Long-term dynamics of the atmospheric and soil climate of humid subtropics of Russia

Abstract

Aim. Identify patterns of temporal changes in the parameters of the atmospheric and soil climates of humid subtropics. Methods. The dynamics of air and soil temperature and precipitation are analyzed in the long-term and seasonal cycles with respect to the climatic normal, which is considered as a quantitative characteristic of the conditions of pedogenesis and climate variability over time. Results. The data on air temperature, precipitation and soil temperature yellow soils, formed in a subtropical wet-forest soil bioclimatic area are analyzed. It is shown that the average annual air temperature in 2001 - 2018 exceeded the climatic normal by 0,7°C, the annual precipitation increased by 104 mm. Modern warming leads to a change in the temperature regime of yellow soils. The average annual soil temperature at the beginning of the XXI century increased from 0,5°С at the depth of 320 cm to 0,9°С at the depth of 20 cm. The sum of active soil temperatures above 10°С at the depth of 20 cm increased by 283°С. Main conclusions. In the modern period, a change in the atmospheric and soil climate towards warming is observed in the zone of distribution of yellow soils of humid subtropics of Russia, accompanied by an increase in precipitation. Warming is most pronounced in the summer season and is practically not observed in the winter season. It is characterized by an increase in air and soil temperature throughout its profile, an increase in the sum of active temperatures. The revealed climate changes make it possible to re-evaluate the soil and agroclimatic resources of the Russian subtropics for agriculture and forestry.