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Pollution resulting from burning fossil fuels reaches the open ocean via the atmosphere

High volume collectors. Credit: Joan Costa/CSIC

Polycyclic aromatic hydrocarbons are pollutants which come from burning fossil fuels, fires, oil spillages, and other anthropogenic and natural sources. They are transported from continental land masses to the open ocean via the atmosphere. Scientists from the Malaspina expedition, led by the Spanish National Research Institute, have highlighted the importance of knowing about the dynamics of these contaminants in order to understand their effects on both oceanic ecosystems and the global carbon cycle.

Scientists point out that, of all the carbon deposited in the oceans globally, aromatic compounds[1] account for 15% of those which enter as CO2 deposits, which is considered "a higher than expected amount" The study, published in Nature Geoscience, reports that every month, around 90,000 tonnes of Polycyclic aromatic hydrocarbons contaminants enter the Atlantic, Pacific, and Indian Oceans from the atmosphere. That is four times greater than the spillage caused in 2010 by the sinking of the Deepwater Horizon oil platform in the Gulf of Mexico- considered to be the worst oil spillage in history.

"Polycyclic aromatic hydrocarbons, as well as other aromatic compounds are ubiquitous pollutants abundant in the environment. Furthermore, they are a component of organic carbon which to date has not been studied in depth in terms of atmosphere-ocean flows", explains Jordi Dachs, researcher at CSIC's Institute of Environmental and Water Studies in Barcelona.

Air and Water Samples

The results of this work are based on samples of air (gasses and aerosols), taken with high volume collectors, as well as samples of both rain, and from the ocean surface, collected during the circumnavigation project by the vessel Hespérides. Once the organic compounds were isolated, they were measured, quantified, and, depending on the concentrations logged, a calculation made of both atmosphere-to-ocean flows (using atmospheric models), and the exchange between the atmosphere and water.

Researchers working at the oceanographic ship 'Hespérides.' Credit: Joan Costa/CSIC

Although the specific implications of the concentrations of polycyclic aromatic hydrocarbons which were measured are as yet uncertain, researchers point out that in the long term they could affect ocean life given their toxicity, and because they cause alterations in the formation of aerosols in the marine atmosphere, affecting cloud formation cycles amongst other things.

Belén González-Gaya, researcher at the Institute of Environmental Diagnostics and Water Studies, and the Institute of Organic Chemestry in Madrid, points out that, "We had very little information about the magnitude of pollution[2] from polycyclic aromatic hydrocarbons[3] in the open ocean[4]. It was necessary to carry out a study on a global scale to know the relevance of these flows on a world-wide scale".

The next step planned by scientists in their investigation is to build a more detailed characterisation of the flow of these pollutants in the oceans, and of their impact on specific living beings.

Oceanographic ship 'Hespérides.' Credit: Joan Costa/CSIC

Explore further: Pollution plumes in Paris air are richer in gaseous aromatic compounds than in Los Angeles[5]

More information: High atmosphere–ocean exchange of semivolatile aromatic hydrocarbons, Nature Geoscience, DOI: 10.1038/NGEO2714 [6]

Journal reference: Nature Geoscience[7]

Provided by: Spanish National Research Council

feedback to editors [8]

References

  1. ^ aromatic compounds (phys.org)
  2. ^ pollution (phys.org)
  3. ^ polycyclic aromatic hydrocarbons (phys.org)
  4. ^ open ocean (phys.org)
  5. ^ Pollution plumes in Paris air are richer in gaseous aromatic compounds than in Los Angeles (phys.org)
  6. ^ DOI: 10.1038/NGEO2714 (dx.doi.org)
  7. ^ Nature Geoscience (phys.org)
  8. ^ feedback to editors (phys.org)