Environmental change and trophic ecology explain different THg bioaccumulation in two subpopulations of the Arctic ringed seal Pusa hispida

peer reviewed Mercury (Hg) is categorised as one of the top ten chemicals of human health concern by the World Health Organization; therefore, the “Minamata Convention” was ratified in 2017 to regulate Hg emission. Arctic predators such as marine mammals show a more than tenfold increase in Total Hg...

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Bibliographic Details
Main Authors: Kahawe Palliya Guruge, Kshanika Piyumi Guruge, Eulaers Igor, Dietz Rune, Rigét Farsø Frank, Das, Krishna, Pinzone, Marianna
Format: Conference Object
Language:English
Published: 2022
Subjects:
Online Access:https://orbi.uliege.be/handle/2268/297509
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Summary:peer reviewed Mercury (Hg) is categorised as one of the top ten chemicals of human health concern by the World Health Organization; therefore, the “Minamata Convention” was ratified in 2017 to regulate Hg emission. Arctic predators such as marine mammals show a more than tenfold increase in Total Hg (THg) concentration over the past 150 years (Dietz et al., 2009). Indeed, the Arctic is considered a global sink for Hg and, moreover, the Arctic Hg concentration is rising due to global warming (AMAP, 2021). THg accumulation trends in Arctic predators are spatially and temporally variable due to a myriad of ecological and environmental factors. Identifying the role of these drivers is crucial to implement proper Hg management mitigation plans, especially in the Arctic receiving multiple pressures. The objective of the present study was to assess the importance of certain climatic and ecological factors as drivers of spatiotemporal THg variability in an endemic Arctic marine mammal species: the ringed seal Pusa hispida. We measured THg levels in muscle of two subpopulations, in North-west (NWG) and East Greenland (EG), collected from the mid-1980s up to 2016. We investigated the potential influence of physical factors (i.e., sea ice extent, North Atlantic Oscillation, sampling year) and trophic ecological proxies (i.e., δ 13C, δ15N and δ34S) on muscle THg concentrations. We measured THg concentrations using Absorbance Spectrometry (DMA 80 Milestone) while δ13C, δ15N and δ34S values were obtained using isotope ration mass spectrometry (Isoprime). We used Multivariate Linear Mixed Models (MLMM) to correlate temporal THg trends with trophic and environmental factors. Hg levels of ringed seal muscle in both subpopulations did not show a significant linear temporal trend (linear regression, p in EG =0.14 and p in NWG=0.25). THg in EG ringed seal muscle were lowest in the mid-80s (994 ng g-1 dw) and increased until 2012 (1185 ng g-1 dw), reaching a plateau thereafter. THg in NWG ringed seal muscle increased from the ...