A longer climate memory carried by soil freeze–thaw processes in Siberia

The climate memory of a land surface generally persists for only a few months, but analysis of surface meteorological data revealed a longer-term climate memory carried by soil freeze–thaw processes in Siberia. Surface temperature variability during the snowmelt season corresponds reasonably well wi...

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Bibliographic Details
Published in:Environmental Research Letters
Main Authors: Shinji Matsumura, Koji Yamazaki
Format: Article in Journal/Newspaper
Language:English
Published: IOP Publishing 2012
Subjects:
Q
Online Access:https://doi.org/10.1088/1748-9326/7/4/045402
https://doaj.org/article/df5be6bce1c14ca291b9cdeeb9918db7
Description
Summary:The climate memory of a land surface generally persists for only a few months, but analysis of surface meteorological data revealed a longer-term climate memory carried by soil freeze–thaw processes in Siberia. Surface temperature variability during the snowmelt season corresponds reasonably well with that in the summer of the following year, when most stations show a secondary autocorrelation peak. The surface temperature memory is thought to be stored as variations in the amount of snowmelt water held in the soil, and through soil freezing, which emerges as latent heat variations in the near-surface atmosphere during soil thawing approximately one year later. The ground conditions are dry in the longer-term climate memory regions, such as eastern Siberia, where less snow cover (higher surface air temperature) in spring results in less snowmelt water or lower soil moisture in the summer. Consequently, through soil freezing, it will require less latent heat to thaw in the summer of the following year, resulting in higher surface air temperature. In addition to soil moisture and snow cover, soil freeze–thaw processes can also act as agents of climate memory in the near-surface atmosphere.