High-Latitude Responses of Diatom and Chironomid Assemblages to Regional Climate Changes and Other Environmental Stressors

Thesis (Ph.D, Biology) -- Queen's University, 2015-07-02 14:26:00.714 High-latitude freshwater ecosystems are amongst the most vulnerable to climate change impacts. However, the response to warming is rarely straightforward and may be modulated by local or regional factors, producing variabilit...

Full description

Bibliographic Details
Main Author: Griffiths, Katherine
Other Authors: Biology, Smol, John P.
Format: Thesis
Language:English
Published: 2015
Subjects:
Yukon
Alaska
Paleolimnology
Nutrients
Ice Cover
Diatoms
Ice Fields
Kukulek
Chironomids
Climate Change
Variability
Arctic
Climate change
Online Access:http://hdl.handle.net/1974/13386
Description
Summary:Thesis (Ph.D, Biology) -- Queen's University, 2015-07-02 14:26:00.714 High-latitude freshwater ecosystems are amongst the most vulnerable to climate change impacts. However, the response to warming is rarely straightforward and may be modulated by local or regional factors, producing variability in biotic responses. This thesis examines three important drivers of local to regional-scale variability in the climate response of diatoms and chironomids, specifically: 1) the modulation of regional climate by the Wrangell-St. Elias ice fields over the Holocene in the Yukon; 2) the role of ice cover as the dominant driver of diatom assemblages in the High Arctic; and 3) the interaction between climate and nutrient dynamics at the archeological site Kukulek, Alaska. In the Yukon, paleolimnological records from three lakes at varying distances from the Wrangell-St. Elias ice fields were used to investigate the possible influence of large cryospheric features over the Holocene. The lake proximate to the ice fields showed a response to the Holocene Thermal Maximum, a warm period of similar magnitude to expected warming, suggesting that the moderating effect of the ice fields evident in recent records (spanning ~150 years) might deteriorate as the ice fields ablate. In the High Arctic, using a comparative study design we explicitly contrasted the diatom response to warming in four groups of sites characterized by different ice cover regimes. The diatoms shifted in a predictable manner from a low diversity, epipelic and epilithic assemblage, to a more diverse, largely epiphytic, assemblage likely in response to warming-associated changes in ice cover. At the Kukulek archeological site, marine-derived nutrients from historical hunting activities were traced by stable isotopes entering the adjacent pond, potentially tracing two periods of disturbance in the sediment record: the 1878-1880 AD famine and the archeological excavation in the 1930s. Warming temperatures, coincident with the late 19th century disturbance, may have ...

Similar Items