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Younger Dryas climatic reconstructions in central Poland

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Cladoceran-based paleotemperature estimates for the Younger Dryas for ten sections of paleo-oxbow lakes, valley mires, and lacustrine sediments from central Poland are presented, and their potential usefulness to climatostratigraphy is described. Most of the changes observed in the cladoceran assemblages are responses to climate changes. The cladoceran-based temperature reconstructions reflect cold conditions during the Younger Dryas (YD) and allow a division of this period into two phases: an older colder phase, between 12,800 and 12,000 cal yrs BP, and a younger, warmer phase, between ca. 12,000 and 11,500 cal yrs BP. The geomorphological features of the study sites and local environmental forces are also taken into consideration. The cladoceran-inferred summer temperature estimates from all of the study sites correspond closely with the available climate reconstruction for the YD in central Europe.
Rocznik
Strony
567--584
Opis fizyczny
Bibliogr. 92 poz., rys., tab., wykr.
Twórcy
  • Institute of Geology, Adam Mickiewicz University, ul. B. Krygowskiego 12, 61-680 Poznań, Poland
Bibliografia
  • 1. Andres, W., Bos, J.A.A., Houben, P., Kalis, A.J., Nolte, S., Rittweger, H. and Wunderlich, J. 2001. Environmental change and fluvial activity during the Younger Dryas in central Germany. Quaternary International, 79, 89-100.
  • 2. Bakke, J, Lie, Ø., Heegaard, E., Dokken, T., Haug, G.H., Birks, H.H., Dulski, P. and Nilsen T. 2009. Rapid oceanic and atmospheric changes during the Younger Dryas cold period. Nature Geoscience, 2, 202-205.
  • 3. Birks, H.H. and Birks, H.J.B. 1980. Quaternary palaeoecology, pp. 95-120. The Blackburn Press; New York.
  • 4. Birks, H.H. and Ammann, B. 2000. Two terrestrial records of rapid climatic change during the glacial-Holocene transition (14,000-9,000 calendar years B.P.) from Europe. Proceedings of the National Academy of Sciences of USA, 97, 1390-1394.
  • 5. Birks, H.J.B., Heiri, O., Seppä, H. and Bjune, A.E. 2010. Strengths and weaknesses of quantitative climate reconstructions based on late-Quaternary biological proxies. The Open Ecology Journal, 3, 68-110.
  • 6. Bjerring, R., Becares, E., Declerck, S., Gross, E.M., Hansson, L.-A., Kairesalo, T., Nykänen, M., Halkiewicz, A., Kornijów, R., Conde-Porcuna, J.M., Seferlis, M., Noges, T., Moss, B., Amsinck, S.L., Odgaard, B.V. and Jeppesen, E. 2009. Subfossil Cladocera in relation to contemporary environmental variables in 54 Pan-European lakes. Freshwater Biology, 54, 2401-2417.
  • 7. Bohncke, S., Vandenberghe, J. and Huijzer, A.S. 1993. Periglacial environments during the Weichselian Late Glacial in the Maas valley, the Netherlands. Geologie en Mijnbouw, 72, 193-210.
  • 8. Borisova, O., Sidorchuk, A. and Panin, A. 2006. Palaeohydrology of the Seim River basin, Mid-Russian Upland, based on palaeochannel morphology and palynological data. Catena, 66, 53-73.
  • 9. Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon, 51, 337-360.
  • 10. Brooks, S.J. and Langdon, P.G. 2014. Summer temperature gradients in northwest Europe during the Lateglacial to early Holocene transition (15-8 ka BP) inferred from chironomid assemblages. Quaternary International, 341, 80-90.
  • 11. Brooks, S.J., Matthews, I.P., Birks, H.H. and Birks, H.J.B. 2012. High resolution late-glacial and early Holocene summer air temperatures from Scotland inferred from chironomid midge assemblages. Quaternary Science Reviews, 41, 67-82.
  • 12. Davidson, T.A., Sayer, C.D., Perrow, M.R., Bramm, M. and Jeppesen, E. 2007. Are controls on species composition similar for contemporary and sub-fossil cladoceran assemblages? e a study of 39 shallow lakes of contrasting trophic status. Journal of Paleolimnology, 38, 117-134.
