Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-30T17:38:06.007Z Has data issue: false hasContentIssue false

14C Chronology of Late Pleistocene–Holocene Events in the Nizhnee Priamurie (Southeast Russia)

Published online by Cambridge University Press:  18 July 2016

V B Bazarova
Affiliation:
Pacific Institute of Geography, Radio St. 7, Vladivostok 690041, Russia.
L M Mokhova
Affiliation:
Pacific Institute of Geography, Radio St. 7, Vladivostok 690041, Russia.
L A Orlova
Affiliation:
United Institute of Geology, Geophysics and Mineralogy, Universitetsky Pr. 3, Novosibirsk 630090, Russia.
M A Klimin
Affiliation:
Institute of Water and Ecological Problems, Kim-Yu-Chen St. 65, Khabarovsk 680063, Russia.
I G Gvozdeva
Affiliation:
Pacific Institute of Oceanology, Balti'skaya St. 43, Vladivostok 690041, Russia.
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The Russian Far East is characterized by widespread peat bogs with a sufficiently thick peat accumulation. A series of radiocarbon dates from the studied peat bogs (in Lower Amur) were obtained. Analysis of these dates shows that the total peat formation in this territory began in the Late Pleistocene–Holocene (11830 ± 820, TIG-157; 9975 ± 120, SOAN-4025). The rates of peat accumulation and the humidity index were counted. In addition, the botanical composition and degree of peat decomposition were defined. These data allow to study in more detail climate fluctuation and the 14C chronology of Holocene events in the region studied.

Type
Articles
Copyright
Copyright © The Arizona Board of Regents on behalf of the University of Arizona 

References

Elina, GA, Yurkovskaya, TK. 1992. Methods of palaeohydrological regime determination as basis for objectivization of causes of mire vegetation successions. Botanical Journal 77(7):120–4. In Russian.Google Scholar
Karaulova, LP. 1974. Pollen basis of Pleistocene-Holocene deposits stratigraphy in Primorye.Google Scholar
Khotinskiy, NA. 1977. Holocene of Northern Eurasia. Moscow: Nauka. 197 p. In Russian.Google Scholar
Khotinskiy, NA 1987. Radiocarbon chronology and correlation of natural and anthropogenic boundaries of Holocene. New data of Quaternary geochronology. Moscow: Nauka. p 3945. In Russian.Google Scholar
Korotkiy, AM, Volkov, VG, Bazarova, VB, Kovalukh, NN. 1993. Catalogue of Quaternary radiocarbon dates of Far East. Pacific Institute of Geography. Vladivostok: FEB RUS. 40 p. In Russian.Google Scholar
Korotkiy, AM, Mokhova, LM, Bazarova, VB. Forthcoming. Stratigraphic and paleogeographic interpretation of Gurskiy peat-land. Bulletin of committee by study of Quaternary 64.Google Scholar
Kulakov, AP, Nazarenko, EM, Pushkar, VS. 1975. About traces of Quaternary marine transgressions in Northern-Western Priokhotie. Problems of Geomorphology and Quaternary Geology in the south of Far East. Vladivostok: FESC AS USSR:118–30. In Russian.Google Scholar
Mikishin, Yu A, Petrenko, TI, Gvozdeva, IG, Razova, GG. 1987. Stratigraphy of deposits of a five meter terrace on Chlya Lake. Pollen data of the Russian East. Vladivostok: FESC AS USSR:94101. In Russian.Google Scholar
Neishtadt, MI. 1957. History of forests and USSR paleogeography in Holocene. Moscow: Nauka. 404 p. In Russian.Google Scholar
Neishtadt, MI. 1967. Stratigraphy of peatbogs by data of absolute ages. The nature of the peat bogs and the methods of the investigations. Leningrad: Nauka. In Russian.Google Scholar
Prozorov Yu, S. 1970. Total characteristic of peat bogs. The resources of surface waters. The Far East 18: 454–62. In Russian.Google Scholar
Prozorov, Yu S. 1985. Peat bogs of the Nizhnee Amur depressions. Novosibirsk: Nauka. 212 p. In Russian.Google Scholar
Sokhina, AN, Boyarskaya, TD, Okladnikov, AP, Roslikova, VI, Chernyuk, AI. 1978. Section of Quaternary deposits of the Nizhnee Priamurie. Moscow: Nauka. 107 p. In Russian.Google Scholar