An Assessment of the Possibility of Restoration and Protection of Territories Disturbed by Thermokarst in Central Yakutia, Eastern Siberia
Abstract: Rapid permafrost degradation is observed in northern regions as a result of climate change and expanding economic development. Associated increases in active layer depth lead to thermokarst development, resulting in irregular surface topography. In Central Yakutia, significant areas of the land surface have been deteriorated by thermokarst; however, no mitigation or land rehabilitation efforts are undertaken. This paper presents the results of numerical modeling of the thermal response of permafrost to changes… Show more
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Cited by 5 publications
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Snow in the Yakut Habitat: Traditions and Modernity
На основе анализа разрозненных этнографических данных, а также полевых материалов автора рассматривается использование снега в хозяйственной деятельности и некоторых социокультурных практиках якутов в течение середины XIX–XXI вв. Методологической основой исследования послужили принципы, заложенные в криософии и антропологии холода, предполагающие позитивное восприятие холода и сопутствующих ему криогенных процессов и явлений, а также повышенное внимание к анализу роли криогенных ресурсов в жизни северных сообществ. Источниками разработки темы стали документы из фондов Государственного архива Иркутской области, Научного архива СО РАН, Санкт-Петербургского филиала Архива РАН, Рукописного фонда Архива ЯНЦ СО РАН2, сведения, почерпнутые в научной литературе, а также материалы, аккумулированные в ходе экспедиционных работ 2017–2023 гг. в Амгинском, Олекминском, Среднеколымском, Таттинском и Хангаласском административных районах Якутии. В результате проведенной работы установлено, что снег являлся источником получения питьевой и технической воды, служил средством утепления жилых и хозяйственных построек, а также чистки вещей. Снег нашел широкое применение в хозяйственных практиках представителей этноса: охотничьем деле, рыбном промысле, земледелии, ското- и коневодстве, а также при обеспечении транспортных связей. Выявлен ряд этнических особенностей использования снега. В частности, якуты не применяли его в строительных целях. Вместе с тем аласный тип расселения представителей этноса и их тяготение к озерам обусловили формирование ряда уникальных традиционных зимних практик, опирающихся на использование снега. Отмечено, что с течением времени, социально-экономическим, культурным и технологическим развитием снег как ресурс для обеспечения жизнедеятельности представителей якутского этноса в целом стал утрачивать свои позиции. Представлен вывод о том, что современный этап, наряду с сохранением ряда из отмеченных хозяйственно-бытовых приемов, характеризуется актуализацией значения снега в целом криогенных процессов и явлений в качестве ресурса, способствующего повышению туристической привлекательности Якутии. Based on the analysis of various ethnographic data and the author's field material, this article examines the use of snow for economic activities and a range of socio-cultural practices of the Yakuts in the mid-19th and 21st centuries. The principles of cryosophy and cryoanthropology, which suggest a positive perception of cold and the cryogenic processes and phenomena that accompany it, served as the methodological basis for the study, as did the increased attention given to the analysis of the role of cryogenic resources in the life of northern communities. We analyzed documents from the collections of the Irkutsk Region State Archives, the Scientific Archives of the Siberian Branch of the Russian Academy of Sciences, the St. Petersburg Branch of the Archives of the Russian Academy of Sciences, the Manuscript Fund of the Archives of the Yakut Scientific Center of the Siberian Branch of the Russian Academy of Sciences, information from scientific literature, and materials collected during the 2017–2023 expedition works in the Amginsky, Olekminsky, Srednekolymsky, Tattinsky, and Khangalassky administrative regions of Yakutia. As a result of the conducted work, it was found that snow is a source of drinking and industrial water, also it serves as a means of insulation of residential and commercial buildings, and cleaning things. Snow has found a wide application in the economic practices of the representatives of the ethnic group: Hunting, fishing, agriculture, livestock and horse breeding, and in making transportation connections. There are also a number of ethnic peculiarities in the use of snow. In particular, the Yakuts did not use snow to construct their houses. At the same time, the nature of settlement by the representatives of the ethnic group and their preference for lakes led to the emergence of a number of unique traditional winter practices based on the use of snow. It should be noted that over time, with socio-economic, cultural, and technological development, snow, as a resource for ensuring the life of the representatives of the Yakut ethnic group, began to lose its position. It is concluded that the current stage, in addition to the preservation of a number of well-known household methods, is characterized by the actualization of the importance of snow in general, cryogenic processes, and phenomena as a resource that forms the tourist potential of Yakutia.
