Difference between revisions of "PCBs and organochlorine pesticides in Antarctic algae"

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<u>'''Main results of the study'''</u>
 
<u>'''Main results of the study'''</u>
  
The PCB contamination of oceanic particulate matter in the Antarctic waters is similar to the contamination in the North Sea (600-1200 ng/g dry weight). One would expect Antarctic waters to be less contaminated than the heavily polluted North Sea. This is indeed so when the concentration of PCBs is expressed per volume of sea water: the concentration of PCBs is 7 times higher in the North Sea (8,8 µg/l) than in Antarctica (1,2 µg/l). This leads to the paradoxical consequence that although the Antarctic ecosystem is seven times less polluted, the Antarctic wild life can be as (or even more) contaminated than wild live in the North Sea. This was confirmed at zooplankton level: the Antarctic zooplankton is equally contaminated as the North Sea zooplankton. <P>  
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The PCB contamination of oceanic particulate matter in the Antarctic waters is similar to the contamination in the North Sea (600-1200 ng/g dry weight). One would expect Antarctic waters to be less contaminated than the heavily polluted North Sea. This is indeed so when the concentration of PCBs is expressed per volume of sea water: the concentration of PCBs is 7 times higher in the North Sea (8,8 µg/) than in Antarctica (1,2 µg/). This leads to the paradoxical consequence that although the Antarctic ecosystem is seven times less polluted, the Antarctic wild life can be as (or even more) contaminated than wild live in the North Sea. This was confirmed at zooplankton level: the Antarctic zooplankton is equally contaminated as the North Sea zooplankton. <P>  
 
The reason for this is that PCBs are insoluble and [[adsorption|adsorb]] to particles (organic matter). Due to the lower productivity in the Antarctic, less particles are available for the PCBs to adsorb on. The North Sea has a a high productivity, so the higher concentration of PCBs will be diluted over more particles. Therefore, the lower amount of particles in the Antarctic compensates for the lower PCB concentration. The zooplankton which feeds on this particulate matter will therefore accumulate a similar amount of PCBs.<P>
 
The reason for this is that PCBs are insoluble and [[adsorption|adsorb]] to particles (organic matter). Due to the lower productivity in the Antarctic, less particles are available for the PCBs to adsorb on. The North Sea has a a high productivity, so the higher concentration of PCBs will be diluted over more particles. Therefore, the lower amount of particles in the Antarctic compensates for the lower PCB concentration. The zooplankton which feeds on this particulate matter will therefore accumulate a similar amount of PCBs.<P>
 
Pesticides such as DDT were not detectable or only detected at low concentrations.<ref>[http://www.vliz.be/imis/imis.php?module=ref&refid=6888 Joiris, C.R.; Overloop, W. (1991). PCBs and organochlorine pesticides in phytoplankton and zooplankton in the Indian sector of the Southern ocean. Antarctic Science 3: 371-377]</ref>
 
Pesticides such as DDT were not detectable or only detected at low concentrations.<ref>[http://www.vliz.be/imis/imis.php?module=ref&refid=6888 Joiris, C.R.; Overloop, W. (1991). PCBs and organochlorine pesticides in phytoplankton and zooplankton in the Indian sector of the Southern ocean. Antarctic Science 3: 371-377]</ref>

Revision as of 13:24, 5 January 2015

Context of the study

Although a wide range of Antarctic organisms, like krill, fish, birds, dolphins and seals have been reported to be contaminated by DDTs and PCBs, no data is available on phytoplankton. Determining the contamination of the Antarctic biota will provide information that can help in controlling global pollution.

Content of the study

Antarctic particulate matter (which includes phytoplankton) and zooplankton were sampled and investigated for the presence of organochlorine compounds

Antarctic ice © NASA

Main results of the study

The PCB contamination of oceanic particulate matter in the Antarctic waters is similar to the contamination in the North Sea (600-1200 ng/g dry weight). One would expect Antarctic waters to be less contaminated than the heavily polluted North Sea. This is indeed so when the concentration of PCBs is expressed per volume of sea water: the concentration of PCBs is 7 times higher in the North Sea (8,8 µg/m³) than in Antarctica (1,2 µg/m³). This leads to the paradoxical consequence that although the Antarctic ecosystem is seven times less polluted, the Antarctic wild life can be as (or even more) contaminated than wild live in the North Sea. This was confirmed at zooplankton level: the Antarctic zooplankton is equally contaminated as the North Sea zooplankton.

The reason for this is that PCBs are insoluble and adsorb to particles (organic matter). Due to the lower productivity in the Antarctic, less particles are available for the PCBs to adsorb on. The North Sea has a a high productivity, so the higher concentration of PCBs will be diluted over more particles. Therefore, the lower amount of particles in the Antarctic compensates for the lower PCB concentration. The zooplankton which feeds on this particulate matter will therefore accumulate a similar amount of PCBs.

Pesticides such as DDT were not detectable or only detected at low concentrations.[1]

References

The main author of this article is Daphnis De Pooter
Please note that others may also have edited the contents of this article.

Citation: Daphnis De Pooter (2015): PCBs and organochlorine pesticides in Antarctic algae. Available from http://www.coastalwiki.org/wiki/PCBs_and_organochlorine_pesticides_in_Antarctic_algae [accessed on 22-11-2024]