ABSTRACT: Effects of the White River ash event and climate change on aquaticecosystems in the southwest Yukon.

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Abstract

Freshwater lake environments are affected by disturbances on several scales that influence the composition of biological communities. A volcanic eruption is an abrupt and severe disturbance, and evidence of its impact is seen in lake sediments and soils as a layer of ash. These volcanic deposits affect aquatic ecosystems in lakes: large volumes of tephra can literally smother organismsliving at the sediment-water interface, though the thinner layers of ash deposited farther from the source may have more subtle impacts. A lesscatastrophic, more gradual disturbance affecting aquatic ecosystems is climate change. Variations in temperature and precipitation over time indirectly influence the aquatic environment and have the potential to alter species composition and abundance. The White River Ash event was the eruption of astratovolcano (Mount Churchill, Alaska) in the St. Elias Mountains 25 km west of the Yukon border. This massive explosion deposited an enormous volume of tephra over the southern Yukon 1147 years BP. An ash layer ranging from 1 mm to .5 m in thickness has been observed in lake sediments. Where this layer is thicker, the event must have been catastrophic for the aquatic ecosystem. Although we cannot directly measure the aquatic ecosystem that existed in the past, we can infer what it was like through the analysis of subfossil organisms and sediment parameters that have been preserved in lake sediments. This research will use ostracodes and chironomids, two widely used biological proxies, to reconstruct environmental change. Ostracodes are small, bivalved crustaceans with a shell that preserves well in lake sediments. Chironomids are the larval stage of non-biting midges, the head capsule of which is made of chitin and is also well preserved in lake sediments. Both of these organisms live at the sediment-water interface, consume organic detritus, and have parts that fossilize and can be identified to genus, or in many instances, to species. The ecological requirements of individual species are then used to infer the type of environment in which the ostracode and chironomid community once lived. Two sediment parameters that represent past aquatic production are organic content and biogenic silica content. Organic matter found in lake sediments, which is either transported to the lake from the surrounding basin or produced within the lake, is a good measure of total ecosystem production. In freshwater environments, biogenic silica comes primarily from diatoms (unicellular algae), and an increase in its concentration suggests greater primary production. From a paleolimnological perspective, these sediment parameters represent the base of the food web, whereas ostracodes and chironomids are consumers that rely on primary production as a food source. Therefore, evidence of both primary producers and consumers is available in lake sediments to provide information about the past aquatic ecosystem. My research, focused around understanding ecosystem response to two different stressors, has these goals: 1) to assess the impact that the White River ash had on aquatic ecosystems in the southwest Yukon; 2) to determine howaquatic ecosystems have responded to climate change over the past 2000 years in the southwest Yukon; and 3) more generally, to infer whether aquatic ecosystems in the southwest Yukon respond in a similar manner to differentenvironmental stressors, particularly the impact of the White River Ash event and climate change.

Bibliography of Canadian Geomorphology