Temporal trends, lake-to-lake variation, and climate effects on Arctic char (Salvelinus alpinus) mercury concentrations from six High Arctic lakes in Nunavut, Canada
DISSOLVED ORGANIC-CARBON
; FRESH-WATER FISH
; AQUATIC FOOD WEBS
; ATMOSPHERIC MERCURY
; CORNWALLIS-ISLAND
; MERETTA LAKE
; POLLUTION TRANSPORT
; LANDLOCKED CHAR
; PART I
; METHYLMERCURY
WOS学科分类:
Environmental Sciences
WOS研究方向:
Environmental Sciences & Ecology
英文摘要:
Climate warming and mercury (Hg) are concurrently influencing Arctic ecosystems, altering their functioning and threatening food security. Non-anadromous Arctic char (Salvelinus alpinus) in small lakes were used to biomonitor these two anthropogenic stressors, because this iconic Arctic species is a long-lived top predator in relatively simple food webs, and yet population characteristics vary greatly, reflecting differences between lake systems. Mercury concentrations in six landlocked Arctic char populations on Comwallis Island, Nunavut have been monitored as early as 1989, providing a novel dataset to examine differences in musde (Hg] among char populations, temporal trends, and the relationship between climate patterns and Arctic char [Hg]. We found significant lake-to-lake differences in length-adjusted Arctic char muscle (Hg], which varied by up to 9-fold Arctic char muscle [Hg] was significantly correlated to dissolved and particulate organic carbon concentrations in water: neither watershed area or vegetation cover explained differences. Three lakes exhibited significant temporal declines in length-adjusted (Hg] in Arctic char; the other three lakes had no significant trends. Though precipitation, temperature, wind speed, and sea ice duration were tested, no single climate variable was significantly correlated to length-adjusted [Hg] across populations. However, Arctic char Hg in Resolute Lake exhibited a significant correlation with sea ice duration, which is likely closely linked to lake ice duration, and which may impact Hg processing in lakes. Additionally, Arctic char [Hg] in Amituk Lake was significantly correlated to snow fall, which may be linked to Hg deposition. The lack of consistent temporal trends in neighboring char populations indicates that currently, within lake processes are the strongest drivers of [Hg] in char in the study lakes and potentially in other Arctic lakes, and that the influence of climate change will likely vary from lake to lake. Crown Copyright (C) 2019 Published by Elsevier B.V. All rights reserved.
1.Univ Windsor, Great Lakes Inst Environm Res, Windsor, ON N9B 3P4, Canada 2.Univ Quebec, INRS, Ctr Eau Terre Environm, Quebec City, PQ G1K 9A9, Canada 3.Environm & Climate Change Canada, Canada Ctr Inland Waters, Burlington, ON L7S 1A1, Canada 4.Alberta Environm & Pk, Environm Monitoring & Sci Div, Calgary, AB T2E 7L7, Canada 5.Inst Interdisciplinary Mt Res, A-6020 Innsbruck, Austria 6.Hamlet Resolute Bay, Resolute Bay, NU X0A 0V0, Canada 7.Univ Alaska Fairbanks, Water & Environm Res Ctr, Fairbanks, AK 99775 USA
Recommended Citation:
Hudelson, Karista E.,Muir, Derek C. G.,Drevnick, Paul E.,et al. Temporal trends, lake-to-lake variation, and climate effects on Arctic char (Salvelinus alpinus) mercury concentrations from six High Arctic lakes in Nunavut, Canada[J]. SCIENCE OF THE TOTAL ENVIRONMENT,2019-01-01,678:801-812