Snow in the Yakut Habitat: Traditions and Modernity
На основе анализа разрозненных этнографических данных, а также полевых материалов автора рассматривается использование снега в хозяйственной деятельности и некоторых социокультурных практиках якутов в течение середины XIX–XXI вв. Методологической основой исследования послужили принципы, заложенные в криософии и антропологии холода, предполагающие позитивное восприятие холода и сопутствующих ему криогенных процессов и явлений, а также повышенное внимание к анализу роли криогенных ресурсов в жизни северных сообществ. Источниками разработки темы стали документы из фондов Государственного архива Иркутской области, Научного архива СО РАН, Санкт-Петербургского филиала Архива РАН, Рукописного фонда Архива ЯНЦ СО РАН2, сведения, почерпнутые в научной литературе, а также материалы, аккумулированные в ходе экспедиционных работ 2017–2023 гг. в Амгинском, Олекминском, Среднеколымском, Таттинском и Хангаласском административных районах Якутии. В результате проведенной работы установлено, что снег являлся источником получения питьевой и технической воды, служил средством утепления жилых и хозяйственных построек, а также чистки вещей. Снег нашел широкое применение в хозяйственных практиках представителей этноса: охотничьем деле, рыбном промысле, земледелии, ското- и коневодстве, а также при обеспечении транспортных связей. Выявлен ряд этнических особенностей использования снега. В частности, якуты не применяли его в строительных целях. Вместе с тем аласный тип расселения представителей этноса и их тяготение к озерам обусловили формирование ряда уникальных традиционных зимних практик, опирающихся на использование снега. Отмечено, что с течением времени, социально-экономическим, культурным и технологическим развитием снег как ресурс для обеспечения жизнедеятельности представителей якутского этноса в целом стал утрачивать свои позиции. Представлен вывод о том, что современный этап, наряду с сохранением ряда из отмеченных хозяйственно-бытовых приемов, характеризуется актуализацией значения снега в целом криогенных процессов и явлений в качестве ресурса, способствующего повышению туристической привлекательности Якутии. Based on the analysis of various ethnographic data and the author's field material, this article examines the use of snow for economic activities and a range of socio-cultural practices of the Yakuts in the mid-19th and 21st centuries. The principles of cryosophy and cryoanthropology, which suggest a positive perception of cold and the cryogenic processes and phenomena that accompany it, served as the methodological basis for the study, as did the increased attention given to the analysis of the role of cryogenic resources in the life of northern communities. We analyzed documents from the collections of the Irkutsk Region State Archives, the Scientific Archives of the Siberian Branch of the Russian Academy of Sciences, the St. Petersburg Branch of the Archives of the Russian Academy of Sciences, the Manuscript Fund of the Archives of the Yakut Scientific Center of the Siberian Branch of the Russian Academy of Sciences, information from scientific literature, and materials collected during the 2017–2023 expedition works in the Amginsky, Olekminsky, Srednekolymsky, Tattinsky, and Khangalassky administrative regions of Yakutia. As a result of the conducted work, it was found that snow is a source of drinking and industrial water, also it serves as a means of insulation of residential and commercial buildings, and cleaning things. Snow has found a wide application in the economic practices of the representatives of the ethnic group: Hunting, fishing, agriculture, livestock and horse breeding, and in making transportation connections. There are also a number of ethnic peculiarities in the use of snow. In particular, the Yakuts did not use snow to construct their houses. At the same time, the nature of settlement by the representatives of the ethnic group and their preference for lakes led to the emergence of a number of unique traditional winter practices based on the use of snow. It should be noted that over time, with socio-economic, cultural, and technological development, snow, as a resource for ensuring the life of the representatives of the Yakut ethnic group, began to lose its position. It is concluded that the current stage, in addition to the preservation of a number of well-known household methods, is characterized by the actualization of the importance of snow in general, cryogenic processes, and phenomena as a resource that forms the tourist potential of Yakutia.
Thermal conductivity of snow cover
Important parameters when using snow as a building material and designing the interaction of engineering structures for various purposes with snow are the density and coefficient of thermal conductivity of the snow cover. The purpose of the article was to evaluate the accuracy of calculating the thermal conductivity coefficient of a two-layer snow cover, depending on the degree of compaction of one of the layers. Two approaches to determining the thermal conductivity coefficient are considered: as a layered structure and as an equivalent homogeneous structure having a constant average density. Classical formulas for determining the coefficient of thermal conductivity from density (Abels formula) and density from the depth of snow cover (Abe formula) were used for calculations. As a result of the analysis and complex variant calculations presented in the form of graphs, the following conclusions are made. With a linear dependence of the thermal conductivity coefficient on the density of snow, the choice of one or another method for calculating the thermal conductivity coefficient of a two-layer snow cover does not matter: an error in calculations will always be zero. With a nonlinear dependence of the thermal conductivity coefficient on the density of snow, the error increases with an increase in the compaction coefficient of one of the layers. For example, with a compaction coefficient of 1.5, the relative calculation error does not exceed 4%. And with an increase in the compaction coefficient to 3.5, the error increases to 31%. That is, it increases almost 8 times. The analysis of the results allowed us to conclude that when compacting one of the layers by less than 2 times (compaction coefficient k<2), the use of the concept of “average density of snow cover” in thermal calculations to determine the thermal resistance of snow cover is quite acceptable. With an increase in the degree of compaction of one of the layers by more than two times, it is necessary to determine the thermal conductivity coefficient of each layer and calculate the total thermal snow cover as the sum of the thermal resistances of the individual layers.
Analysis of formulas for determination of snow cover density
When snow is used as a building material and to control the thermal regime of soils in the permafrost zone, it is important to be able to predict the snow density depending on the thickness (depth) of the snow cover. The paper compares the basic formulas used to calculate snow density depending on the depth of the snow cover and estimates the differences between the results obtained in a given interval (range) of calculation accuracy. The most popular formulas of Abe, Defant, Kotlyakov and other domestic and foreign scientists are included in the comparison. A comparative analysis of the results of theoretical calculations showed that the discrepancy between the results can be significant. At the same time, taking into account the large variability of the initial data determining the existing functions of snow density on its depth, the calculation results for almost all of the formulas considered fall within the range of acceptable accuracy of ± 25%. An assessment is also made of the possibility and expediency of replacing the defining power functions in the considered formulas with linear ones. It is shown that the linearization error, for example, for the classical Abe formula, does not exceed 5%. It is established that Kotlyakov’s linear formulas show the greatest degree of disagreement with other analyzed formulas. For example, the degree of disagreement between one of Kotlyakov’s formulas and Abe’s linear formula varies from 35 to 45%. The results of variant calculations using the formulas are presented in the form of graphs, which allows for a visual verification of the main quantitative patterns obtained as a result of the conducted research.
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