Hostname: page-component-78c5997874-g7gxr Total loading time: 0 Render date: 2024-11-17T14:09:38.530Z Has data issue: false hasContentIssue false

Radiocarbon Dates and Late-Quaternary Stratigraphy from Mamontova Gora, Unglaciated Central Yakutia, Siberia, U.S.S.R.

Published online by Cambridge University Press:  20 January 2017

Troy L. Péwé
Affiliation:
Department of Geology, Arizona State University, Tempe, Arizona USA and U.S. Geological Survey, Tempe, Arizona
André Journaux
Affiliation:
Centre de Géomorphologie du CNRS, Rue des Tilleuls Caen, France
Robert Stuckenrath
Affiliation:
Radiation Biology Laboratory, Smithsonian Institution, Rockville, Maryland USA

Abstract

A fine exposure of perennially frozen ice-rich silt and associated flora and vertebrate fauna of late-Quaternary age exists at Mamontova Gora along the Aldan River in central Yakutia, Siberia, U.S.S.R. The silt deposit caps a 50-m-high terrace and consists of three units. An upper layer 1–2 m thick overlies a 10–15-m-thick brownish to black silt layer. The lower silt layer is greenish to gray and about 15 m thick. All the silt is well sorted with 60% of the particles falling between 0.005 and 0.5 mm in diameter and is generally chemically and mineralogically homogeneous. The middle unit contains may extinct vertebrate mammal remains and ice wedges. The lower unit contains little vegetation and no ice wedges. The silt is widespread and exists as a loamy blanket on terraces at various elevations on both sides of the lower Aldan River. The origin of the silt blanket of late-Quaternary age in central Yakutia has long been controversial. Various hypotheses have been suggested, including lacustrine and alluvial, as well as frost-action origins. It is sometimes referred to as loess-like loam. Péwé believes the silt at Mamontova Gora is loess, some of which has been retransported very short distances by water. The silt probably was blown from wide, braided, unvegetated flood plains of rivers draining nearby glaciers. The silt deposits are late Quaternary in age and probably associated with the Maximum glaciation (Samarov) and Sartan and Syryan glaciations of Wisconsinan age. On the basis of biostratigraphy, 10 radiocarbon dates, and their relation to the nearby glacial record, it is felt that the upper unit at Mamontova Gora is Holocene and the middle unit is Wisconsinan. The youngest date available from the middle unit at this particular location is 26,000 years. Dates greater than 56,000 years were obtained in the lower part of the middle unit. The lower unit is definitely beyond the range of radiocarbon dating and probably is older than the last interglacial. The sediment, fauna, ice wedges, stratigraphy, and age of perennially frozen slit deposits in central Alaska are remarkably similar to those of the deposits exposed in central Yakutia. Both areas consist of unglaciated rolling lowlands and river terraces surrounded by high mountains that were extensively glaciated in Pleistocene time. The glaciers extended from the high mountains to the edges of the ranges. In both regions, extensively braided, silt-charged rivers drained the mountains and flowed through the lowlands on their way to the sea. It follows that there should be a similar late-Quaternary history.

