TRANSPORT AND PARTITIONING OF ORGANOCHLORINE POLLUTANTS IN THE OPEN OCEANS
Remote open oceans were traditionally considered as sinks of persistent organic pollutants (POPs) such as industrial chemicals (PCBs) and organochlorine pesticides (OCPs). In the context of reduced primary emissions as well as global warming, previous polluted reservoirs such as soil, large water bo...
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DigitalCommons@URI
2012
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| Online Access: | https://digitalcommons.uri.edu/oa_diss/1334 https://doi.org/10.23860/diss-zhang-lin-2012 https://digitalcommons.uri.edu/context/oa_diss/article/2350/viewcontent/Diss_Zhang_Lin_2012.pdf |
| Summary: | Remote open oceans were traditionally considered as sinks of persistent organic pollutants (POPs) such as industrial chemicals (PCBs) and organochlorine pesticides (OCPs). In the context of reduced primary emissions as well as global warming, previous polluted reservoirs such as soil, large water bodies, and glaciers may act as secondary sources returning these POPs back to the atmosphere and ocean. It was also hypothesized that biogeochemical activities associated with phytoplankton in the water column would lead to the coupling of air-plankton systems to draw down the lipophilic POPs from the overlying atmosphere, similar to the biological pump taking up CO2 from the atmosphere during phytoplankton blooms and then depositing it to the deep ocean. It has been found that POPs accumulate to high levels in apex predators such as whales and polar bears. To fully understand how POPs biomagnify along the food web, it is important to quantify the transfer of POPs from environmental media (sediments and water) to the base of food webs. This dissertation research was conducted in three remote oceans to verify these hypotheses. 1) In the first study, air and water samples were collected simultaneously on RIV Revelle during a scientific cruise in the N. and S. Pacific for POPs analysis. Results suggest that the Pacific was acting as a secondary source returning PCBs back to the air. This was the first work documenting the open ocean as a secondary PCB source. In contrast, this study showed gas exchange hexachlorobenzene of (HCB) was at steady-state between the air and ocean with no net transfer of HCB. 2) In the second study, air, water, and zooplankton samples (copepod Calanus) were collected simultaneously during the North Atlantic Bloom (NAB) in 2008 in a relatively small area south of Iceland. The POPs measurement showed dissolved phase concentrations of lipophilic OCP remained constant with time as the bloom evolved. Also, the OCPs were not being drawn from air to water during the main bloom as previous studies have ... |
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