Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-26T06:32:44.808Z Has data issue: false hasContentIssue false

Environments of the Russian Plain during the Middle Valdai Briansk Interstade (33,000–24,000 yr B.P.) Indicated by Fossil Mammals and Plants

Published online by Cambridge University Press:  20 January 2017

Anastasia K. Markova
Affiliation:
Institute of Geography of Russian Academy of Sciences, Staromonetny 29, 109017 Moscow, Russia
Alexandra N. Simakova
Affiliation:
Geological Institute of Russian Academy of Sciences, Pyzhevsky 7, 109017 Moscow, Russia
Andrei Yu Puzachenko
Affiliation:
Institute of Geography of Russian Academy of Sciences, Staromonetny 29, 109017 Moscow, Russia
Lev M. Kitaev
Affiliation:
Institute of Geography of Russian Academy of Sciences, Staromonetny 29, 109017 Moscow, Russia

Abstract

Abundant mammal (45 localities) and plant (52 sections) fossil data collected from the Russian Plain deposits of the Middle Valdai Briansk Interstade indicate a period of noticeable warming. These materials were jointly analyzed. The data were organized in the database software PARADOX and then moved to the GIS program ARC/INFO. Mathematical methods as well as traditional research methods were used for the analysis. The reconstructed biogeographical provinces illustrate the specific environmental and climatic conditions of the Briansk Interstade. Analogues of modern natural zones did not exist at this time on the Russian Plain. The Briansk landscapes reflect the moderate-cool climate of this period, when the majority of northern subarctic plant and mammal species extended their ranges considerably to the south to the Central Russian Plain. At the same time, steppe species penetrated farther north and west. This combination shows that the continuous forest zone was destroyed during the Briansk Inter-stade. Five biogeographical provinces have been reconstructed from the north to the south for the Russian Plain during the Briansk warming on the basis of joint analysis of mammalian and botanical data.