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

Agadzhanyan, A.K., Boyarskaya, T.D., Glusenkova, N.I., Sudakova, N.G., (1973). Paleogeography and stratigraphy of Mamontova Gora, central Yakutia. Biuletyn Peryglacjalny. 23, 19-36.Google Scholar
Baranova, Yu.P., Biske, S.F., Goncharov, 10.F., Kul'kova, I.A., Titkov, A.S., (1968) Cenozoic of the Northeastern U.S.S.R.. Academy of Science, U.S.S.R, Nauka Pub., Moscow (in Russian).Google Scholar
Baranova, Yu.P., Nikitin, 11.P., Iljinskaya, I.A., Fradkina, A.F., (1975). Palaeobotanical excursion guide, Mamontova Gora (central Yakutia) tour 14. XII International Botanical Congress. Leningrad .Google Scholar
Boyarskoya, T.D., Malayeva, E.M., (1967). Development of Vegetation in Siberia and the Far East in Quaternary period. Nauka Pub, Moscow. Google Scholar
Giterman, R.E., (1963). Development stages of Quaternary vegetation in Yakutia and their stratigraphic significance. Transactions of the Geological Institute, Academy of Science, U.S.S.R.. 78.Google Scholar
Giterman, R.E., Golubeva, L.12., (1967). Vegetation of eastern Siberia during the Anthropogene period. The Bering Land Bridge. Stanford Univ. Press, Stanford, 231-244.Google Scholar
Guthrie, R.D., (1968). Paleoecology of a late Pleistocene small-mammal community from interior Alaska. Arctic. 21, 223-244.CrossRefGoogle Scholar
Katasonov, E.M., Ivanov, M.S., (1973). Cryolithology of central Yakutia (excursion on the Lena and Aldan Rivers). Guidebook, Second International Conference on Permafrost. U.S.S.R. Academy of Sciences, Yakutsk .Google Scholar
Katasonov, E.M., Solov'ev, P.A., 'ev, 1969. Guide to trip round central Yakutia (paleogeography and periglacial phenomena). International Symposium on Paleogeography and Periglacial Phenomena of Pleistocene. Yakutsk .Google Scholar
Kind, N.13., (1972). Late Quaternary climatic changes and glacial events in the Old and New World radiocarbon chronology. 24th International Geological Congress. 55-61 Sect. 12.Google Scholar
Kind, N.14., (1975). Glaciations in the Verkhoyansk Mountains and their place in the radiocarbon chronology of the Siberian late Anthropogene. Biuletyn Peryglacjalny. 41-54.Google Scholar
Markov, K.K., (1973). Cross Section of the Recent Deposits at mamontova Gora. Izd-vo Univ. of Moscow, Moscow, (in Russian).Google Scholar
Matthews, J.15. Jr., (1968). A paleoenvironmental analysis of three late Pleistocene Coleopterous assemblages from Fairbanks, Alaska. Quaestiones Entmologicae. 4, 241-251.Google Scholar
Motuzko, A.N., Sudakova, N.G., Khorev, 16.S., (1969). About the age of the loess-like loam of the Aldan terraces. Markov, K.K., Recent Tectonics, Recent Deposits and Man. Moscow State Univ, 62-67 (In Russian).Google Scholar
Péwé, T.L., éwé, 1952. Geomorphology of the Fairbanks Area. Ph.D. Thesis. Stanford University, Stanford, California. Google Scholar
Péwé, T.L., éwé, 1954. Effect of permafrost on cultivated fields, Fairbanks area, Alaska. U.S. Geological Survey Bulletin. 989-F, 315-351.Google Scholar
Péwé, T.L., éwé, 1955. Origin of the upland silt near Fairbanks, Alaska. Geological Society of America Bulletin. 66, 699-724.Google Scholar
Péwé, T.L., éwé, 1958 Geology of the Fairbanks (D-2) Quadrangle, Alaska. U.S. Geological Survey, Geological Quadrangle Map GQ-110, scale 1:63,360.Google Scholar
Péwé, T.L., éwé, 1965. Fairbanks area. Péwé, T.L., Ferrians, O.J. Jr., Nichols, D.R., Karlstrom, T.N.17., Guidebook for Field Conference F, central and south central Alaska—International Association for Quaternary Research, 7th Congress. 1965, Lincoln, Nebraska, Nebraska Academy of Science 6-36.Google Scholar
Péwé, T.L., éwé, 1968. Loess deposits of Alaska. International Geological Congress, 23d, Prague 1968. Vol. 8, 297-309.Google Scholar
Péwé, T.L., éwé, 1973a. Northeast Siberia: A report on the 2nd International Conference on Permafrost. Arctic Bulletin. 1, 29-38.Google Scholar
Péwé, T.L., éwé, 1973b. Permafrost conference in Siberia. Geotimes. 9, 23-26.Google Scholar
Péwé, T.L., éwé, 1974. Second international conference on permafrost—northeast Siberia. Zeitschrift fur Gletscherkunde und Glazialgeologie. 9, 253-260.Google Scholar
Péwé, T.L., éwé, 1975a Quaternary Stratigraphic Nomenclature in Central Alaska. U.S. Geological Survey Professional Paper 862.Google Scholar
Péwé, T.L., éwé, 1975b Quaternary Geology of Alaska. U.S. Geological Survey Professional Paper 835.Google Scholar
Péwé, T.L., éwé, 1975c. Permafrost: challenge of the arctic. 1976 Yearbook, Science and the Future, Encyclopedia Britannica. 90-105.Google Scholar
Rusanov, B.S., (1968) Biostratigraphy of Cenozoic Deposits, Southern Yakutia. Academy of Science, U.S.S.R, Nauka, Moscow (in Russian).Google Scholar
Sudakova, N.G., (1969). Loesslike loams of the Aldan River Valley. Markov, K.K., Recent Tectonics, Recent Deposits, and Man. Moscow State Univ, 41-61 (in Russian).Google Scholar
Tomirdiaro, S.18., Ryabchun, U.K., Ivanets, B.S., (1974). The physical-geographic environment and distinctive features of formation of the loess-glacial mantle on the plains of northeastern Asia. Geologiya and Geofizika. 15, 47-61.Google Scholar
Vangengeim, E.A., (1961). Paleontological basis of the stratigraphy of the Anthropogene deposits in northeastern Siberia. Proceedings of the Geological Institute, Academy of Science U.S.S.R.. 48, 1-81 (in Russian).Google Scholar