BONUS COCOA and HYPER projects contribute to a new article published in the journal Science: Oxygen in the world’s oceans is declining, scientists reveal dangers and solutions
the past 50 years, the amount of water in the open ocean without oxygen has
gone up more than four-fold. In coastal water bodies, including estuaries and
seas, low-oxygen sites have increased more than 10-fold since 1950. Protecting
sensitive species, controlling eutrophication and climate change and improving
monitoring are some solutions to the problem, according to researchers from,
among others, Lund University.
“Sufficient oxygen in bottom waters is
necessary for a well-functioning healthy ecosystem,” says Professor Daniel
Conley at Lund University working together with an international team of
scientists in the Global Ocean Oxygen Network (GO2NE).
- “The decline in oxygen can cause major changes in ocean productivity, biodiversity, and biogeochemical cycles as we have observed in the dead zones of the Baltic Sea.”
This oxygen loss – or deoxygenation – is one of the most important changes occurring in an ocean increasingly modified by human activities that have raised temperatures, increased CO2 levels and nutrient inputs, and have altered the abundances and distributions of marine species.
Analyses of measurements at sites around the world indicate that oxygen minimum zones in the open ocean have expanded by several million square kilometers and that hundreds of coastal sites now have oxygen concentrations low enough to limit the distribution and abundance of animals, and also alter the cycling of important nutrients.
- “Our BONUS funded HYPER and COCOA projects were instrumental in providing ideas and data for this review paper in Science” added Professor Conley.
Climate change is the key culprit in the open ocean. Scientists expect oxygen to continue dropping as the Earth warms. As the ocean gets warmer, the water holds less oxygen. Excess nutrient levels from land create algal blooms, which use up the oxygen as they die and decompose. In an unfortunate twist, animals also need more oxygen in warmer waters, even as oxygen is disappearing.
To address the problem with deoxygenation scientists recommend that the issue be addressed from three angles:
- Address the causes: nutrient pollution and climate change. To halt the decline in oxygen, the world needs to rein in both climate change and nutrient pollution. While neither issue is simple or easy, the steps needed to win can benefit people as well as the environment.
- Protect vulnerable marine life. With some low oxygen unavoidable, it is crucial to protect at-risk fisheries from further stress. This could mean creating marine protected areas or no-catch zones in areas animals use to escape low oxygen, or switching to fish that are not as threatened by falling oxygen levels.
- Improve low-oxygen tracking worldwide. Enhanced monitoring, especially in developing countries, together with numerical models will help pinpoint which places are most at risk and determine the most effective solutions.
To access the full paper by the GO2NE team with Professor Daniel Conley published in the scientific journal Science titled ‘Declining oxygen in the global ocean and coastal waters’, go to http://science.sciencemag.org/content/359/6371/eaam7240
For further information, contact Daniel Conley, Professor, Department of Geology, Lund University | Email: firstname.lastname@example.org | Mobile +46 70 749 43 41
Conley is a
Professor at the Department of Geology (Geologiska institutionen) at
University. His research focuses on the changes that occur in marine
because of human impact, nutrient inputs and climate. He is also the
vice-coordinator of the BONUS COCOA project www.bonusportal.org/cocoa