  • 13. Davidson, T., Sayer, C.D., Perrow, P., Bramm, M. and Jeppesen, E. 2010. The simultaneous inference of zooplanktivorous fish and macrophyte density from sub-fossil cladoceran assemblages: a multivariate regression tree approach. Freshwater Biology, 55, 546-564.
  • 14. Dzieduszyńska, D.A., Kittel, P., Petera-Zganiacz, J., Brooks, S.J., Korzeń, K., Krapiec, M., Pawłowski, D., Płaza, D.K., Płóciennik, M., Stachowicz-Rybka, R. and Twardy, J. 2014. Environmental influence on forest development and decline in the Warta River valley (Central Poland) during the Late Weichselian. Quaternary International, 324, 99-114.
  • 15. Engels, S., Bohncke, S.J.P., Heiri, O. and Nyman, M. 2008. Intraregional variability in chironomid-inferred temperature estimates and the influence of river inundations on lacustrine chironomid assemblages. Journal of Paleolimnology, 40, 129-142.
  • 16. Forysiak, J. 2012. Zapis zmian środowiska przyrodniczego późnego Vistulianu i holocenu w osadach torfowisk regionu łódzkiego. Acta Geographica Lodziensia, 99, 1-164. [In Polish with English summary]
  • 17. Frey, D.G. 1986. Cladocera analysis. In: B.E. Berglund (Ed.), Handbook of Holocene paleoecology and paleohydrology, pp. 667-692. John Wiley and Sons; Chichester.
  • 18. Feurdean, A., Klotz, S., Brewer, S., Mosbrugger, V., Tǎmaş, T. and Wohlfarth, B. 2008. Lateglacial climate development in NW Romania - comparative results from three quantitative pollen-based methods. Palaeogeography, Palaeoclimatology, Palaeoecology, 265, 121-133.
  • 19. Feurdean, A., Persoiu, A., Tanţău, J., Stevens, T., Magyari, E.K., Onac, B.B., Markovic, S., Andric, M., Connor, S., Galka, M., Hoek, W.Z., Lamentowicz, M., Sümegi, P., Persoiu, J., Kolaczek, P., Kuneš, P., Marinova, E., Slowinski, M., Michczyńska, D., Stancikaite, M., Svensson, A., Veski, S., Fărcaş, S., Tămaş, T., Zernitskaya, V., Timar, A., Tonkov, S., Toth, M., Willis, K.J., Płóciennik, M. and Gaudeny, T. 2014. Climate variability and associated vegetation response throughout Central and Eastern Europe (CEE) between 60 and 8 ka. Quaternary Science Reviews, 106, 206-224.
  • 20. Gandouin, E., Ponel, P., Franquet, E., van Vliet-Lanoë, B., Andrieu-Ponel,V., Keen, D.H, Brulhet J. and Brocandel M. 2007. Chironomid responses (Insect: Diptera) to Younger Dryas and Holocene environmental changes in a river floodplain from northern France (St-Momelin, St-Omer basin). Holocene, 17, 331-347.
  • 21. Gandouin, E., Rioual, P., Pailles, C., Brooks, S.J.,Ponel, P., Guiter, F., Djamali, M., Andrieu-Ponel, V., Birks, H.J.B. Leydet, M., Belkacem, D., Haas, J.N., Van der Putten, N. and de Beaulieu, J.L. 2016. Environmental and climate reconstruction of the late-glacial-Holocene transition from a lake sediment sequence in Aubrac, French Massif Central: Chironomid and diatom evidence. Palaeogeography, Palaeoclimatology, Palaeoecology, 461, 292-309.
  • 22. Gao, C., Boreham, S., Preece, R.C., Gibbard, P.L. and Briant, R.M. 2007. Fluvial response to rapid climate change during the Devensian (Weichselian) Lateglacial in the River Great Ouse, S England, UK. Sedimentary Geology, 202, 193-210.
  • 23. Goslar, T., Kuc, T., Ralska-Jasiewiczowa, M., Rozanski, K., Arnold, M., Bard, E., van Geel, B., Pazdur, M.F., Szeroczyńska, K., Wicik, B., Więckowski, K. and Walanus, A. 1993. High resolution lacustrine record of the Late Glacial/Holocene transition in Central Europe. Quaternary Science Reviews, 12, 295-305.
