Flood Frequency Variability During the Past 80 Years in the Slave River Delta, NWT, as Determined from Multi-Proxy Paleolimnological Analysis

Brock, Bronwyn E.; Martin, Margaret E.; Mongeon, Cherie L.; Sokal, Michael A.; Wesche, Sonia; Armitage, Derek; Wolfe, Brent B.; Hall, Roland I.; Edwards, Thomas W. D.

doi:10.4296/cwrj3503281

Cited by 17 publications

(32 citation statements)

References 47 publications

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“…In past studies of shallow lakes in northern landscapes, paleolimnological analyses have been used successfully to determine changes in the extent of open‐ice conditions, lake‐water chemistry, river flooding, and other hydrological processes (e.g. Douglas and Smol, 1999; Edwards et al , 2004; Wolfe et al , 2005; 2008a; 2008b; Sokal et al , 2010; Brock et al , 2010). However, paleolimnological techniques have not been widely used for thermokarst lakes, in part because these remote landscapes are difficult to access.…”

Section: Introductionmentioning

confidence: 99%

Tracking hydrological responses of a thermokarst lake in the Old Crow Flats (Yukon Territory, Canada) to recent climate variability using aerial photographs and paleolimnological methods

MacDonald

Turner

Balasubramaniam

et al. 2011

Hydrological Processes

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Abstract:Recent studies using remote sensing analysis of lake-rich thermokarst landscapes have documented evidence of declining lake surface area in response to recent warming. However, images alone cannot identify whether these declines are due to increasing frequency of lake drainage events associated with accelerated thermokarst activity or to increasing evaporation in response to longer ice-free season duration. Here, we explore the potential of combining aerial photograph time series with paleolimnological analyses to track changes in hydrological conditions of a thermokarst lake in the Old Crow Flats (OCF), Canada, and to identify their causes. Images show that the water level in lake OCF 48 declined markedly sometime between 1972 and 2001. In a sediment core from OCF 48, complacent stratigraphic profiles of several physical, geochemical, and biological parameters from ¾1874-1967 indicate hydro-limnological conditions were relatively stable. From ¾1967-1989, declines in organic matter content, organic carbon isotope values, and pigment concentrations are interpreted to reflect an increase in supply of minerogenic sediment, and subsequent decline in aquatic productivity, caused by increased thermo-erosion of shoreline soils. Lake expansion was likely caused by increased summer rainfall, as recorded by increased cellulose-inferred lake-water oxygen isotope compositions. Stratigraphic trends defining the lake expansion phase terminated at ¾1989, which likely marks the year when the lake drained. Above-average precipitation during the previous year probably raised the lake level and promoted further thermo-erosion of the shoreline soils that caused the lake to drain. These are meteorological conditions that have led to other recent lake-drainage events in the OCF. Thus, the decline in lake level, evident in the aerial photograph from 2001, is unlikely to have been caused by evaporation, but rather is a remnant of a drainage event that took place more than a decade earlier. After drainage, the lake began to refill, and most paleolimnological parameters approach levels that are similar to those during the stable phase. These findings indicate that combined use of aerial images and paleolimnological methods offers much promise for identifying the hydrological consequences of recent climatic variations on thermokarst lakes.

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Section: Introductionmentioning

confidence: 99%

Tracking hydrological responses of a thermokarst lake in the Old Crow Flats (Yukon Territory, Canada) to recent climate variability using aerial photographs and paleolimnological methods

MacDonald

Turner

Balasubramaniam

et al. 2011

Hydrological Processes

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“…Climate-driven impacts on the hydrological regime of the upper Mackenzie Basin affect water quantity, timing of flow, and water quality downstream (Brock et al, 2010). Local residents have observed changes such as: more variable river discharge, lower water levels, delayed and more variable ice freeze-up, thinner and more unstable ice, earlier and more variable ice break-up, and increased sediment in river and lake water.…”

Section: Regional Environmental Changementioning

confidence: 99%

“…In both cases, the initial research question examined how local people were experiencing and tracking environmental change, what the impacts were (with a key focus on local land-use), and what kind of adaptive response was in place. We also worked with natural science scholars and researchers to achieve a more holistic understanding of environmental change in both locations (Brock et al, 2010;Wolfe et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

Land-Based programs in the Northwest Territories: Building Indigenous food security and well-being from the ground up

Wesche

O'Hare-Gordon²,

Robidoux³

et al. 2016

CanFoodStudies

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Food security in Canada's North is complex, and there is no singular solution. We argue that land-based wild food programs are useful and effective in contributing to long-term food security, health, and well-being for Indigenous communities in the context of changing environmental conditions. Such bottom-up programs support cultural continuity and the persistence of skills and knowledge that, over time, increase local food security and food sovereignty. This paper (a) highlights the link between observed environmental changes and wild food procurement in two Indigenous communities in the Northwest Territories, (b) compares and discusses the impacts of two collaboratively developed, community-based programs to improve foodways transmission and capacity for wild food procurement, and (c) identifies lessons learned and productive ways forward for those leading similar efforts in other Indigenous communities.

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“…Development of an ice push event chronology using ice-scar chronologies on lakeshore trees and shrubs, as done for large northern lakes in Québec [Bégin, 2000;Lemay and Bégin, 2012], would greatly augment understanding of relationships among flow, ice push, and berm formation. [Brock et al, 2010], large seiche events [Gardner et al, 2006], and construction of the W.A.C. Bennett Dam in the headwaters.…”

Section: Transport Metricsmentioning

confidence: 99%

Driftcretions: The legacy impacts of driftwood on shoreline morphology

Kramer

Wohl

2015

Geophysical Research Letters

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This research demonstrates how vegetation interacts with physical processes to govern landscape development. We quantify and describe interactions among driftwood, sedimentation, and vegetation for Great Slave Lake, which is used as proxy for shoreline dynamics and landforms before deforestation and wood removal along major waterways. We introduce driftcretion to describe large, persistent concentrations of driftwood that interact with vegetation and sedimentation to influence shoreline evolution. We report the volume and distribution of driftwood along shorelines, the morphological impacts of driftwood delivery throughout the Holocene, and rates of driftwood accretion. Driftcretions facilitate the formation of complex, diverse morphologies that increase biological productivity and organic carbon capture and buffer against erosion. Driftcretions should be common on shorelines receiving a large wood supply and with processes which store wood permanently. We encourage others to work in these depositional zones to understand the physical and biological impacts of large wood export from river basins.

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Flood Frequency Variability During the Past 80 Years in the Slave River Delta, NWT, as Determined from Multi-Proxy Paleolimnological Analysis

Cited by 17 publications

References 47 publications

Tracking hydrological responses of a thermokarst lake in the Old Crow Flats (Yukon Territory, Canada) to recent climate variability using aerial photographs and paleolimnological methods

Tracking hydrological responses of a thermokarst lake in the Old Crow Flats (Yukon Territory, Canada) to recent climate variability using aerial photographs and paleolimnological methods

Land-Based programs in the Northwest Territories: Building Indigenous food security and well-being from the ground up

Driftcretions: The legacy impacts of driftwood on shoreline morphology

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