Type
Research Article
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Aivazyan, S.A, Bukhshtaber, V.M, Eniukov, I.I, and Meshalkin, L.D Applied Statistics: Classification and Decreasing of Dimensions. (1989). Financy and Statistica Press, Moskva.Google Scholar
Alexeeva, L.I Theriofauna of Late Pleistocene of Eastern Europe. (1990). Nauka Press, Moskva.Google Scholar
Arslanov, X.A, and Bakanova, I.P The new data about age and paleobotanical features of Middle Valdai Interstade by the materials from the section of the Lovat River middle drainage basin. Bulleten Komissii po izucheniu Chetvertichnogo perioda Akademii Nauk SSSR 39, (1972). 109113.Google Scholar
Artushenko, A.T The forest-steppe and steppe vegetation of Ukraine in Quaternary. (1973). Naukova dumka Press, Kiev.Google Scholar
Artushenko, A.T, and Pashkevich, G.A The south Ukrainian vegetation in Anthropogene by the pollen-spore data. Bulleten Komissii po izucheniu Chetvertichnogo perioda Akademii Nauk SSSR 39, (1972). 8289.Google Scholar
Baryshnikov, G.F, and Markova, A.K Main mammal assemblages between 24,000 and 12,000 yr B.P. Frenzel, B, Pechi, M, and Velichko, A Atlas of paleoclimates and paleoenvironments of the Northern Hemisphere (Late Pleistocene–Holocene). (1992). Budapest-Stuttgart, 127129.Google Scholar
Bolikhovskaya, N.S Evolution of loess-soil formation of Eastern Eurasia. (1995). Moscow State University Press, Moscow.Google Scholar
Breslav, S.N, Valyeva, M.N, Velichko, A.A, Iosifova, Yu.I, Krasnenkov, R.V, Morozova, T.D, Udartsev, V.P, and Shik, S.M Stratigraphical scheme of Quaternary deposits of Central regions of Eastern Europe. Velichko, A.A, and Shik, S.M Stratigrafia i paleogeografia chetvertichnogo perioda Vostochnoi Evropy. (1992). Institut Geografii RAN Press, Moscow. 836.Google Scholar
Chichagova, O.A Radiocarbon age of paleosol' humus and some problems of paleogeography and geoecology. Pochvovedenie 12, (1992). 4452.Google Scholar
Chichagova, O.A, and Cherkinsky, A.E Problems in radiocarbon dating of soils. Radiocarbon 35, (1993). 351362.Google Scholar
David, A.I Theriofauna of Pleistocene of Moldavia. (1980). Shtiintsa Press, Kishinev.Google Scholar
Science 272, (1996). 16011606.CrossRefGoogle Scholar
Faustova, M.A, and Velichko, A.A Dynamics of the last glaciation in northern Eurasia. Sveriges Geologiska Undersokning, Ser. Ca 81, (1992). 113118.Google Scholar
Frenzel, B Climates during Inland ice formation. Frenzel, B, Péchi, M, and Velichko, A Atlas of paleoclimates and paleoenvironments of the Northern Hemisphere (Late Pleistocene-Holocene). (1992). Gustav Fisher Verlag, Budapest–Stuttgart. 97100.Google Scholar
Graham, R.W Response of mammalian communities to environmental changes during the late Quaternary. Diamond, J, and Case, T.J Community Ecology. (1986). Harper and Row, New York. 300313.Google Scholar
Grichuk, V.P Flora and Vegetaton History on the Russian Plain during Pleistocene. (1989). Nauka Press, Moskva.Google Scholar
Grichuk, V.P, and Zaklinskaya, E.D The analysis of fossil pollen and spore and the using these data in the paleogeography. (1948). Geografgis Press, Moscow.Google Scholar
Gurtovaya, E.E The condition of the Dubnovo horizon formation on the northern part of the Podol Highland. Palinologia chetvertichnogo perioda. (1985). Nauka Press, Moskva. p. 147158.Google Scholar
Guslitser, V.I, and Kanivets, V.I Paleolithic sites on Pechora-River. Stratigrafia i periodizatsia paleolita Vostochnoi i Centralnoi Evropy. (1965). Nauka Press, Moskva. p. 86 Google Scholar
Ivanova, I.K Geology and paleogeography of Mousterian site Molodova I. Gotetsky, G.I, and Ivanova, I.K Unikal'noe musterskoe poselenie na srednem Dnestre. (1982). Nauka Press, Moskva. 188288.Google Scholar
Kalinovski, P.F Theriofauna of Late Anthropogene and Holocene of Byelorussia. (1983). Nauka i Tekhnika Press, Minsk.Google Scholar
Kholmovoi, G.V, and Praslov, N.D Geological and geomorphological structure of Upper Don-River drainage basin and the Paleolithic sites distribution near Kostenki village. Archeologia i paleogeografia posdnego paleolita Russkoi ravniny. (1981). Nauka Press, Moskva. p. 45.Google Scholar
Kruskal, J.B Nonmetric multidimensional scaling numerical method. Psychometrica 29, (1964). 127.Google Scholar
Lavrushin, Yu.A, and Spiridonova, E.A Geological and paleoecological events and environs of Late Pleistocene near Paleolithic site Sungir'. Pozdnepaleolithicheskoe poselenie Sungir. (1998). Nauchnyi Mir Press, Moskva. p. 189218.Google Scholar
Markov, K.K Treshnikov, A.F Paleogeography and the Cenozoic deposits. Selected papers. (1986). Nauka Press, Moskva.Google Scholar
Markova, A.K Pleistocene rodents of the Russian Plain. (1982). Nauka Press, Moskva.Google Scholar
Markova, A.K Fauna of mammals of the Late Valdai time. Gerasimov, I.P, and Velichko, A.A Paleogeography of Europe during the Last 100,000 years. (1982). Nauka Press, Moskva. 5162.Google Scholar