  • 24. Goslar, T., Ralska-Jasiewiczowa, M., Starkel, L., Demske, D., Kuc, T., Łącka, B., Szeroczyńska, K., Wicik, B. and Więckowski, K. 1998. Discussion of the Late-Glacial record in the Lake Gościąż sediments. In: M. Ralska-Jasiewiczowa, T. Goslar, T. Madeyska and L. Starkel (Eds), Lake Gościąż, central Poland, A monographic study, pp. 171-180. IB PAN; Kraków.
  • 25. Heiri, O. and Millet, L. 2005. Reconstruction of Late Glacial summer temperatures from chironomid assemblages in Lac Lautrey (Jura, France). Journal of Quaternary Science, 20, 1-12.
  • 26. Heiri, O., Cremer, H., Engels, S., Hoek, W.Z., Peeters, W. and Lotter, A.F. 2007. Lateglacial summer temperatures in the Northwest European lowlands: a chironomid record from Hijkermeer, the Netherlands. Quaternary Science Reviews, 26, 2420-2437.
  • 27. Heiri, O., Brooks, S. J., Renssen, H., Bedford, A., Hazekamp, M., Ilyashuk, B., Jeffers, E.S., Lang, B., Kirilova, E., Kuiper, S., Millet, L., Samartin, S., Toth, M., Verbruggen, F., Watson, J.E., van Asch, N., Lammertsma, E., Amon, L., Birks, H.H., Birks, H.J.B., Mortensen, M.F., Hoek, W.Z., Magyari, E., Sobrino, C.M., Seppä, H., Tinner, W., Tonkov, S., Veski, S. and Lotter, A.F. 2014. Validation of climate model-inferred regional temperature change for late-glacial Europe. Nature Communication, 5, 1-7.
  • 28. Hošek, J., Pokorný, P., Kubovčík, V., Horáček, I., Žáčková, P., Kadlec, J., Rojik, F., Lisá, L. and Bučkuliaková, S. 2014. Late glacial climatic and environmental changes in easterncentral Europe: correlation of multiple biotic and abiotic proxies from the Lake Švarcenberk, Czech Republic. Palaeogeography, Palaeoclimatology, Palaeoecology, 396, 155-172.
  • 29. Huisink, M. 2000. Changing river styles in response to Weichselian climate changes in the Vecht valley, eastern Netherlands. Sedimentary Geology, 133, 115-134.
  • 30. Isarin, R.F.B. and Bohncke, S.J.P. 1999. Mean July temperatures during the Younger Dryas in northwestern and central Europe as inferred from climate indicator plant species. Quaternary Research, 51, 158-173.
  • 31. Isarin, R.F.B. and Rensen, H. 1999. Reconstructing and modelling Late Weichselian climates: the Younger Dryas in Europe as a case study. Earth-Science Reviews, 48, 1-38.
  • 32. Jeppesen, E., Christoffersen, K., Landkildehus, F., Lauridsen, T., Amsinck, S., Riget, F. and Søndergaard, M. 2001. Fish and crustaceans in northeast Greenland lakes with special emphasis on interactions between Arctic charr (Salvelinus alpinus), Lepidurus arcticus and benthic chydorids. Hydrobiologia, 442, 329-337.
  • 33. Jeziorski, A., Yan, N.D., Paterson, A.M., DeSellas, A.M., Turner, M., Jeffries, D.S., Keller, B., Weeber, R.C., McNicol, D.K., Palmer, M.E., McIver, K., Arsenau, K., Ginn, B.K., Cumming, B.F. and Smol, J.P. 2008. The widespread threat of calcium decline in fresk waters. Science, 322, 1374-1377.
  • 34. Juggins, S. 2007. C2 Version 1.5 User Guide. Software for Ecological and Palaeoecological Data Analysis and Visualisation. Newcastle University, Newcastle upon Tyne, pp. 1-73.
  • 35. Kaiser, K., Lorenz, S., Germer, S., Juschus, O., Küster, M., Libra, J., Bens, O. and Hütti, R.F. 2012. Late Quaternary evolution of rivers, lakes and peatlands in northeast Germany reflecting past climates and human impact - an overview. E&G Quaternary Science Journal, 61, 103-132.
