Using Ice and Sediment Cores to Quantify Climate-warming Induced Inputs of Legacy Mercury to Lake Hazen, Nunavut

Mercury (Hg) is a globally dispersed contaminant that can bioaccumulate and biomagnify in food-webs. This research uses a unique combination of measurements in an ice core and a sediment core collected within the same watershed (Lake Hazen, Nunavut) to determine how the relative importance of Hg inp...

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Bibliographic Details
Main Author: Lemire, Danielle
Other Authors: Lehnherr, Igor, Geography
Format: Thesis
Language:unknown
Published: University of Toronto 2021
Subjects:
Ice
Online Access:http://hdl.handle.net/1807/109245
Description
Summary:Mercury (Hg) is a globally dispersed contaminant that can bioaccumulate and biomagnify in food-webs. This research uses a unique combination of measurements in an ice core and a sediment core collected within the same watershed (Lake Hazen, Nunavut) to determine how the relative importance of Hg inputs from atmospheric, glacier and terrestrial sources has changed over the last century. Hg accumulation in Lake Hazen sediment began increasing dramatically in the mid- 1990s, exhibiting a decoupling from atmospheric sources (as estimated from the ice core record), due to the increased importance of remobilized terrestrial Hg inputs to Lake Hazen. Increasing glacier melt and permafrost thaw slumping have increased the delivery of catchment Hg, via glacial rivers, into Lake Hazen. These results show that climate change is likely to slow the recovery of glacierized Arctic watersheds from Hg contamination, countering the anticipated benefit from recent international efforts to reduce anthropogenic Hg emissions. M.Sc.