(Table 1) Age, fork length, and tissue d15N and element concentration of arctic char (Salvelinus alpinus) from Lake Hazen

Arctic char (Salvelinus alpinus L.), the top predator in High Arctic lakes, often is used as a bioindicator of Hg contamination in Arctic aquatic ecosystems. The present study investigated effects of trophic position, size, and age of Arctic char in Lake Hazen, the largest lake in the Canadian High...

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Bibliographic Details
Main Authors: Gantner, Nikolaus, Power, Michael, Babaluk, John A, Reist, James D, Köck, Günther, Lockhart, Lyle W, Solomon, Keith R, Muir, Derek C G
Format: Dataset
Language:English
Published: PANGAEA 2009
Subjects:
Atomic absorption spectrometry (AAS) of cold vapor
Biological sample
BIOS
Caesium
Continuous Flow Isotope Ratio Mass Spectrometry (CF/IRMS)
DATE/TIME
Ellesmere Island
Canadian Arctic Archipelago
Inductively coupled plasma - mass spectrometry (ICP-MS)
International Polar Year (2007-2008)
IPY
Lake_Hazen
Mercury
Morphotype
Otholith analysis
Potassium
Salvelinus alpinus
age
fork length
standard deviation
δ15N
tissue
Selenium
Thallium
Arctic
Lake Hazen
Arctic Archipelago
International Polar Year
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.810105
https://doi.org/10.1594/PANGAEA.810105
Description
Summary:Arctic char (Salvelinus alpinus L.), the top predator in High Arctic lakes, often is used as a bioindicator of Hg contamination in Arctic aquatic ecosystems. The present study investigated effects of trophic position, size, and age of Arctic char in Lake Hazen, the largest lake in the Canadian High Arctic (81°50'N, 70°25'W), on Hg bioaccumulation. In addition, several essential (Se, K) and nonessential elements (Tl, Cs) in char muscle tissue were examined to compare their behavior to that of Hg. Trophic position of Arctic char was identified by stable isotope (d15N) signature. Temporal trends of Hg from seven sampling campaigns over a 16-year period (1990-2006) were investigated for the overall data and for one trophic class. Concentrations of Hg were not correlated with age but were positively related to fork length and trophic position. Large char with greater d15N signatures (>12 per mil) had larger Hg concentrations (0.09-1.63 µg/g wet wt) than small char with smaller d15N signatures (<12 per mil, 0.03-0.32 µg/g wet wt), indicating that Hg concentrations increased with trophic position. Nonessential Cs and Tl showed relationships to age, length, and trophic position similar to those of Hg, indicating their potential to bioaccumulate and biomagnify. Essential Se and K did not show these relationships. Concentrations of Hg were adjusted using d15N, leading to less within-year variability and a more consistent temporal trend. The d15N-adjusted trend showed no decline of Hg in Arctic char from Lake Hazen (1990-2006) in the overall data set and in the small morphotype. Trends for the same period before the adjustment were not significant for the overall data set, but a slight decrease was apparent in the small morphotype. The results confirm the need to consider trophic position and fish size when monitoring temporal trends of Hg, particularly for species with different morphotypes.

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