Tracing variability of run‐off generation in mountainous permafrost of semi‐arid north‐eastern Mongolia

Lange, Jens; Kopp, Benedikt; Bents, Matthias; Menzel, Lucas

doi:10.1002/hyp.10218

Cited by 18 publications

(11 citation statements)

References 35 publications

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“…• the loss of shading and thick, insulating organic layers contribute to permafrost melt (Lange et al 2015), which in turn modifies infiltration pattern (for which permafrost acts as a natural barrier);…”

Section: Lessons Learned Preservation Of the Mountain Taiga Is A Prermentioning

confidence: 99%

Forest Management In Mongolia – A Review Of Challenges And Lessons Learned With Special Reference To Degradation And Deforestation

Gradel

Sukhbaatar

Karthe³

et al. 2019

GES

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The natural conditions, climate change and socio-economic challenges related to the transformation from a socialistic society towards a market-driven system make the implementation of sustainable land management practices in Mongolia especially complicated. Forests play an important role in land management. In addition to providing resources and ecosystem functions, Mongolian forests protect against land degradation.GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY 03 (12) 2019

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Section: Lessons Learned Preservation Of the Mountain Taiga Is A Prermentioning

confidence: 99%

Forest Management In Mongolia – A Review Of Challenges And Lessons Learned With Special Reference To Degradation And Deforestation

Gradel

Sukhbaatar

Karthe³

et al. 2019

GES

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show abstract

“…This is probably due to the loss of the organic layer modifying the moisture regimes, as well as the soil heterogeneity. Previous studies, which were conducted in summer 2012 on the same slope, found higher SWC and quick flow in the upper soil of SBF after intensive rainfall events, whereas lateral subsurface flow which recharges the Sugnugur river during dry season is common with relatively lower SWC in the upper soil of UBF [18,30]. The year-round mean liquid SWC, including unfrozen water, increases with depth at UBF site ( Figure S3, Supplementary Materials).…”

Section: Impact Of Wildfire On Active Layer Dynamicsmentioning

confidence: 71%

The Combination of Wildfire and Changing Climate Triggers Permafrost Degradation in the Khentii Mountains, Northern Mongolia

et al. 2020

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High topographic heterogeneity and complex mechanisms between the atmosphere and the ground create unique hydro-climatic processes over mountainous regions. Based on in situ observations, we present the spatial variability of ground surface temperature (GST) in the Khentii Mountains of northern Mongolia, which is situated at the southern fringe of the Eurasian permafrost zone. Changes in the hydrothermal regime of the active layer were investigated in association with changing climate and wildfire effects. The results reveal that the GST tends to increase continuously since 2011 in both thawing and freezing seasons, and varies significantly within a short horizontal distance, particularly during the thawing season. Extreme weather events, such as drought and heavy snowfall, amplify the increase in the ground temperature and deepen the seasonal thawing depth. The fire-induced loss in organic layer resulted in a greater heat penetration deeper into the ground and unbalanced the moisture distribution. Overall, the thawing depth is greater by >1.7 m under severely burned forest, compared to unburned forest. Given that about 30% of the boreal forest was affected by wildfire in the study area, the ground thermal regime changed considerably. The findings suggest that the combination of regional temperature rise and more frequent extreme weather and wildfire events in the region triggers permafrost degradation and alters the hydrothermal regime in the future.

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“…Precipitation patterns have changed, and these changes, in combination with drying trends of water bodies due to increasing temperatures and have resulted in loss of water bodies, including drying lakes and retreating glaciers (Unger-Sayesteh et al 2013;Kang et al 2015). Moreover, climate change and land reclamation for agriculture andin some regions-mining are important drivers of the degradation of both forests and riparian zones Kopp et al 2016;Lange et al 2015).…”

Section: Water Quality and Aquatic/riparian Ecologymentioning

confidence: 99%

Water in Central Asia: an integrated assessment for science-based management

et al. 2017

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Central Asia contains one of the largest internal drainage basins in the world, and its continental location results in limited availability of both surface and groundwater. Since the twentieth century, water resources of the region have been exploited beyond sustainable levels. From small Mongolian headwater streams to the mighty Aral Sea, surface waters have been partially desiccated. Demands from the agricultural, energy and raw material sectors as well as population growth have not only increased water abstractions, but also left a diverse and strong pollution footprint on rivers, lakes and groundwater bodies. Such changes in water quantity and quality have not only led to a degradation of aquatic and riparian ecosystems, but also they have placed the region's socioeconomic development at risk. Because of the complexity of Central Asia's water problems, integrated assessment and management approaches are required. Despite some shortcomings in practical implementation, the widespread adoption of the Integrated Water Resources Management and water-food-energy nexus approaches may be keys to a more sustainable future. This thematic issue aims to provide documentation of the current state of scientific knowledge, ranging from hydrological research to water quality investigations, and offers an assessment of ecosystems and the services provided by them. Reviews and case studies on different management options conclude the thematic issue by providing insights into field-tested solutions for the region's water challenges.

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Tracing variability of run‐off generation in mountainous permafrost of semi‐arid north‐eastern Mongolia

Cited by 18 publications

References 35 publications

Forest Management In Mongolia – A Review Of Challenges And Lessons Learned With Special Reference To Degradation And Deforestation

Forest Management In Mongolia – A Review Of Challenges And Lessons Learned With Special Reference To Degradation And Deforestation

The Combination of Wildfire and Changing Climate Triggers Permafrost Degradation in the Khentii Mountains, Northern Mongolia

Water in Central Asia: an integrated assessment for science-based management

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