  • 36. Klatkowa, H. and Załoba, M. 1991. Kształtowanie budowy geologicznej i rzeźby południowego obrzeżenia Basenu Uniejowskiego. In: W. Stankowski (Ed.), Przemiany środowiska geograficznego obszaru Konin-Turek, pp. 33-44. Wyd. Nauk UAM; Poznań.
  • 37. Kłysik, K. 2001. Warunki klimatyczne. In: S. Liszewski (Ed.), Zarys monografii województwa łódzkiego, pp. 68-81. Łódzkie Towarzystwo Naukowe; Łódź
  • 38. .Korhola, A. and Rautio, M., 2001. Cladocera and other branchiopod crustaceans. In: J.P. Smol, H.J.B. Birks, and W.M. Last (Eds), Tracking Environmental Change Using Lake Sediments, Zoological Indicators, 4, pp. 5-41. Kluwer Academic Publishers; Dordrecht.
  • 39. Lane, C.S., Brauer, A., Blockley, S.P.E. and Dulski, P. 2013. Volcanic ash reveals time-transgressive abrupt climate change during the Younger Dryas. Geology, 41, 1251-1254.
  • 40. Lang, B., Brooks, S.J., Bedford, A., Jones, R.T., Birks, H.J.B. and Marshall, J.D. 2010. Regional consistency in Lateglacial chironomid-inferred temperatures from five sites in north-west England. Quaternary Science Reviews, 29, 1528-1538.
  • 41. Larocque, I. and Finsinger, W. 2008. Late-glacial chironomid-based temperature reconstructions for Lago Piccolo di Avigliana in the southwestern Alps (Italy). Palaeogeography, Palaeoclimatology, Palaeoecology, 257, 207-223.
  • 42. Lorenc, M. 2008. O możliwościach rekonstrukcji paleotemperatur vistulianu na podstawie kopalnych zespołów ptaków. Geologos, 14, 91-106.
  • 43. Lotter, A.F., Birks, H.J.B., Hofmann, W. and Marchetto, A. 1997. Modern diatom, cladocera, chironomid, and chrysophyte cyst assemblages as quantitative indicators for the reconstruction of past environmental conditions in the Alps. I. Climate. Journal of Paleolimnology, 18, 395-420.
  • 44. Lotter, A.F., Birks, H.J.B., Eicher, U., Hofmann, W., Schwander, J. and Wick, L. 2000. Younger Dryas and Allerod summer temperatures at Gerzensee (Switzerland) inferred from fossil pollen and cladoceran assemblages. Palaeogeography, Palaeoclimatology, Palaeoecology, 159, 349-361.
  • 45. Luoto, T.P., Nevalainen, L., Kultti, S. and Sarmaja-Korjonen, K. 2011. An evaluation of the influence of water depth and river inflow on quantitative Cladocera-based temperature and lake level inferences in a shallow boreal lake. Hydrobiologia, 676, 143-154.
  • 46. Macklin, M.G., Benito, G., Gregory, K. J., Johnstone, E., Lewin, J., Michczyńska, D.J., Soja, R., Starkel, L. and Thorndycraft, V.R. 2006. Past hydrological events reflected in the Holocene fluvial record of Europe. Catena, 66, 145-154.
  • 47. Magny, M., Aalbersberg, G., Begeot, C., Benoit-Ruffaldi, P., Bossuet, G., Disnar, J.R., Heiri, O., Laggoun-Defarge, F., Mazier, F., Millet, L., Peyron, O., Vanniere, B. and Walter- Simonnet, A.V. 2006. Environmental and climatic changes in the Jura mountains (eastern France) during the Late glacial-Holocene transition: a multi-proxy record from Lake Lautrey. Quaternary Science Reviews, 25, 414-445.
  • 48. Michczyńska, D.J., Borówka, R.K., Okupny, D., Obremska, M., Forysiak, J., Pawłowski, D., Płóciennik, M., Słowiński, M., Żurek, S., Brook, S.J, Michczyński, A. and Witkowski, A., 2014. The environment changes and chronology of the Late Vistulian (Weichselian) and Early Holocene sediments in the Rąbień mire, Central Poland. In: A. Moreno, B.L. Valero-Garcés and S.O. Rasmussen (Eds), INTI-MATE: Open Workshop and COST Action ES0907 Final Event, pp. 54-55. Zaragoza
  • 49. Milecka, K., Kowalewski, G. and Szeroczyńska, K. 2011. Climate-related changes during the Late Glacial and early Holocene in northern Poland, as derived from the sediments of Lake Sierzywk. Hydrobiologia, 676, 187-202.
