistocene cycles and postglacial trends. Front Zool 4:11. doi:10.1186/1742-9994-4-11
Schmitt T, Hewitt G (2004) The genetic pattern of population threat and loss: a case study of butterflies. Mol Ecol 13:21–31
Schmitt T, Haubrich K (2008) The genetic structure of the mountain forest butterfly Erebia euryale unravels the late Pleistocene and Postglacial history of the mountain forest biome in Europe. Mol Ecol 17:2194–2207
Schmitt T, Rákosy L, Abadjiev S, Müller P (2007) Multiple differentiation centres of a non-Mediterranean butterfly species in South-Eastern Europe. J Biogeogr 34:939–950
Schmitt T, Seitz A (2001) Intraspecific allozymatic differentiation reveals the glacial refugia and the postglacial expansions of European Erebia medusa (Lepidoptera, Nymphalidae). Biol J Linn Soc 74:429–458
Simakova AA (2001) The vegetation and mammoth distribution during the second half of the Late Pleistocene on the Russian Plain (33–17 ka). The World of Elephants, International Congress, Rome 2001, pp. 355–358
Sjörs H (1963) Amphi-Atlantic zonation, from Nemoral to Arctic. In: Löve A, Löve D (eds) North Atlantic biota and their history. Pergamon Press, Oxford, pp 109–126
Soó R (1940) Vergangenheit und Gegenwart der pannonischen Flora und Vegetation. Nova Acta Leopold 9:1–49
Soó R (1959) Streitfragen über die Entstehung der Vegetation des Alföld und ihre heutige Beurteilung. Földr Ért 8:1–26
Soós L (1943) The mollusca fauna of the carpathian basin (in Hung) természettud. Társulat, Budapest
Stegmann B (1932) Herkunft der paläarktischen Taiga-Vögel. Arch Naturgesch (NF) 1:392–397
Stegmann B (1938) Grundzüge der ornithogeographischen Gliederung des paläarktischen Gebietes. Fauna SSSR, Moscow Leningrad
Steward JR, Lister AM (2001) Cryptic Northern refugia and the origins of the modern biota. TREE 16:608–613
Sümegi P, Hertelendi E, Magyari E et al (1998) Evolution of the environment in the Carpathian Basin during the last 30,000 BP years and its effects on the ancient habits of the different cultures. In: Költő L, Bartosiewicz L (eds.): the Archeological Inst. of the Hungarian Academy of Sciences (HAS), vol II, Budapest, pp. 183–197
Sümegi P, Krolopp E (2002) Quatermalocological analyses for modelling the Upper Weichselian palaeoenvironmental changes in the Carpathian basin. Quat Int 91:53–63
Sümegi P, Rudner ZE (2001) In situ charcoal fragments as remains of natural wild fires in the upper Würm of the Carpathian Basin. Quat Int 76(77):165–176
Surget-Groba Y, Heulin B, Guillaume C-P, Thorpe R et al (2001) Intraspecifi c phylogeography of Lacerta vivipara and the evolution of viviparity. Mol Phylogenet Evol 18:449–459
Surget-Groba Y, Heulin B, Guillaume C-P, Puky M, Semenov B, Orlova V, Kupriyanova L, Ghira I, Smajda B (2006) Multiple origins of viviparity, or reversal from viviparity to oviparity and the evolution of parity. Biol J Linn Soc 87:1–11
Svendsen JI, Astakhov VI, Bolshiyanov DY et al (1999) Maximum extent of the Eurasian ice sheets in the Barents and Kara Sea region during the Weichselian. Boreas 28:234–242
Svendsen JI, Alexanderson H, Astakhov VI et al (2004) Late Quaternary ice sheet history of Northern Eurasia. Quat Sci Rev 23:1229–1271
Szymura JM, Uzzell T, Spolsky C (2000) Mitochondrial DNA variation in the hybridising fire-bellied toads, Bombina bombina and B. variegata. Mol Ecol 9:891–899
Taberlet P, Bouvet J (1994) Mitochondrial DNA polymorphism, phylogeography and conservation genetics of the brown bear (Ursus arctos) in Europe. Proc R Soc Lond B 255:195–200
