Difference between revisions of "Pollution and marine mammals"
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− | Like [[Toxic substances in sea birds|sea birds]], marine mammals are in all marine ecosystems at the top (or very near the top) of the food chain. As such, they are particulary sensitive towards [[bioaccumulation|bioaccumulating]] substances. Most studied are [[organochlorine pesticides]] (like [[DDT|DDTs]]), polychlorinated biphenyls ([[PCB|PCBs]]) and [[ | + | Like [[Toxic substances in sea birds|sea birds]], marine mammals are in all marine ecosystems at the top (or very near the top) of the food chain. As such, they are particulary sensitive towards [[bioaccumulation|bioaccumulating]] substances. Most studied are [[organochlorine pesticides]] (like [[DDT|DDTs]]), polychlorinated biphenyls ([[PCB|PCBs]]) and [[methylmercury]]. Although marine mammals can accumulate large quantities of [[methylmercury]], they rarely display any harmful effects of the contaminant. The reason for this is that marine mammals can transform methylmercuy into less harmful inorganic mercury, which can also efficiently be detoxified by selenium. |
The use of DDTs (since the 1970's) and PCBs (since 1991) has been banned in Europe. However because of their stability they are still present in marine ecosystems, even in very remote areas like Antarctica. Of course concentrations in Antarctica will be lower than those in the coastal areas where the discharges occurred.<ref> Kennish, M. J. (1996): Practical Handbook of Estuarine and Marine Pollution, CRC Press 524 pp</ref> | The use of DDTs (since the 1970's) and PCBs (since 1991) has been banned in Europe. However because of their stability they are still present in marine ecosystems, even in very remote areas like Antarctica. Of course concentrations in Antarctica will be lower than those in the coastal areas where the discharges occurred.<ref> Kennish, M. J. (1996): Practical Handbook of Estuarine and Marine Pollution, CRC Press 524 pp</ref> |
Revision as of 16:38, 8 July 2009
Main substances in marine mammals
Like sea birds, marine mammals are in all marine ecosystems at the top (or very near the top) of the food chain. As such, they are particulary sensitive towards bioaccumulating substances. Most studied are organochlorine pesticides (like DDTs), polychlorinated biphenyls (PCBs) and methylmercury. Although marine mammals can accumulate large quantities of methylmercury, they rarely display any harmful effects of the contaminant. The reason for this is that marine mammals can transform methylmercuy into less harmful inorganic mercury, which can also efficiently be detoxified by selenium.
The use of DDTs (since the 1970's) and PCBs (since 1991) has been banned in Europe. However because of their stability they are still present in marine ecosystems, even in very remote areas like Antarctica. Of course concentrations in Antarctica will be lower than those in the coastal areas where the discharges occurred.[1]
Toxine related problems in marine mammals
In the past decades contaminant related mass deaths have occurred in marine mammals. In Northern Europe, more then 20.000 seals have died due to seal plague in 1988. It is believed that the seal plague virus caused this damage because the resistance of the seals was lowered due to toxins: a process called immunodeficiency. Later this virus caused mass mortalities of striped dolphins in the 1990-1992 period: More than 1000 dolphins died in the Mediterranean. Again it's believed that casualties were increased due to immunodeficiency caused by contaminants like PCBs. [2]
Below you can find some links to Belgian case studies on ecotoxicology in marine mammals.
Case studies
Case study 1: Toxin analysis in beached sperm whales
Case study 2: Organochlorine pesticides in harbour porpoises