  • 50. Millet, L., Rius, D., Galop, D., Heiri, O. and Brooks, S.J. 2012. Chironomid-based reconstruction of Lateglacial summer temperatures from the Ech palaeolake record (French western Pyrenees). Palaeogeography, Palaeoclimatology, Palaeo ecology, 315-316, 86-99.
  • 51. Mirosław-Grabowska, J. and Zawisza, E. 2013. Late Glacial-early Holocene environmental changes in Charzykowskie Lake (northern Poland) based on oxygen and carbon isotopes and Cladocera data. Quaternary International, 328-329, 156-166.
  • 52. Mirosław-Grabowska, J., Niska, M. and Kupryjanowicz, M. 2015. Reaction of lake environment on the climatic cooling- Transition from the Eemian Interglacial to Early istulian on the basis of Solniki palaeolake sediments (NE Poland). Quaternary International, 386, 158-170.
  • 53. Nevalainen, L. 2011. Intra-lake heterogeneity of sedimentary cladoceran (Crustacea) assemblages forced by local hydrology. Hydrobiologia, 676, 9-22.
  • 54. Nevalainen, L., Luoto, T.P., Kultti, S. and Sarmaja-Korjonen, K. 2012. Do subfossil Cladocera and chydorid ephippia disentangle Holocene climate trends? Holocene, 22, 291-299.
  • 55. Neugebauer, I., Brauer, A., Dräger, N., Dulski, P., Wulf, S., Plessen, B., Mingram, J., Herzschuh, U. and Brande, A. 2012. A Younger Dryas varve chronology from the Rehwiese palaeolake record in NE-Germany. Quaternary Science Reviews, 36, 91-102.
  • 56. Notebaert, B. and Verstraeten, G. 2010. Sensitivity of West and Central European river systems to environmental changes during the Holocene: a review. Earth-Science Reviews, 103, 163-182.
  • 57. Pawłowski, D. 2011. Evolution of an Eemian lake based on Cladocera analysis (Konin area, Central Poland). Acta Geologica Polonica,61, 441-450.
  • 58. Pawłowski, D. 2012a. Early development of Late Vistulian (Weichselian) lacustrine sediments in the Żabieniec swamp (central Poland). Geochronometria, 39, 197-211.
  • 59. Pawłowski, D. 2012b. Younger Dryas Cladocera assemblages from two valley mires in central Poland and their potential significance for climate reconstructions. Geologos, 18, 237-249.
  • 60. Pawłowski, D., Kloss, M., Obremska, M., Szymanowski, M. and Żurek, S. 2012. Evolution of small valley mire in central Poland as a result of hydroclimatic oscillations. Geochronometria, 39, 133-148.
  • 61. Pawłowski D., Okupny D., Włodarski W. and Zieliński T. 2014. Spatial variability of selected physicochemical parameters within peat deposits in small valley mire: a geostatistical approach. Geologos, 20, 269-288.
  • 62. Pawłowski, D., Płóciennik, M., Brooks, S.J., Luoto, T.P., Milecka, K., Nevalainen, L., Peyron, O., Self, A. and Zieliński, T. 2015a. A multiproxy study of Younger Dryas and Early Holocene climatic conditions from the Grabia River palaeo-oxbow lake (central Poland). Palaeogeography, Palaeoclimatology, Palaeoecology, 438, 34-50.
  • 63. Pawłowski, D., Kowalewski, G., Milecka, K., Płociennik, M., Woszczyk, M., Zieliński, T., Okupny, D., Włodarski, W. and Forysiak, J. 2015b. A reconstruction of the palaeohydrological conditions of a floodplain: a multi-proxy study from the Grabia River valley mire, central Poland. Boreas, 44, 543-562.
  • 64. Pawłowski, D., Milecka, K., Kittel, P., Woszczyk, M. and Spychalski, W., 2015c. Palaeoecological record of natural changes and human impact in a small river valley in Central Poland. Quaternary International, 370, 12-28.
