Apparent thermal diffusivity of soil in ice-free areas of Keller peninsula in maritime Antarctica

Abstract Heat transfer process in the soil active layer is important for the knowledge of its thermal properties linked with climate issues. The objective of this work was to analyze the energy flux in different soil profiles by estimating the apparent soil thermal diffusivity ($ATD$). The study was...

Full description

Bibliographic Details
Published in:Anais da Academia Brasileira de Ciências
Main Authors: DANIELA A. CHAVES, GUSTAVO B. LYRA, MÁRCIO R. FRANCELINO, LEONARDO D.B. DA SILVA, CARLOS E.R.G. SCHAEFER, ANDRÉ THOMAZINI
Format: Article in Journal/Newspaper
Language:English
Published: Academia Brasileira de Ciências 2022
Subjects:
heat flow
freezing index
seasonal temperature and soil moisture
degree days of soil freezing
Science
Q
King George Island
Keller
Keller peninsula
Antarc*
Antarctica
Ice
permafrost
Online Access:https://doi.org/10.1590/0001-3765202220200458
https://doaj.org/article/c6e53b29bd73474c998714cb3ea597a5
Description
Summary:Abstract Heat transfer process in the soil active layer is important for the knowledge of its thermal properties linked with climate issues. The objective of this work was to analyze the energy flux in different soil profiles by estimating the apparent soil thermal diffusivity ($ATD$). The study was carried out in Keller Peninsula, located at King George Island in four different sites differing by soil characteristics, as well as vegetation coverage and landscape setting. The $ATD$ was estimated in function of the long-term hourly temperature records at different soil depths. In addition, we estimated the seasonal mean of the $ATD$ and the freezing $N$-factor. Results showed that $ATD$ values were smaller at shallow depths and increased with depth. The diffusivity values presented lower variability in colder conditions, especially at deeper soil layers. Water content was the main factor affecting soil thermal diffusivity at sites $1$ and $3$ (more than $70$ and $63\%$ of probability). At sites $3$ and $4$ lower $N$-factors were observed, suggesting higher snow pack and permafrost closer to the soil surface. Hence, positive $ATD$ appears in the summer due to thawing increases soil moisture, while negative $ATD$ appears during the freeze of the snow pack and precipitation.

Similar Items