Markova, A.K Theriofauna of the Briansk Interstade (by the materials of the Russian Plain). Izvestia Akademii Nauk SSSR, Seria geograficheskaia 5, (1985). 9197.Google Scholar
Markova, A.K Small mammal fauna from Kabazi II, Kabazi V, and Starosele: Paleoenvironments and Evolution. Chabai, V.P, and Monigal, K The Paleolithic of Crimea, II. The Middle Paleolithic of Western Crimea. (1999). ERAUL 87, Liege. 7598.Google Scholar
Markova, A.K, and Simakova, A.N Distribution of indicator mammal and plant species during the second part of Valdai glaciation (by the materials of Russian Plain). Izvestia Rossiskoi Akademii Nauk, Seria geograficheskaia 3, (1998). 4961.Google Scholar
Markov, K. K, Lazukov, G. I, and Nikolaev, V. A. (1965). Quaternary period. V, 1, Territory of Soviet Union Moscow State University Press, Moskva.Google Scholar
Markova, A.K, Smirnov, N.G, Kozharinov, A.V, Kazantseva, N.E, Simakova, A.N, and Kitaev, L.M Late Pleistocene distribution and diversity of mammals in Northern Eurasia (PALEOFAUNA database). Paleontologia and Evolucio 28–29, (1995). 1143.Google Scholar
Medianik, S.N, and Mikhailesku, C.D Paleogeographic Stages of Moldovian Flora Evolution in Anthropogene. (1992). Shtiintsa Press, Kishinev.Google Scholar
Monoszon, M. X. (1985). Chenopodiacae flora in Pleistocene deposits of European part of USSR.. In Palinologia Chetvertichnogo perioda, pp. 2545. Nauka Press, Moskva. “Paleolithic of Kostenki–Borshevo region on the Don-River (1879–1979).” (1982). Nauka Press, Leningrad.Google Scholar
Musil, R Paleobiography of terrestrial communities in Europe during Last Glacial. Acta Musei National Prague XLI, (1985). 12.Google Scholar
Rekovets, L.I Microtheriofauna of Desna-Dnieper Late Paleolothic. (1985). Naukova Dumka Press, Kiev.Google Scholar
Rogachev, A.N, Praslov, N.D, and Lazukov, G.I Kostenki I (Poliakov site). Archeologia I paleogeografia pozdnego paleolita Russkoi ravniny. (1981). Nauka Press, Moskva. p. 1928.Google Scholar
Semken, H.A Jr. Environmental interpretations of the “disharmonius” Late Wisconsinian biome of South-eastern North America. Laub, R.S, Miller, N.G, and Steadman, D.W Late Pleistocene and Early Holocene Paleoecology and Archeology of the Eastern Great Lakes Region. (1988). 185194.Google Scholar
Serebriannaya, T.A Paleophitolitic characteristic of loesses from the Karachizh section near Briansk town. Palinologia pleistocena. (1972). Nauka Press, Moskva. p. 5572.Google Scholar
Shackelton, N.J, and Opdyke, N.D Oxygen-isotope and paleomagnetic evidence for early Northern Hemisphere glaciation. Nature 170, (1977). 216219.Google Scholar
Shik, S.M Climatic rhythmic in Pleistocene of the Eastern European platform. Stratigraphy, Geological Correlation 1, (1993). 105109.Google Scholar
Simakova, A.N, and Kozharinov, A.V Paleoareal dynamics of the plant indicator species at the territories of the Eastern Europe during the Late-Valdai time. Paleontologia and Evolucio 28–29, (1995). 4547.Google Scholar
Sneath, P.H.A, and Sokal, R.R Numerical Taxonomy. (1973). Freeman, San Francisco.Google Scholar
Spiridonova, E.A The Evolution of Late Pleistocene-Holocene Vegetation in the Don basin. (1991). Nauka Press, Moskva.Google Scholar
Sycheva, S.A, Glasko, M.P, and Markova, A.K The multy-century rhythm of landscape evolution in Holocene, and the Kulikovo battle place in its structure. Izuchenie istoriko-kulternogo i prirodnogo nasledia Kulikova Polia. (1999). Tula, Moskva. p. 87113.Google Scholar
Tatarinov, K. A. (1977). Vertebrate fauna of Korman IV site.. In Mnogosloinaia paleoliticheskaia stoianka Korman IV Goretski, G. I. and Tzeitlin, S. M., Eds., pp. 112117. Nauka Press, Moskva.Google Scholar
Tzatzkin, A.I Paleosol studies of Late Pleistocene of the South-Western Russian Plain. (1980). Institute geografii Akademii Nauk SSSR, Moskva.Google Scholar
van Andel, T.H, and Tzedakis, P.C Palaeolithic landscapes of Europe and environs, 150,000–25,000 years ago: An overview. Quaternary Science Reviews 15, (1996). 481500.Google Scholar
Vangengeim, E.A Paleontological Basis of Anthropogene Stratigraphy of Northern Eurasia. (1977). Nauka Press, Moscow.Google Scholar
Velichko, A.A The Natural Process in the Pleistocene. (1973). Nauka Press, Moskva.Google Scholar
Velichko, A.A, and Morozova, T.D Soil cover during the Briansk Interval, Map 8. Gerasimov, I.P, and Velichko, A.A Paleogeografia Evropy during last 100,000 let (atlas-monografia). (1982). Nauka Press, Moskva. 8191.Google Scholar
Velichko, A.A, Morozova, T.D, and Nechaev, V.P The problems of chronostratigraphy and correlation of loess-paleosol formation of the Russian Plain. Velichko, A.A, and Shik, S.M Stratigrafia i paleogeografia chetvertichnogo perioda Vostochnoi Evropy. (1992). Institute of Geography RAS, Moskva. 115140.Google Scholar
Vereshchagin, N.K, and Kuzmina, E.E The mammal remains from the Don and Upper Desna Paleolithic sites. Trydy Zoologicheskogo Instituta Akademii Nauk SSSR 72, (1977). 7789.Google Scholar