Abstract:
A stable change in the temperature regime in the mountainous regions of the North Caucasus is one of
the climatic factors that can lead to a change in the activity of the hydrological nature hazards (mudflows, floods). In the paper the surface air temperature dynamics in the Eastern Caucasus low-mountain
zone at various stages of river flow formation from the point of view of its possible impact on the frequency of hazardous hydrological events were investigated. Methods of mathematical and statistical modeling
were used. A statistically significant increase in the average monthly values of air temperature in February and March was found, i.e. during the period of accumulation of snow reserves by the beginning of the
flood period, high floods and mudflows. It was found that the most significant increase in surface air
temperature takes place in the summer months, during the period of intense melting of glaciers in the
highlands at the river headwaters, which is also accompanied by an increase in precipitation intensity in
June and contributes to an increase in the frequency of hazardous hydrological events
Keywords:regional climate change, surface air temperature, hazardous hydrological events, floods,
mathematical and statistical modeling, tendency stability, linear trend, ranking.