  • 65. Pawłowski, D., Borówka, R.K., Kowalewski, G., Luoto, T.P., Milecka, K., Nevalainen, L., Okupny, D., Płóciennik, M., Woszczyk, M., Tomkowiak, J. and Zieliński, T. 2016a. The response of flood-plain ecosystems to the Late Glacial and Early Holocene hydrological changes: A case study from a small Central European river valley. Catena, 147, 411-428.
  • 66. Pawłowski, D., Borówka, R.K., Kowalewski, G., Luoto, T.P., Milecka, K., Nevalainen, L., Okupny, D., Zieliński, T. and Tomkowiak, J. 2016b. Late Weichselian and Holocene record of the paleoenvironmental changes in a small river valley in Central Poland. Quaternary Science Reviews, 135, 24-40.
  • 67. Peyron, O., Bégeot, C., Brewer, S., Heiri, O., Magny, M., Millet, L., Ruffaldi, P., Van Campo, E. and Yu, G. 2005. Late-Glacial climatic changes in Eastern France (Lake Lautrey) from pollen, lake-levels, and chironomids. Quaternary Research, 64, 197-211.
  • 68. Petera-Zganiacz, J., Dzieduszyńska, D. Twardy, J., Pawłowski, D., Płóciennik, M., Lutyńska, M. and Kittel, P. 2015.Younger Dryas flood events: a case study from the middle Warta River Valley (central Poland). Quaternary International, 386, 55-69.
  • 69. Płóciennik, M., Self, A., Birks, H.J.B. and Brooks, S.J. 2011. Chironomidae (Insecta: Diptera) succession in Żabieniec bog and its palaeo-lake (central Poland) through the Late Weichselian and Holocene. Palaeogeography, Palaeoclimatology, Palaeoecology, 307, 150-167.
  • 70. Płóciennik, M., Kittel, P., Borówka, R.K., Cywa, K., Forysiak, J., Okupny, D., Obremska, M., Pawłowski, D., Stachowicz-Rybka, R., Szperna, R. and Witkowski, A., 2016. Warunki ekologiczne subkopalnego koryta Kolonia Bechcice na tle hydrologii środkowej doliny Neru. Acta Geographica Lodziensia, 105, 107-124.
  • 71. Ralska-Jasiewiczowa, M., Goslar, T., Madeyska, T. and Starkel, L. 1998. Lake Gościąż, Central Poland. A Monographic Study. Part 1. pp. 1-340. W. Szafer Institute of Botany, Polish Academy of Science; Kraków.
  • 72. Reimer, P.J., Bard, E., Bayliss, A., Beck, J.W., Blackwell, P.G., Bronk Ramsey, C., Grootes, P.M., Guilderson, T.P., Haflidason, H., Hajdas, I., Hatté, C., Heaton, T.J., Hoffmann, D.L., Hogg, A.G., Hughen, K.A., Kaiser, F., Kromer, B., Manning, S.W., Niu, M., Reimer, R.W., Richards, D.A., Scott, E.M., Southon, J.R., Staff, R.A., Turney, C.S.M. and van der Plich, J. 2013. IntCal13 and Marine13 Radiocarbon Age Calibration Curves 0-50,000 Years cal BP. Radiocarbon, 55, 1869-1887.
  • 73. Robin, V., Nadeau, M.-J., Grootes, P.M., Bork, H.-R. and Nelle, O. 2016. Too early and too northerly: evidence of temperate trees in northern Central Europe during the Younger Dryas. New Phytologist, 212, 259-68.
  • 74. Starkel, L. (Ed.) 1990. Evolution of the Vistula River valley during the last 15000 years. Geographical Studies, 3(Special Issue 5), 1-220.
  • 75. Starkel L. 2002. Younger Dryas-Preboreal transition documented in the fluvial environment of Polish rivers. Global and Planetary Change, 35, 157-167.
  • 76. Starkel, L. 2011. Present-day events and the evaluation of Holocene palaeoclimatic proxy data. Quaternary International, 229, 2-7.
  • 77. Starkel, L., Gębica, P. and Superson, J. 2007. Last Glacial-Interglacial cycle in the evolution of river valleys in southern and central Poland. Quaternary Science Reviews, 26, 2924-2936.
