Changes in size distribution of lakes in the Nadym catchment, northern Russia

Ahlgren, Sara

January 2012

Because of climate change and resource development there is an ongoing increase in the attention directed towards high latitude areas. Over the last years, warming in the Arctic has accelerated quickly. The warming climate can possibly lead to thawing of ground ice, which in turn leads to alterations of the cryosphere. This can have a huge influence on the terrestrial hydrology of the Arctic and, more specifically, on the presence and distribution of lakes in arctic regions since both are coupled to subsurface ice. In this thesis data from remote sensing were used to look at the change in the size distribution of lakes for the Nadym catchment in northern Russia. The aim was to find out if there has been an increase or decrease in the number of lakes in the area over the past years. Results suggest that there were 229 lakes less (representing a 4% decrease) in 2007–2009 compared to 1987, indicating that lakes are slowly disappearing. Also, the total lake surface area decreased with 5%. Almost half of the lakes that disappeared (49%) can be found among the smallest lakes ranging between 10–20 ha. In the entire catchment this size class was also found to be the class with by far the highest number of lakes.

Climate change

cryosphere

high latitude areas

Nadym catchment

permafrost hydrology

Russia

thermokarst lakes

Sensitivity of permafrost terrain in a high Arctic polar desert : an evaluation of response to disturbance near Eureka, Ellesmere Island, Nunavut

Couture, Nicole J.

January 2000

A first approximation of ground ice volume for the area surrounding Eureka, Nunavut, indicates that it comprises 30.8% of the upper 5.9 m of permafrost. Volume depends on the type of ice examined, ranging from 1.8 to 69.0% in different regions of the study area. Excess ice makes up 17.7% of the total volume of frozen materials in the study area. Melt of ground ice in the past has produced thermokarst features which include ground subsidence of up to 3.2 m, formation of tundra ponds, degradation of ice wedges, thaw slumps greater than 50 m across, gullying, and numerous active layer detachment slides. With a doubling of atmospheric carbon dioxide, the rise in mean annual temperatures for the area is projected to be 4.9 to 6.6°C, which would lengthen the thaw season and increase thaw depths by up to 70 cm. The expected geomorphic changes to the landscape are discussed.

Thermokarst.

A geomorphic investigation of retrogressive thaw slumps and active layer slides on Herschel Island, Yukon Territory /

De krom, Valentina

January 1990

This thesis investigates the geomorphology of retrogressive thaw slumps and active layer slides on Herschel Island, northern Yukon Territory. In particular, it examines the formation and morphology of both landforms, and the ground ice characteristics of retrogressive thaw slumps. During 1988-1989 a number of retrogressive thaw slumps and active layer slides were surveyed and monitored. Field and laboratory investigations involved (1) documentation of landform distribution, setting and morphology, (2) examination of processes of landform formation, and (3) the examination of cryostratigraphy, ground ice characteristics and material properties. / Retrogressive thaw slumps developed in areas of low to moderate slopes underlain by a variety of sediments with ice contents up to 4500% (on a dry weight basis). Slump headwall retreat rates of up to 19.5 m/yr were recorded. By comparison, active layer slides developed on steeper slopes underlain mainly by marine silts and clays. The sediments exposed in the slide floors and headwalls displayed no visible ground ice, but moisture contents were between 15-35%. Retrogressive thaw slumps and active layer slides form by entirely different processes. However, they do occur in close association and are influenced by many of the same parameters.

Landforms -- Yukon -- Herschel Island.

Earthflows -- Yukon -- Herschel Island.

Thermokarst.

Periglacial and glacial landform mapping in the Las Veguitas catchment, Cordillera Frondal of the Andes (Argentina).

Makopoulou, Eirini

January 2018

The semi-arid and arid Andes of South America are characterized by large areas with glacial and periglacial environments. This study focusses on the distribution of glacial and periglacial landforms in the Las Veguitas catchment, Cordillera Frontal, Argentina. A detailed geomorphological map of the Las Veguitas catchment is presented, based on high-resolution elevation data (ALOSPALSAR), satellite imagery (Landsat 8, World View 2, Google Earth), and field studies. First, a general topographical analysis is performed for the entire Las Veguitas catchment, including elevation, slope and aspect characteristics. Second, the altitudinal range of glacial features (glaciers, debris covered glaciers and thermokarst ponds on glaciers) and the altitudinal range and predominant aspect of periglacial features (active, inactive and fossil rock glaciers) are analyzed. Currently, glaciers are restricted to ≥ 4300m, but moraines are identified to elevations of c. 3200m. Active rock glaciers extend down to c. 3450m and have a more southern aspect then both inactive and fossil rock glaciers. Third, a temporal analysis has been performed of glacier and rock glacier flow using a time series of remote sensing images. Glacier flow traced by the displacement of thermokarst lake features (2006-2016) had a mean velocity of 6.66m/yr. The mean velocity of rock glaciers (1963-2017) was much lower at 0.63m/yr. Finally, the thesis discusses limitations and uncertainties in study methods and suggestions for further research activities.

