Landscape Microzones within Thermokarst Depressions of Central Yakutia under Present Climatic Conditions

Thermokarst (alas) of Central Yakutia is an intrazonal dynamic landscape in the form of rounded depressions with peculiar soils and meadow vegetation, microclimate, and fauna that are very different from the surrounding typical taiga landscapes. During the formation of alas depression, complete proc...

Full description

Bibliographic Details
Published in:Geosciences
Main Authors: Alexey Desyatkin, Fumiaki Takakai, Maya Nikolaeva
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2018
Subjects:
thermokarst
central yakutia
thermokarst soils
thermokarst vegetation
hydrothermal regime
physicochemical regime
GHG emission
thermokarst microzones
Geology
QE1-996.5
taiga
Thermokarst
Yakutia
Online Access:https://doi.org/10.3390/geosciences8120439
https://doaj.org/article/d2a1c08e8fda4d4fa5ef62495550c5fe
Description
Summary:Thermokarst (alas) of Central Yakutia is an intrazonal dynamic landscape in the form of rounded depressions with peculiar soils and meadow vegetation, microclimate, and fauna that are very different from the surrounding typical taiga landscapes. During the formation of alas depression, complete processing of thawed ground with the formation of new soils occurs and entirely changes the biogeochemical cycle. Because this system is closed, all water-soluble substances, such as N/C and soluble salts, etc., accumulate inside the depression. Using standard methods and instruments, we measured the main properties of alas soils. Depending on the hydrothermal and physicochemical regimes, thawing depth, and greenhouse gas (GHG) flux, three main belts of soils and vegetation were distinguished within the alas: (1) steppe meadow, located on most elevated places, not sufficiently moistened, with alas steppe soils and steppe vegetation; (2) middle meadow, located lower than stepped meadow in elevation, normally moist, with alas sod-meadow soils and highest productivity vegetation; and (3) wet meadow, located around the lake, excessively moistened, with alas marshy sod-meadow soils and marsh vegetation. Therefore, the soils of wet and real meadows, due to the abundance of organic matter, are significant sources of CO 2 and CH 4 , especially in humid years. Under the climate warming observed over recent decades in this territory, the alas ecosystem has undergone considerable change. Thus, the classification and mapping of belts within the alas can have both applied and fundamental importance.

Similar Items