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Volume 8, Issue 10 (Suppl)

J Earth Sci Clim Change, an open access

ISSN: 2157-7617

Climate Change 2017

October 19-21, 2017

CLIMATE CHANGE

October 19-21, 2017 | Rome, Italy

4

th

World Conference on

Response of East-European forest-steppe soils on climate change varying periodicity

Yury G Chendev

Belgorod State University, Russia

I

n the evolution of the geographic environment and soils the paramount importance belongs to climate change. Modern

landscapes and soils of Europe formed during Holocene. However, Holocene was heterogeneous on bioclimatic conditions,

and history of climate change and natural development of plant cover in different regions of Europe was characterized by

individuality. The purpose of the work is the presentation the results of study the forest-steppe soils responses to climate

change in Holocene within the Center of the Eastern Europe. The main method of the study is soil-archaeological method

or method of chronosequences for surfaced (modern) and buried soils. The objects of research are soils on the territory and

in the vicinity of archaeological sites (burial mounds and ancient settlements), including soils buried under earthen deposits

of archaeological monuments from 350 to 4600 years old. When comparing the different-aged soils, various morphological,

physical and chemical features of forest-steppe soils as indicators of the evolution of climatic and bioclimatic conditions

were analyzed. The reaction of soils to climatic changes lasting from decades to millenniums was studied. Climate changes

lasting nx1000 years have determined trends in the development of zonal forest-steppe soils - chernozems and gray forest soils

(Luvisols). Formation of gray forest soils was delayed in relation to the formation of chernozems. The age of meadow-steppe

soil formation in the forest-steppe zone is near 10,000 years.The age of broadleaf-forest soil formation in the forest-steppe

zone is less than 4000 years (after the beginning of climate wetting in Late Holocene). Climate changes lasting nx100 years

determined the evolutionary dynamics of forest-steppe soils by transformation of their Holocene trends. The development of

chernozems in Middle Holocene was interrupted by soil formation under forests as the result of episodic climatic moistening.

Development of gray forest soils in Late Holocene was inhibited by episodes of climatic aridizations and returning of steppe

environments to former forested areas. Soil responses to decadal climate changes in the 20th century (nx10 years) resulted in

dynamics of areas, occupied by saline and non-saline soils, as well as chernozems with different depth of carbonates. Thus,

East-European forest-steppe soils are very dynamic systems that respond to climatic changes of varying periodicity. This

circumstance should be taken into account in the development of current and long-term plans of economic management of

lands and soils of the study region.

Biography

Yury G Chendev is a specialist in field of soil geography, genesis and evolution of soils, palaeogeography, and historical geography. Author more than 200

scientific works (including 5 monographs). He conducted studies in many regions of Russia and foreign countries. He is a participant of many interdisciplinary

soil-archaeological expeditions. Dr. Chendev develops theory of evolution of forest-steppe soils in Holocene under influence of natural and anthropogenic factors.

Chendev@bsu.edu.ru

Yury G Chendev et al., J Earth Sci Clim Change 2017, 8:10(Suppl)

DOI: 10.4172/2157-7617-C1-036