Geomorphological map

thermokarst lakes

glaciers

GIS

Argentinian Andes

spatial and temporal analysis

Other Natural Sciences

Annan naturvetenskap

Carbon Storage in Quaternary Deposits of the Circum-Arctic Permafrost Region

Udke, Annegret

January 2021

Rapid warming in northern latitudes will lead to permafrost thaw and subsequent carbon remobilisa­tion and release to the atmosphere. To incorporate the permafrost carbon climate feedback in globalEarth System Models, it is of importance to know the carbon stored in the circum­Arctic permafrostregion as accurate and precise as possible. Whereas soil, Yedoma and delta carbon stocks are alreadyquantified, deep carbon stocks for vast areas of the current permafrost region are still unaccountedfor. The aim of this Master thesis project is to estimate the deep carbon stock (>3m) for Quaternarydeposits outside the known reservoirs. Therefore, 363 boreholes and exposures were compiled fromthe scientific literature. 244 sites provide profile descriptions (depositional environment, depth andthickness) and another 119 sites contain data to calculate carbon densities (ground ice content, coarsefraction (>1cm and/or >2mm), bulk density and total organic carbon). Data gaps were filled usinglocal, regional and global average facies values from the compiled dataset. For spatial upscaling,key regions are defined using the permafrost zone, overburden thickness and ice content. The fielddata compiled here shows disagreements with the Circum­Arctic Map of Permafrost and Ground­Iceconditions (Brown et al. 2002), which should be updated especially in thin and ice­poor regions. Atotal C stock of 1698 ±255 PgC is estimated for 3­25m in Quaternary deposits of the circum­Arcitcpermafrost region, next to the Yedoma domain (327 ­ 466 PgC, Strauss et al. 2017) and deltas (41 ­151 PgC, Hugelius et al. 2014). About 70% of the carbon is stored within 3­10m (1200 ±238 PgC).Due to a publication bias towards thick and organic­rich sediments in the literature, C stocks calcualtedhere might be overestimated. Additional to the Yedoma domain, 309 ±99 PgC are stored in ice­richdeposits of the continuous permafrost zone, a regions especially prone to thermokarst and deep carbonremobilisation. Thermokarst, thermo­fluvial erosion along rivers and coasts as well as carbon releasethrough inland water systems presents possible release mechanisms for stored carbon. The permafrostcarbon estimate determined here doubles the known carbon reservoir in the permafrost region and em­phasises the importance for possible deep carbon release with future permafrost thawing.

Quaternary deposits

Carbon storage

Permafrost region

Organic Geochemistry

Sedimentology

Vulnerability

Thermokarst

Physical Geography

Naturgeografi

Sensitivity of permafrost terrain in a high Arctic polar desert : an evaluation of response to disturbance near Eureka, Ellesmere Island, Nunavut

Couture, Nicole J.

January 2000

No description available.

Thermokarst.

A geomorphic investigation of retrogressive thaw slumps and active layer slides on Herschel Island, Yukon Territory /

De krom, Valentina

January 1990

No description available.

Earthflows -- Yukon -- Herschel Island.

Landforms -- Yukon -- Herschel Island.

Thermokarst.

Carbon Cycling-Climate Change Feedback in Lakes in Arctic Alaska: Monitoring Methane Emissions

Akerstrom, Frida

January 2016

No description available.

Geology

Carbon Cycling

Climate Change

Thermokarst lakes

Alaska

Methane emissions

Permafrost

Modelling the Evolution of Ice-rich Permafrost Landscapes in Response to a Warming Climate

