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Lagt út: 16.10.2017

Katrin Hoydal vart ph.d. á NTNU

Fríggjadagin 13. oktober vardi Katrin Hoydal ph.d.ritgerð sína við NTNU.

Ritgerðin er um dálking av grindahvali og kallast "Levels and endocrine disrupting effects of legacy POPs and their metabolites in long-finned pilot whales of the Faroe Islands".

Í stuttum kann sigast, at hóast kanningarnar vístu, at hvalur er lutfalsliga rættiliga dálkaður, og granskarar síggja onkur sambond millum dálkingarevnini og mátaðu parametrarnar í hvalinum, so bar ikki til at staðfesta umfatandi negativ árin á hormon og vitaminir, sum eru týdningarmikil, serliga fyri nøringina í hvali.

Katrin Hoydal hevur arbeitt á Umhvørvisstovuni við verkætlanini og hevur verið innskrivað til ph.d.-lestur á NTNU.

Bjørn Munro Jenssen, professari, hevur verið høvuðsvegleiðari, og Augustine Arukwe, Asunción Borell og Bjarne Styrishave, professarar, hava verið hjávegleiðarar.

Í metingarnevndini vóru

Krishna Das, seniorgranskari á University of Lìege, Belgia
Jan Ludvig Lyche, professari á NMBU, Noregi
Per Winge, lektari á NTNU, Noregi, sum er formaður

Sum siðvenja er i Noregi, so helt Katrin Hoydal ein royndarfyrilestur fyrrapartin tann 13. oktober við heitinum "Endocrine disruption in marine vertebrates".

Síðani var sjálv verjan seinnapartin. Verjan gekk væl og metingarnevndin helt, at úrslitini frá kanningunum í grindahvali vóru umfatandi og áhugaverd.

Verkætlanin er stuðlað úr Granskingargrunninum

Enskur samandráttur

Pilot whales (Globicephala melas) in the Northeastern part of the Atlantic Ocean have high body concentrations of persistent organic pollutants (POPs), such as polychlorinated biphenyls (PCBs), organochlorinated pesticides (OCPs) and polybrominated diphenyl ethers (PBDEs). These compounds and their biological biotransformation products, i.e. metabolites, have been linked to serious health effects in mammals, including effects on the reproductive system, due to disruption of their endocrine systems. The aim of this study was to analyse levels of POPs and their metabolites in pilot whales from Faroese waters and to investigate the possible effects of the POP exposure on steroid hormones, thyroid hormones, and vitamin A, E and D, which have been suggested as sensitive biomarkers for endocrine disruptive effects. In addition, the ability of the whales to biotransform the POPs was investigated. The possible effects of the POPs on the biomarkers were studied by analysing correlative relationships between the POP concentrations and the biomarkers, and furthermore, the POP concentrations were compared to toxic reference values (TRVs) which have been suggested for toxic effects in marine mammals.

The analyses confirmed that the pilot whales from the Faroe Islands had high concentrations of POPs in their tissues, exceeding some TRVs which have been suggested for toxic effects in marine mammals, but low concentrations of metabolites. In addition low activities of phase I and phase II enzymes were measured, indicating that the pilot whales have low ability to biotransform POPs, although they expressed enzymes of the CYP1A, 2B and 3A families. The biomarkers for endocrine disrupting effects did generally not show high correlative relationships with the POP concentrations, but differed with age and sex of the whales, indicating that that these are important confounding factors. Nevertheless, some correlations were found between single POPs and hormones and vitamins, suggesting that POPs may have some effect on the vitamin and hormone homeostasis in pilot whales.

From the study it could be concluded, that although the pilot whales from the Faroe Islands were exposed to relatively high concentrations of POPs, and the concentrations exceeded some of the toxic reference levels suggested for effects on marine mammals, the POPs did not seem to have clear overall negative effects on the analysed biomarkers. This indicates that the POPs in the Faroe Island population of pilot whales may be below threshold levels for negative effects on steroid and thyroid hormones and vitamin A levels. This could possibly be related to the apparent low biotransformation of POPs in pilot whales and thus their low concentrations of metabolites, such as OH-PCBs and OH-PBDE, which often have been linked to the endocrine disrupting effects of POPs.