  • 78. Starkel, L., Michczyńska, D., Gębica, P., Kiss, T., Panin, A. and Perşoiu, I. 2015. Climatic fluctuations reflected in the evolution of fluvial systems of Central-Eastern Europe (60-8 ka cal BP). Quaternary International, 388, 97-118.
  • 79. Stivrins, N., Soininen, J., Amon, L., Fontana, S.,L., Gryguc, G., Heikkilä, M., Heiri, O., Kisielien, D., Reitalu, T., Stančikaitĕ, M., Veski, S. and Seppä, H. 2016. Biotic turno ver rates during the Pleistocene-Holocene transition. Quaternary Science Reviews, 151, 100-110.
  • 80. Szeroczyńska, K., 1985. Cladocera jako wskaźnik ekologiczny w późnoczwartorzędowych osadach jeziornych Polski Północnej. Acta Palaeontologica Polonica, 30, 3-69. [In Polish with English summary]
  • 81. Szeroczyńska, K. and Sarmaja-Korjonen, K. 2007. Atlas of sub -fossil Cladocera from central and northern Europe. Friends of Lower Vistula Society; Świecie.
  • 82. Ter Braak, C.J.F. and Šmilauer, P. 2002. CANOCO Reference Manual and Cano Draw for Windows User’s Guide: Software for Canonical Community Ordination (Version 4.5). Microcomputer Power, Ithaca, NY, USA.
  • 83. Turner, F., Tolksdorf, J.F., Viehberg, F., Schwalb, A., Kaiser, K., Bittmann, F., van Bramann, U., Pott, R., Staesche, U., Breest, K. and Veil, S. 2013. Lateglacial/early Holocene fluvial reactions of the Jeetzel river (Elbe valley, northern Germany) to abrupt climatic and environmental changes. Quaternary Science Reviews, 60, 91-109.
  • 84. van Asch, N., Kloos, M.E., Heiri, O., De Klerk, P. and Hoek, W.Z. 2012. The Younger Dryas cooling in northeast Germany: summer temperature and environmental changes in the Friedländer Große Wiese region. Journal of Quaternary Science, 27, 531-543.
  • 85. Velichko, A.A., Catto, N., Drenova, A.N., Klimanov, V.A., Kremenetski, K.V. and Nechaev, V.P. 2002. Climate changes in East Europe and Siberia at the late glacial-Holocene transition. Quaternary International, 91, 75-99.
  • 86. Veski, S., Seppä, H., Stanäikaitä, M., Zernitskaya, V., Reitalu, T., Gryguc, G., Heinsalu, A., Stivrins, N., Amon, L., Vassiljev, J. and Heiri, O. 2015. Quantitative summer and winter temperature reconstructions from pollen and chironomid data between 15 and 8 ka BP in the Baltic-Belarus area. Quaternary International, 388, 4-11.
  • 87. Walanus, A. and Nalepka, D. 1999. Polpal program for counting pollen grains, diagrams plotting and numerical analysis. Acta Palaeobotanica Suppl., 2, 659-661.
  • 88. Wasylikowa, K. 1964. Roślinnośći klimat późnego glacjału w środkowej Polsce na podstawie badań w Witowie koło Łęczycy. Biuletyn Peryglacjalny, 13, 261-417.
  • 89. Watson, J.E., Brooks, S.J., Whitehouse, N.J., Reimer, P.J., Birks, H.J.B. and Turney, C. 2010. Chironomid-inferred late-glacial summer air temperatures from Lough Nadourcan, Co. Donegal, Ireland. Journal of Quaternary Science, 25, 1200-1210.
  • 90. Woś, A. 1999. Klimat Polski. Wydawnictwo Naukowe PWN; Warszawa.
  • 91. Zawiska, I., Słowiński, M., Correa-Metrio, A., Obremska, M., Luoto, T., Nevalainen, L., Woszczyk, M. and Milecka, K. 2014. The response of a shallow lake and its catchment to Late Glacial climate changes - A case study from eastern Poland. Catena, 126, 1-10.
  • 92. Żurek, S. 1987. Złoża torfowe Polski na tle stref torfowych Europy. Dokumentacja Geograficzna IGiPZ PAN, 4, 1-84.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-dcb749bc-d11f-446d-bba8-9646c9cf44b5
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