Hostname: page-component-84b7d79bbc-l82ql Total loading time: 0 Render date: 2024-07-31T01:25:12.290Z Has data issue: false hasContentIssue false
  • English
  • Français

Problems in Radiocarbon Dating of Soils

Published online by Cambridge University Press:  18 July 2016

O. A. Chichagova  and
A. E. Cherkinsky
O. A. Chichagova
Affiliation:
Institute of Geography, Russian Academy of Sciences, Staromenetnyi 29, Moscow 109017 Russia
A. E. Cherkinsky
Affiliation:
Institute of Geography, Russian Academy of Sciences, Staromenetnyi 29, Moscow 109017 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.

We discuss our progress in three principal applications of 14C dating of recent and fossil soils: 1) new methods; 2) problems of interpreting 14C soil data (e.g.,14C age of soils, age of soils, duration of humus formation, rate of carbon cycling); and 3) 14C analysis of soil organic matter (OM) in pedology and paleogeography (e.g., soil genesis and evolution, humus formation and OM metamorphosis, geochronology and stratigraphy of Late Pleistocene and Holocene sediments). We suggest exploring the above issues in the analysis of each 14C profile in conjunction with paleogeographical data, and by simulation of the carbon cycle in each type of profile.

Type
Methodological Studies
Information
Radiocarbon , Volume 35 , Issue 3 , 1993 , pp. 351 - 362
Copyright
Copyright © The American Journal of Science 

References

Alexandrovsky, A. L. 1983 Evolution of Soils of the East-European Plain in the Holocene. Moscow, Nauka: 150 p.Google Scholar
Arslanov, Kh. A. and Kozyreva, M. G. 1976 On the matter of dating contemporary soils by the radiocarbon method. In Problems of Palaeogeography and Geochronology of the Upper Pleistocene and Holocene of the Northwest Russian Plain 10. Leningrad: 99113.Google Scholar
Cherkinsky, A. E. 1981 Recent theories of humification and radiocarbon research of some types of soils. Doklady Akademii Nauk SSSR 258(4): 993996.Google Scholar
Chichagova, O. A. 1972 On the age of the Upper Pleistocene fossil soils on the basis of radiocarbon data. In Loesses, Buried Soils and Cryogenic Developments on the Russian Plain. Moscow, Nauka: 119137.Google Scholar
Chichagova, O. A. 1985 Radiocarbon Dating of Humus of Soils: Methods and Applications in Pedology and Palaeogeography. Moscow, Nauka: 155 p.Google Scholar
Chichagova, O. A., Ammosova, Ya. M. and Aleksandrovsky, A. L. 1979 Research of organic matter of fossil soils of various ages. In Accumulation and Transformation of Sedikakhits. Moscow, Nauka: 8186.Google Scholar
Chichagova, O. A. and Cherkinsky, A. E. Radiocarbon research of organic matter and age of soils. Biological Sciences 8: 518.Google Scholar
Chichagova, O. A. and Levitan, D. G. 1966 The experience of applying the radiocarbon method for determining the age of soils. Izvestiya Akademii Nauk SSSR, Seriya Geografischeskaya i Geofizicheskaya 2: 8084.Google Scholar
Fokin, A. D. (ms.) 1975 Study of the Processes of Transformation, Interaction and Transfer of Organic Matter, Iron, and Phosphorus in Podzolic Soil. Ph.D. dissertation, Moscow Institute of Geography: 28 p.Google Scholar
Gerasimov, I. P. 1969 Absolute and relative age of soils. Pochvovedenie 5: 2732.Google Scholar
Gerasimov, I. P. 1971 Nature and essence of ancient soils. Pochvovedenie 4: 310.Google Scholar
Gerasimov, I. P. and Chichagova, O. A. 1971 Some problems of radiocarbon dating of soil humus. Pochvovedenie 10: 311.Google Scholar
Lobo, P. F. S. and Flexor, L. M. 1974 Essai de détermination du temps de résidence des fractions humiques de deux sols ferrallitiques par l'utilisation de radiocarbone naturel et thermonucléaire. Cahiers ORSTOM, Série Pédologie 12(1): 115123.Google Scholar
Martel, J. A. and Lasalle, P. 1977 Radiocarbon dating of organic matter from a cultivated topsoil in eastern Canada. Canadian Journal of Soil Sciences 57(3): 335377.CrossRefGoogle Scholar
Orlov, D. S. 1974 Humic Acids of Soils. Moscow State University: 333 p.Google Scholar
Orlov, D. S. 1977 The kinetic theory of humification and pattern of possible structure of humic acids. Scientific Reports of the Higher School of Biological Sciences 9: 516.Google Scholar
Romashkevitch, A. I., Chichagova, O. A. and Cherkinsky, A. E. 1984 Age of humus of mountain soils of the Greater Caucasus. Pochvovedenie 3: 2330.Google Scholar
Rubilin, E. V. and Kozyreva, M. G. 1980 On the age of chestnut soils of the European part of the USSR. Pochvovedenie 1: 513.Google Scholar
Scharpenseel, H. W. 1971 Radiocarbon dating of soils—problems, troubles, hopes. In Paleopedology: Origin, Nature and Dating of Paleosols. Jerusalem: 7788.Google Scholar
Scharpenseel, H. W. and Schiffman, H. 1977 Radiocarbon dating of soils, a review. Zeitschrift für Pflanzenernährung und Bodenkunde 149: 159174.CrossRefGoogle Scholar
Sokolova, I. A. and Targul'yan, V. O. 1976 Interrelation between soil and environment: Soil-memory, soil-moment. In Study and Development of the Natural Environment. Moscow, Nauka: 150164.Google Scholar
Subeliani, T. M. (ms.) 1983 The Role of Age in Forming Subtropic Zheltozem-Podzolic Soils: Ph.D. dissertation, Tbilisi University.Google Scholar
Targul'yan, V. O. 1982 Development of soils in time. In Problems of Pedology. Moscow, Nauka: 108113.Google Scholar
Tolchel'nikov, Yu. S. and Kostarev, A. S. 1979 Experience in determining the age of alfehumic Podzol by the radiocarbon method. Izvestiya Vsesoyuznogo Geograficheskogo Obschestva 11(3): 264270.Google Scholar
Tolchel'nikov, Yu. S. 1982 On the interpretation of radiocarbon dates of soils. Izvestiya Vsesoyuznogo Geograficheskogo Obschestva 11(3): 264270.Google Scholar
Velichko, A. A. and Morozova, T. D. 1976 Peculiarities of paleogeographical approach when studying fossil and contemporary soils. In Study and Development of the Natural Environment. Moscow, Nauka: 108123.Google Scholar
Zavel'sky, F. S. 1975 Radiocarbon dating and theoretical models of the carbon cycle in soils. Izvestiya Akademii Nauk SSSR, Seriya Geografischeskaya i Geofizicheskaya 1: 2734.Google Scholar