Penile density and globally used chemicals in Canadian and Greenland polar bears

Industrially produced chemicals have been a major environmental concern across our entire Globe since the onset of rapid industrial development around the early 1900. Many of the substances being used are known to be endocrine disrupting chemicals (EDCs) and are also known to be long-range dispersed...

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Bibliographic Details
Published in:Environmental research 2015-02, Vol.137, p.287-291
Main Authors: Sonne, Christian, Dyck, Markus, Rigét, Frank F., Beck Jensen, Jens-Erik, Hyldstrup, Lars, Letcher, Robert J., Gustavson, Kim, Gilbert, M. Thomas P., Dietz, Rune
Format: Article
Language:English
Subjects:
Absorptiometry, Photon
Animals
Bears
Bone Density - drug effects
Bone mineral density
Bones
Canada
Climate oscillations
Density
Endocrine disrupting chemicals North East Greenland
Endocrine Disruptors - toxicity
Environmental Exposure
Environmental Monitoring
Environmental Pollutants - toxicity
Greenland
Health
Male
Penis - drug effects
Penis - physiology
Polar bears
Polychlorinated biphenyls
Polychlorinated Biphenyls - toxicity
Reduction
Risk
Risk Assessment
Risk quotient
T-score
Ursidae - physiology
Ursus maritimus
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Summary:Industrially produced chemicals have been a major environmental concern across our entire Globe since the onset of rapid industrial development around the early 1900. Many of the substances being used are known to be endocrine disrupting chemicals (EDCs) and are also known to be long-range dispersed and to biomagnify to very high concentrations in the tissues of Arctic apex predators such as polar bears (Ursus maritimus). A major concern relating to EDCs is their effects on vital organ–tissues such as bone and it is possible that EDCs represent a more serious challenge to the species' survival than the more conventionally proposed prey reductions linked to climate change. We therefore analyzed penile bone mineral density (BMD) as a key phenotype for reproductive success in 279 polar bear samples born 1990–2000 representing eight polar bear subpopulations. Since EDC concentrations were not available from the same specimens, we compared BMD with published literature information on EDC concentrations. Latitudinal and longitudinal BMD and EDC gradients were clearly observed, with Western Hudson bears having the highest BMD and lowest EDCs, and North East Greenland polar bears carrying the lowest BMD and highest EDCs. A BMD vs. polychlorinated biphenyls (PCB) regression analysis showed that BMD decreased as a function of the eight subpopulations' PCB concentrations and this relationship was close to being significant (p=0.10, R2=0.39). Risk quotient (RQ) estimation demonstrated that PCBs could be in a range that may lead to disruption of normal reproduction and development. It is therefore likely that EDCs directly affect development and bone density in polar bears. Canadian bears had in general the best health and the North East Greenland subpopulation being at the highest risk of having negative health effects. While reductions in BMD is in general unhealthy, reductions in penile BMD could lead to increased risk of species extinction because of mating and subsequent fertilization failure as a result of weak penile bones and risk of fractures. Based on this, future studies should assess how polar bear subpopulations respond upon EDC exposure since information and understanding about their circumpolar reproductive health is vital for future conservation. •Bacula bone density was measured in eight polar bear subpopulations.•Canadian bears had the largest bacula and the highest density.•Bone density was negatively correlated with estimated PCB concentrations.•T-s
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2014.12.026