Taberlet P, Fumagalli L, Wust-Saucy A-G, Cosson J-F (1998) Comparative phylogeography and postglacial colonisation routes in Europe. Mol Ecol 7:453–464
Tantau I, Reille M, de Beaulieu J-L, Farcaş S, Goslar T, Paterne M (2003) Vegetation history in the Eastern Romanian Carpathians: pollen analysis of two sequences from the Mohos crater. Veget Hist Archaeobot 12:113–125
Tantau I, Reille M, de Beaulieu J-L, Farcaş S (2006) Late Glacial and Holocene vegetation history in the Southern part of Transylvania (Romania): pollen analysis of two sequences from Avrig. J Quat Sci 21:49–61
Tarasov PE, Volkova VS, Webb T (2000) Last glacial maximum biomes reconstructed from pollen and plant macrofossil data from Northern Eurasia. J Biogeogr 27:609–620
Ursenbacher S, Carlsson M, Helfer V, Tegelström H, Fumagalli L (2006) Phylogeography and Pleistocene refugia of the adder (Vipera berus) as inferred from mitochondrial DNA sequence data. Mol Ecol 15:3425–3437
Valdiosera CE, Garcia N, Anderlung C, Dalen L, Cregut-Bonnoure E, Kahlke R-D, Stiller M, Brandström M, Thomas MG, Arsuaga J-L, Götherström A, Barnes I (2007) Staying out in the cold: glacial refugia and mitochondrial DNA phylogeography in ancient European brown bears. Mol Ecol 16:5140–5148
Van de Zande L, Van Apeldoorn RC, Blijdenstein AF, De Jong D, Van Delden W, Bijlsma R (2000) Microsatellite analysis of population structure and genetic differentiation within and between populations of the root vole, Microtus oeconomus in the Netherlands. Mol Ecol 9:1651–1656
Varga Z (1975) Geographische Isolation und Subspeziation bei den Hochgebirgslepidopteren der Balkanhalbinsel. Acta Ent Jugosl 11:5–39
Varga Z (1977) Das Prinzip der areal-analytischen Methode in der Zoogeographie und die Faunenelemente-Einteilung der europäischen Tagschmetterlinge. Acta Biol Debr 14:223–285
Varga Z (1989) Die Waldsteppen des pannonischen Raumes aus biogeographischer Sicht. Düsseldorfer geobot Kolloq 6:35–50
Varga Z (1995) Geographical patterns of biodiversity in the Palearctic and in the carpathian basin. Acta Zool Hung 41:71–92
Varga Z (2002): Post-glacial dispersal strategies of Orthoptera and Lepidoptera in Europe and in the Carpathian basin. In: Proceedings of 13th International Colloquium of EIS, Leiden, pp. 93–105
Varga Z (2003a) The geographical distribution of high mountain macrolepidoptera in Europe. In: Nagy L, Grabherr G, Körner C, Thompson DBA (eds) Alpine biodiversity in Europe. Springer, Berlin, pp 239–257
Varga Z (2003b) Zoogeography of the Carpathian basin (in Hung.). In: Láng I, Bedő Z, Csete L (eds) Flora, Fauna, Habitats, vol III, Magyar Tudománytár. MTA Társadkut Közp, Budapest, pp 89–119
Varga Z (2006) Faunal history and biogeography of the Carpathian basin. In: Fekete G, Varga Z (eds) Vegetation and wildlife of landscapes of Hungary (in Hung.). MTA Társadkut Közp, Budapest, pp 44–75
Varga Z, Gyulai I (1978) Die Faunenelemente-Einteilung der Noctuiden Ungarns und die Verteilung der Faunenelemente in den Lokalfaunen. Acta Biol Debr 15:257–295
Varga Z, Peregovits L, Ronkay L (1989) Zoogeographical survey of the mongolian noctuidae fauna. Nota Lepid 12(Suppl. 1):63–64
Varga Z, Rákosy L (2009) Biodiversität der Karstgebiete im Karpatenbecken am Beispiel der Gross-Schmetterlingsfauna der Turzii-Schlucht bzw. des Aggteleker Karstgebietes. In: Proceedings of Congress SIEEC Cluj-Napoca (2007), (in press)
Velichko AA, Catto N, Drenova AN, Klimanov VA, Kremenetski KV, Nechaev VP (2002) Climate changes in East Europe and Siberia at the Late glacial-holocene transition. Quat Int 91:75–99
