V. A. Dergachev scite author profile

Evidence for millennial-scale climate changes during the last 60,000 years has been found in Greenland ice cores and North Atlantic ocean cores. Until now, the cause of these climate changes remained a matter of debate. We argue that variations in solar activity may have played a significant role in forcing these climate changes. We review the coincidence of variations in cosmogenic isotopes (C and Be) with climate changes during the Holocene and the upper part of the last Glacial, and present two possible mechanisms (involving the role of solar UV variations and solar wind/cosmic rays) that may explain how small variations in solar activity are amplified to cause significant climate changes. Accepting the idea of solar forcing of Holocene and Glacial climatic shifts has major implications for our view of present and future climate. It implies that the climate system is far more sensitive to small variations in solar activity than generally believed.

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Climate change and the expansion of the Scythian culture after 850 BC: a hypothesis

Geel

Bokovenko

Burova

et al. 2004

Journal of Archaeological Science

118

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In south-central Siberia archaeological evidence suggests an acceleration of cultural development and an increase in the density of nomadic populations around 850 BC. We hypothesize a relationship with an abrupt climatic shift towards increased humidity caused by a decline of solar activity. Areas that initially may have been hostile semi-deserts changed into attractive steppe landscapes with a high biomass production and high carrying capacity. Newly available steppe areas could be invaded by herbivores, making them attractive for nomadic tribes. The central Asian horse-riding Scythian culture expanded, and an increased population density was a stimulus for westward migration towards southeastern Europe.

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The Filling of Gaps in Geophysical Time Series by Artificial Neural Networks

Dergachev¹,

Gorban

Rossiev

et al. 2001

Radiocarbon

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Nowadays, there is a large number of time series of natural data to study geophysical and astrophysical phenomena and their characteristics. However, short length and data gaps pose a substantial problem for obtaining results on properties of the underlying physical phenomena with existing algorithms. Using only an equidistant subset of the data with coarse steps leads to loss of information. We present a method to recover missing data in time series. The approach is based on modeling the time series with manifolds of small dimension, and it is implemented with the help of neural networks. We applied this approach to real data on cosmogenic isotopes, demonstrating that it could successfully repair gaps where data was purposely left out. Multi-fractal analysis was applied to a true radiocarbon time series after recovering missing data.

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A Chronology of the Scythian Antiquities of Eurasia Based on New Archaeological and ¹⁴C Data

Alekseev¹,

Bokovenko

Boltrik

et al. 2001

Radiocarbon

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ABSTRACT. The paper is compares the chronology of the monuments of the Scythian epoch located in the east and west of the Eurasian steppe zone on the basis of both archaeological and radiocarbon data. The lists of 14 C dates for the monuments located in different parts of Eurasia are presented according to the periods of their existence. Generally, the 14 C dates are confirmed the archaeological point of view and allow us to compare the chronological position of the European and Asian Scythian monuments on the united 14 C time scale.

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V. A. Dergachev

The role of solar forcing upon climate change

Climate change and the expansion of the Scythian culture after 850 BC: a hypothesis

The Filling of Gaps in Geophysical Time Series by Artificial Neural Networks

A Chronology of the Scythian Antiquities of Eurasia Based on New Archaeological and ¹⁴C Data

Contact Info

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About

V. A. Dergachev

The role of solar forcing upon climate change

Climate change and the expansion of the Scythian culture after 850 BC: a hypothesis

The Filling of Gaps in Geophysical Time Series by Artificial Neural Networks

A Chronology of the Scythian Antiquities of Eurasia Based on New Archaeological and 14C Data

Contact Info

Product

Resources

About

A Chronology of the Scythian Antiquities of Eurasia Based on New Archaeological and ¹⁴C Data