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Alpine proglacial stream temperature dynamics

This study was motivated by an interest in understanding the effects of glacier retreat on late
summer stream temperatures in an above-treeline proglacial stream and lake system in the
southern Coast Mountains of British Columbia, Canada. Fieldwork was carried out during
August and September of 2007 and focused on thermal processes controlling water temperature
in the proglacial lake and a 1 km alpine reach directly downstream of the lake outlet. The
proglacial lake was small (0.07 km²), featured a single inflow and outflow channel and had a
residence time of approximately 4 days. The alpine reach featured continual cascading flow
(25% channel gradient), marked diurnal fluctuations in discharge and variable terrain shading.
It was found that warming between the inflow and outflow of the lake (1.8°C, on average)
was controlled by the total heat content of the lake and cycles of mixing and stratification.
A heat budget analysis indicated that the heat content of the lake was dominantly controlled
by absorbed shortwave radiation and the advective effect of the inflow and outflow streams.
Application of a dynamic reservoir model (DYRESM) to model observed lake temperatures
(inflow, outflow and a temperature-depth profile), and comparison to other studies, suggested
that suspended sediment concentration in the inflow had a dominant control on lake mixing
and stratification.
Based on equations developed from low-gradient channels, a stream energy budget model
failed to replicate observed downstream warming rates. A spatially distributed net radiation
model, along with statistical modification of the energy budget, provided insight into the processes that control stream temperatures in alpine areas. The final hybrid model showed a good match with observed downstream warming. This model accounted for the variation of width
and albedo with discharge, and the spatial variability in net radiation due to topographic shading and the slope and aspect of the channel. The model also included parameters that increased
the sensible and latent heat fluxes relative to values calculated from standard equations, which
is consistent with the hypothesis that these fluxes are enhanced by cascading flow.

Identiferoai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:BVAU./5039
Date11 1900
CreatorsRichards, John
PublisherUniversity of British Columbia
Source SetsLibrary and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada
LanguageEnglish
Detected LanguageEnglish
TypeElectronic Thesis or Dissertation
Format2255237 bytes, application/pdf

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