Venczel M (1997) Amphibians and reptiles from the lower Pleistocene of Osztramos (Hungary). Nymphaea 23–25:77–88
Voous KH (1960) Atlas of European birds. Nelson, London
Voous KH (1963) The concept of faunal elements or faunal types. Proceedings of the 13 international congress ornithological, pp. 1104–1108
Vörös J, Alcobendas M, Martínez-Solano I, García-París M (2006) Evolution of Bombina bombina and Bombina variegata (Anura: Discoglossidae) in the Carpathian Basin: a history of repeated mt-DNA introgression across species. Mol Phylogen Evol 38:705–718
Walter H, Breckle S-W (1986) Ökologie der Erde. Spezielle Ökologie der Gemäßigten und Arktischen Zonen Euro-Nordasiens. G, Fischer, Stuttgart
Walter H, Straka H (1970) Arealkunde. Floristisch-historische Geobotanik. Ulmer, Stuttgart
Wendelberger G (1954) Steppen, Trockenrasen und Wälder des pannonischen Raumes. Festschr Aichinger 1:574–634
Wendelberger G (1959) Die Waldsteppen des pannonischen Raumes. Veröff geobot Inst Rübel 35:77–113
Widmer A, Lexer CH (2001) Glacial refugia: sanctuaries for allelic richness, but not for gene diversity. TREE 16(No.6):267–269
Williams P, Humphries C, Araújo M (1999) Mapping Europe’s biodiversity. In: Delbaere B (ed) Facts and figures on Europe’s biodiversity, State and Trends 1998–1999. ECNC, Tilburg, pp 12–20
Willis KJ (1994) The vegetational history of the Balkans. Quat Sci Rev 13:769–788
Willis KJ, Sümegi P, Braun M, Tóth A (1995) The late Qarternary environmental history of Bátorliget, NE Hungary. Palaeogeogr Palaeoclimatol Palaeoecol 118:25–47
Willis KJ, Rudner ZE, Sümegi P (2000) Full glacial forests of Central and South Eastern Europe. Quat Res 53:203–213
Willis KJ, van Andel TH (2004) Trees or no trees? The environments of central and Eastern Europe during the Last Glaciation. Quat Sci Rev 23:2369–2387
Willis KJ, Niklas K (2004) The role of Quaternary environmental change in plant macroevolution: the exception or the rule? Phil Trans R Soc Lond B 359:159–173
Wohlfarth B, Hannon G, Feurdean A, Ghergari L, Onac BP, Possnert G (2001) Reconstruction of climatic and environmental changes in NW Romania during the early part of the last deglaciation (15,000-13,600 cal yr BP). Quat Sci Rev 20:1897–1914
Yurtsev BA (2001) The Pleistocene ‘‘Tundra-Steppe’’ and the productivity paradox: the landscape approach. In: Elias SA, Brigham-Grette, J (eds.): Beringean Paleoenvironments. Quat Sci Rev 20:165–174
Zink RM, Drovetski SV, Rohwer S (2002) Phylogeographic patterns in the great spotted woodpecker Dendrocopos major across Eurasia. J Avian Biol 33:175–178
Zólyomi B (1949) Die Mitteldonau-Florenscheide und das Dolomitphänomen. Bot Közl 39:209–224
Zólyomi B (1953) Die Entwicklungsgeschichte der Vegetation Ungarns seit dem letzten Interglazial. Acta Biol Hung 4:367–413
Zólyomi B (1964) Pannonische vegetationsprobleme. Verh Zool-Bot Ges Wien 103–104:144–151
Acknowledgements
I am deeply indebted to the precursors of modern phylogeographic thoughts: to the late Gustaf de Lattin and Willy Reinig who inseminated the biogeography by genetic insights and shaped my ideas. The Alexander von Humboldt Foundation repeatedly supported my research fellowships in Germany. The survey of the faunal history of Hungary was partly supported by the grant NKFP-3 B/023/2004.
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Varga, Z. (2009). Extra-Mediterranean Refugia, Post-Glacial Vegetation History and Area Dynamics in Eastern Central Europe. In: Habel, J., Assmann, T. (eds) Relict Species. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-92160-8_3
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