Soil parameters for quantitative estimation of late holocene climate changes in the southern East European Plain
- Authors: Alekseev A.O.1, Kalinin P.I.1, Alekseeva T.V.1, Mitenko G.V.1
-
Affiliations:
- Institute of Physical Chemical and Biological Problems of Soil Science of the Russian Academy of Sciences
- Issue: Vol 485, No 1 (2019)
- Pages: 83-87
- Section: Geography
- URL: https://journals.eco-vector.com/0869-5652/article/view/12911
- DOI: https://doi.org/10.31857/S0869-5652485183-87
- ID: 12911
Cite item
Full Text
Abstract
The results of studies of the regularities of evolution of soils and the environment in the steppe zone of the East European Plain are presented. Different culture-based chronological stages for the Bronze Age, Iron Age, and Middle Ages (3rd millennium BC-2nd millennium AD) are considered on the basis of buried soils at archeological monuments (burial mounds).
About the authors
A. O. Alekseev
Institute of Physical Chemical and Biological Problems of Soil Science of the Russian Academy of Sciences
Author for correspondence.
Email: alekseev@issp.psn.ru
Corresponding Member of the RAS
Russian Federation, 2, Institutskaya street, Pushchino, Moscow Region, 142290P. I. Kalinin
Institute of Physical Chemical and Biological Problems of Soil Science of the Russian Academy of Sciences
Email: alekseev@issp.psn.ru
Russian Federation, 2, Institutskaya street, Pushchino, Moscow Region, 142290
T. V. Alekseeva
Institute of Physical Chemical and Biological Problems of Soil Science of the Russian Academy of Sciences
Email: alekseev@issp.psn.ru
Russian Federation, 2, Institutskaya street, Pushchino, Moscow Region, 142290
G. V. Mitenko
Institute of Physical Chemical and Biological Problems of Soil Science of the Russian Academy of Sciences
Email: alekseev@issp.psn.ru
Russian Federation, 2, Institutskaya street, Pushchino, Moscow Region, 142290
References
- Демкин В. А., Рысков Я. Г., Алексеев А. О., Олейник С. А., Губин С. В. Палеопедологическое изучение памятников степной зоны // Изв. АН. Сер. геогр. 1989. № 6. С. 40-51.
- Иванов И. В. Эволюция почв степной зоны в голоцене. М.: Наука, 1992. 143 с.
- Демкин В. А., Ельцов М. В., Алексеев А. О., Алексеева Т. В. и др. Развитие почв Нижнего Поволжья за историческое время // Почвоведение. 2004. № 12. С. 1486-1497.
- Алексеев А.О., Алексеева Т. В. Оксидогенез железа в почвах степной зоны. М.: Геос, 2012. 204 с.
- Ковда В. А. Аридизация суши и борьба с засухой. М.: Наука, 1977. 272 с.
- The Encyclopedia of Earth Sciences / The Encyclopedia of Climatology. V. XI / J.E. Oliver, R.W. Fairbridge Eds. N.Y.: van Nostrand Reinold, 1987. 103 p.
- Виноградов Б. В. Опустынивание – проблема степной зоны России // Степ. бюл. 1999. № 3/4. С. 5558.
- Maher В.A., Alekseev А.О., Alekseeva Т. V. Climate Dependence of Soil Magnetism Across the Russian Steppe: Significance for Use of Soil Magnetism as a Palaeoclimatic Proxy // Quatern. Sci. Revs. 2002. V. 21. P. 1571-1576.
- Alekseeva T., Alekseev A., Maher В. A., Demkin V. Late Holocene Climate Reconstructions for the Russian Steppe, Based on Mineralogical and Magnetic Properties of Buried Palaeosols // Palaeogeogr., Palaeoclima- tol., Palaeoecol. 2007. V. 249. P. 103-127.
- Maher В., Possolo A. Statistical Models for Use of Palaeosol Magnetic Properties as Proxies of Palaeorainfall // Global and Planet. Change. 2013. V. 12. P. 280-287.
- Sheldon N. D., Tabor N. J. Quantitative Paleoenviron- mental and Paleoclimatic Reconstruction Using Paleosols // Earth-Sci. Rev. 2009. V. 95. P. 1-52.
- Gallagher T.M., Sheldon N.D. A New Paleothermometer for Forest Paleosols and its Implications for Cenozoic Climate // Geology. 2013. V. 41. P. 647-650.
- Alley R.B. GISP2 Ice Core Temperature and Accumulation Data. IGBP PAGES / World Data Center for Paleoclimatology Data Contribution Series #2004-013