The Effect of Post-Fire Disturbances on a Seasonally Thawed Layer in the Permafrost Larch Forests of Central Siberia

The Effect of Post-Fire Disturbances on a Seasonally Thawed Layer in the Permafrost Larch Forests of Central Siberia

We examined and simulated the consequences of the degradation of the litter and the moss–lichen layer after fire impact, which could affect the seasonal temperature of the soil and the depth of the seasonally thawed layer (STL) in the permafrost zone. According to the analysis of satellite imagery f...

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Bibliographic Details
Main Authors: Evgenii Ponomarev, Oxana Masyagina, Kirill Litvintsev, Tatiana Ponomareva, Evgeny Shvetsov, Konstantin Finnikov
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Forests
Subjects:
wildfires
disturbance
permafrost
thermal anomaly
seasonally thawed layer
soil
Online Access:https://www.mdpi.com/1999-4907/11/8/790
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spelling doaj-7fa041c890834ca486ec722acdd27f0c2020-11-25T03:14:46ZengMDPI AGForests1999-49072020-07-011179079010.3390/f11080790The Effect of Post-Fire Disturbances on a Seasonally Thawed Layer in the Permafrost Larch Forests of Central SiberiaEvgenii Ponomarev0Oxana Masyagina1Kirill Litvintsev2Tatiana Ponomareva3Evgeny Shvetsov4Konstantin Finnikov5V.N. Sukachev Institute of Forest SB RAS, Federal Research Center “Krasnoyarsk Science Center of the Siberian Branch of the Russian Academy of Sciences”, 660036 Krasnoyarsk, RussiaV.N. Sukachev Institute of Forest SB RAS, Federal Research Center “Krasnoyarsk Science Center of the Siberian Branch of the Russian Academy of Sciences”, 660036 Krasnoyarsk, RussiaKutateladze Institute of Thermophysics, Siberian Branch, Russian Academy of Sciences, 630090 Novosibirsk, RussiaV.N. Sukachev Institute of Forest SB RAS, Federal Research Center “Krasnoyarsk Science Center of the Siberian Branch of the Russian Academy of Sciences”, 660036 Krasnoyarsk, RussiaV.N. Sukachev Institute of Forest SB RAS, Federal Research Center “Krasnoyarsk Science Center of the Siberian Branch of the Russian Academy of Sciences”, 660036 Krasnoyarsk, RussiaInstitute of Engineering Physics and Radioelectronics, Institute of Ecology and Geography, Siberian Federal University, 660041 Krasnoyarsk, RussiaWe examined and simulated the consequences of the degradation of the litter and the moss–lichen layer after fire impact, which could affect the seasonal temperature of the soil and the depth of the seasonally thawed layer (STL) in the permafrost zone. According to the analysis of satellite imagery for 2000 to 2019, the fire-disturbed area in the region of interest amounted to 20%. The main aims of the study included quantitative evaluation of the variation range of summer temperature anomalies at fire-damaged plots, summarizing the statistical norm of the STL depending on natural conditions, and numerical simulation of the response of the STL. Using Terra and Aqua/MODIS imagery, we analyzed surface temperature (in bands of λ = 10.780–11.280 and 11.770–12.270 μm) coupled with the normalized difference vegetation index (NDVI) for non-disturbed and fire-damaged sites under the same natural conditions of larch forests in Central Siberia. Heat transfer, freezing and thawing processes were numerically simulated for two extreme cases of soil conditions: dry soil and water-saturated soil. The model was also applied to soil with non-homogeneous water content. As input parameters, we used data on the properties of cryogenic soils collected in larch forests (<i>Larix gmelinii</i>) in the flat-mountainous taiga region of the Evenkia (Central Siberia). For post-fire plots, surface temperature anomalies observed during summer months remained significant for more than 15–20 years after fire impact, while the NDVI values were restored to the statistical norm within 7–10 years of the fire. According to the results of numerical simulation, the thickness of the STL could show a 30–50% increase compared to the statistical norm. In the first approximation, we showed the annual soil temperature dynamics at various depths in disturbed and non-disturbed plots.https://www.mdpi.com/1999-4907/11/8/790wildfiresdisturbancepermafrostthermal anomalyseasonally thawed layersoil
collection DOAJ
language English
format Article
sources DOAJ
author Evgenii Ponomarev
Oxana Masyagina
Kirill Litvintsev
Tatiana Ponomareva
Evgeny Shvetsov
Konstantin Finnikov
spellingShingle Evgenii Ponomarev
Oxana Masyagina
Kirill Litvintsev
Tatiana Ponomareva
Evgeny Shvetsov
Konstantin Finnikov
The Effect of Post-Fire Disturbances on a Seasonally Thawed Layer in the Permafrost Larch Forests of Central Siberia
Forests
wildfires
disturbance
permafrost
thermal anomaly
seasonally thawed layer
soil
author_facet Evgenii Ponomarev
Oxana Masyagina
Kirill Litvintsev
Tatiana Ponomareva
Evgeny Shvetsov
Konstantin Finnikov
author_sort Evgenii Ponomarev
title The Effect of Post-Fire Disturbances on a Seasonally Thawed Layer in the Permafrost Larch Forests of Central Siberia
title_short The Effect of Post-Fire Disturbances on a Seasonally Thawed Layer in the Permafrost Larch Forests of Central Siberia
title_full The Effect of Post-Fire Disturbances on a Seasonally Thawed Layer in the Permafrost Larch Forests of Central Siberia
title_fullStr The Effect of Post-Fire Disturbances on a Seasonally Thawed Layer in the Permafrost Larch Forests of Central Siberia
title_full_unstemmed The Effect of Post-Fire Disturbances on a Seasonally Thawed Layer in the Permafrost Larch Forests of Central Siberia
title_sort effect of post-fire disturbances on a seasonally thawed layer in the permafrost larch forests of central siberia
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2020-07-01
description We examined and simulated the consequences of the degradation of the litter and the moss–lichen layer after fire impact, which could affect the seasonal temperature of the soil and the depth of the seasonally thawed layer (STL) in the permafrost zone. According to the analysis of satellite imagery for 2000 to 2019, the fire-disturbed area in the region of interest amounted to 20%. The main aims of the study included quantitative evaluation of the variation range of summer temperature anomalies at fire-damaged plots, summarizing the statistical norm of the STL depending on natural conditions, and numerical simulation of the response of the STL. Using Terra and Aqua/MODIS imagery, we analyzed surface temperature (in bands of λ = 10.780–11.280 and 11.770–12.270 μm) coupled with the normalized difference vegetation index (NDVI) for non-disturbed and fire-damaged sites under the same natural conditions of larch forests in Central Siberia. Heat transfer, freezing and thawing processes were numerically simulated for two extreme cases of soil conditions: dry soil and water-saturated soil. The model was also applied to soil with non-homogeneous water content. As input parameters, we used data on the properties of cryogenic soils collected in larch forests (<i>Larix gmelinii</i>) in the flat-mountainous taiga region of the Evenkia (Central Siberia). For post-fire plots, surface temperature anomalies observed during summer months remained significant for more than 15–20 years after fire impact, while the NDVI values were restored to the statistical norm within 7–10 years of the fire. According to the results of numerical simulation, the thickness of the STL could show a 30–50% increase compared to the statistical norm. In the first approximation, we showed the annual soil temperature dynamics at various depths in disturbed and non-disturbed plots.
topic wildfires
disturbance
permafrost
thermal anomaly
seasonally thawed layer
soil
url https://www.mdpi.com/1999-4907/11/8/790
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