Nitzbon, Jan

18 December 2020

Permafrost ist ein Bestandteil der Kryosphäre der Erde, der für Ökosysteme und Infrastruktur in der Arktis von Bedeutung ist und auch eine Schlüsselrolle im globalen Kohlenstoffkreislauf einnimmt. Das Auftauen von Permafrost infolge einer Klimaerwärmung zu projizieren ist mit sehr großen Unsicherheiten behaftet, da großskalige Klimamodelle entscheidende Komplexitäten von Permafrostlandschaften nicht berücksichtigen. Insbesondere bleiben in diesen Modellen Auftauprozesse in eisreichem Permafrost unberücksichtigt, welche weitreichende Landschaftsveränderungen – sogenannter Thermokarst – hervorrufen. Im Rahmen dieser Dissertation habe ich ein numerisches Modell entwickelt, um Auftauprozesse in eisreichen Permafrostlandschaften zu untersuchen, und habe es angewendet, um verbesserte Projektionen darüber zu erhalten, wie viel Permafrost infolge einer Klimaerwärmung auftauen würde. Der Schwerpunkt meiner Forschung lag auf besonders kalten, eis- und kohlenstoffreichen Permafrostablagerungen in der nordostsibirischen Arktis. In drei Forschungsartikeln habe ich gezeigt, dass der neuartige Modellierungsansatz in From von lateral gekoppelten “Kacheln” verwendet werden kann, um die Entwicklung von eisreichen Permafrostlandschaften realistisch zu simulieren. Anhand numerischer Simulationen habe ich gezeigt, dass der kleinskalige laterale Transport von Wärme, Wasser, Schnee und Sediment die Dynamik von Permafrostlandschaften sowie die Menge des aufgetauten Permafrosts unter Klimaerwärmungsszenarien entscheidend beeinflusst. Weiterhin habe ich gezeigt, dass in Simulationen, die Thermokarstprozesse berücksichtigen, wesentlich mehr Kohlenstoff vom Auftauen des Permafrosts betroffen ist, als in solchen, in denen eisreiche Ablagerungen unberücksichtigt bleiben. Insgesamt stellt die in dieser Dissertation dargelegte Forschungsarbeit einen substantiellen Fortschritt bezüglich einer realistischeren Einschätzung der Dynamik eisreicher Permafrostlandschaften mittels numerischer Modelle dar. / Permafrost is a component of Earth's cryosphere which is of importance for ecosystems and infrastructure in the Arctic, and plays a key role in the global carbon cycle. Large-scale climate models reveal high uncertainties in projections of how much permafrost would thaw in response to climate warming scenarios, since they do not represent key complexities of permafrost environments. In particular, large-scale models do not take into account thaw processes in ice-rich permafrost which cause widespread landscape change referred to as thermokarst. For this thesis, I have developed a numerical model to investigate thaw processes in ice-rich permafrost landscapes, and I have used it to obtain improved projections of how much permafrost would thaw in response to climate warming. The focus of my research was on cold, ice- and carbon-rich permafrost deposits in the northeast Siberian Arctic, and on landscapes characterized by ice-wedge polygons. In three closely interrelated research articles, I have demonstrated that the novel modelling approach of laterally coupled ''tiles'' can be used to realistically simulate the evolution of ice-rich permafrost landscapes. The numerical simulations have revealed that small-scale lateral transport of heat, water, snow, and sediment crucially affect the dynamics of permafrost landscapes and how much permafrost would thaw under climate warming scenarios. My research revealed that substantially more permafrost carbon is affected by thaw in numerical simulations which take into account thermokarst processes, than in simulations which lack a representation of excess ice. These results suggest that conventional large-scale models used for future climate projections might considerably underestimate permafrost thaw and associated carbon-cycle feedbacks. Overall, the research presented in this thesis constitutes a major progress towards the realistic assessment of ice-rich permafrost landscape dynamics using numerical models.

Permafrost

Numerische Modellierung

Thermokarst

Klimawandel

Permafrost

Numerical Modelling

Thermokarst

Climate Change

551 Geologie, Hydrologie, Meteorologie

550 Geowissenschaften

500 Naturwissenschaften und Mathematik

RB 10372

RQ 58372

ZC 13176

ddc:551

ddc:550

ddc:500

The impact of permafrost degradation on the pelagic water chemistry and biota of small tundra lakes

Thompson, Megan Shera

27 August 2009

Up to 59 small tundra lakes were sampled in the uplands east of the Mackenzie Delta, NWT, Canada, in order to assess the impact of permafrost thaw on pelagic nutrient concentrations and biota. Permafrost thaw did not affect the concentrations of nitrogen, phosphorus or organic carbon in the water column of the study lakes. Instead, nitrogen and organic carbon concentrations were positively related to relative catchment size, and phosphorus concentrations were negatively related to maximum lake depth. Lakes affected by permafrost thaw did have lower water colour. In lakes not affected by thaw, where plankton production could have been light limited due to high water colour, the TP-chlorophyll a relationship was weaker than in lakes affected by thaw, where light limitation was probably weaker. A model selection analysis for chlorophyll a concentration indicated water colour as the best predictor variable in unaffected lakes, but nitrogen and phosphorus as the best predictors in thaw-affected lakes. This result, in particular, suggested a significant shift in the processes governing productivity in thaw-affected lakes. In a smaller subset of lakes, chlorophyll a concentrations were lower in lakes affected by actively degrading permafrost than in lakes affected by stabilized thaw scars or in unaffected lakes. In contrast, zooplankton abundance was lowest in lakes with stabilized thaw scars. Bacterioplankton abundance was not different across the gradient of permafrost thaw. The differences in phytoplankton and zooplankton abundance between active and stable thaw scar lakes did not display a gradient of response that mirrored the degree of permafrost thaw activity. Because sampling did not include higher trophic levels, including macroinvertebrates and fish, it was difficult to determine how these biomass patterns arose. However, detectable differences existed in the morphometry of the lakes that might have affected habitat conditions for several species. Deep, near-shore lake-bottom pits occurred in lakes affected by permafrost thaw, while unaffected lakes were generally deepest at their centre. The pits increased the effective depth of the thaw-affected lakes, and allowed for thermal stratification where it might not have otherwise occurred. Future research should explore the habitat-related impacts of permafrost thaw on adjacent and higher trophic levels in order to better understand the fundamental shifts in trophic structures that appear in lakes affected by permafrost thaw.

tundra lakes

premafrost degradation

organic carbon

phosphorus

thermokarst

water chemistry

phytoplankton

zooplankton

bathymetry