A new report presented at COP25 by the International Union for Conservation of Nature (IUCN) contains a rather shocking insight – our oceans are rapidly losing Oxygen and an unprecedented rate.
Who are the IUCN?
Established in 1948 they are an international organization working in the field of nature conservation and sustainable use of natural resources. Their activities include data gathering and analysis, research, field projects, advocacy, and education. Roughly around 16,000 scientists and experts participate in the work of IUCN commissions on a voluntary basis.
Where is the new report?
You can download it via this IUCN page.
What exactly is this report telling us?
“With this report, the scale of damage climate change is wreaking upon the ocean comes into stark focus. As the warming ocean loses oxygen, the delicate balance of marine life is thrown into disarray,” said Dr Grethel Aguilar, IUCN Acting Director General. “The potentially dire effects on fisheries and vulnerable coastal communities mean that the decisions made at the ongoing UN Climate Change Conference are even more crucial. To curb ocean oxygen loss alongside the other disastrous impacts of climate change, world leaders must commit to immediate and substantial emission cuts.”
The review report, “Ocean deoxygenation: Everyone’s problem“, is the largest peer-reviewed study so far into the causes, impacts and possible solutions to ocean deoxygenation. Ocean regions with low oxygen concentrations are expanding, with around 700 sites worldwide now affected by low oxygen conditions – up from only 45 in the 1960s. In the same period, the volume of anoxic waters – areas completely depleted of oxygen – in the global ocean has quadrupled, according to the report.
“We are now seeing increasingly low levels of dissolved oxygen across large areas of the open ocean. This is perhaps the ultimate wake-up call from the uncontrolled experiment humanity is unleashing on the world’s ocean as carbon emissions continue to increase,” said Dan Laffoley, Senior Advisor Marine Science and Conservation in IUCN’s Global Marine and Polar Programme and a co-editor of the report. “Ocean oxygen depletion is menacing marine ecosystems already under stress from ocean warming and acidification. To stop the worrying expansion of oxygen-poor areas, we need to decisively curb greenhouse gas emissions as well as nutrient pollution from agriculture and other sources.“
Species groups such as tuna, marlin and sharks are particularly sensitive to low oxygen because of their large size and energy demands. These species are starting to be driven into increasingly shallow surface layers of oxygen-rich water, making them more vulnerable to overfishing. Very low ocean oxygen can also affect basic processes like the cycling of elements crucial for life on Earth, such as nitrogen and phosphorous, the report warns.
The ocean is expected to lose 3–4% of its oxygen inventory globally by the year 2100 under a business-as-usual scenario, but the global average masks local changes that are predicted to be, for example, more severe in mid to high latitudes. Most of the losses are predicted to be concentrated in the upper 1000m of the water column, which is richest in marine biodiversity.
“Whilst we have known about dead zones in the ocean for many decades, ocean warming is now expected to further amplify deoxygenation across great swathes of the ocean. We need to work together to get the ocean oxygen budget back in balance”, said Isabella Lövin, Minister for Environment and Energy and Deputy Prime Minister of Sweden, a major funder of the report. “With this report it is time to put ocean deoxygenation among our top priorities in order to restore ocean health.”
The major drivers of ocean oxygen loss are climate change and nutrient pollution, with the latter affecting coastal areas. As the ocean warms, its waters hold less oxygen and become more buoyant, resulting in reduced mixing of the oxygen-rich water near the surface with the ocean depths, which naturally contain less oxygen. Nutrient pollution causes oxygen loss in coastal waters as fertiliser, sewage, animal and aquaculture waste cause excessive growth of algae, which in turn deplete oxygen as they decompose.
“Urgent global action to overcome and reverse the effects of ocean deoxygenation is needed. Decisions taken at the ongoing climate conference will determine whether our ocean continues to sustain a rich variety of life, or whether habitable, oxygen-rich marine areas are increasingly, progressively and irrevocably lost. World leaders will also come together in June 2020 at the IUCN World Conservation Congress in Marseille to drive action towards restoring ocean health – one of the key themes of the next IUCN Congress,” said IUCN Global Marine and Polar Programme Director Minna Epps.
Why does Oxygen in our Oceans matter?
Breathing water is hard work as a given volume of water holds far less oxygen than the equivalent volume of air. This makes the physiological performance and behavioural repertoire of marine organisms heavily dependent on their ability and capacity to extract oxygen from the ambient sea water. Ocean deoxygenation generally affects marine organisms as soon as conditions depart from full aeration, with downstream consequences on their activities and capacity to face natural contingencies. The importance of maintaining adequate levels of oxygen in the ocean is perhaps best summarized by the motto of the American Lung Association: “if you can’t breathe nothing else matters”.
Wake Up call
Society needs to wake up – and fast – to the sheer enormity of detrimental changes we are now causing to the Earth’s regulatory systems, and the now near-monumental efforts that will be needed by governments and society o overcome and reverse such effects. This report is probably an underestimation of what is happening now. Science is incomplete and awareness of ocean deoxygenation is just happening, but what is already known is very concerning.
What Causes the Oxygen Loss in our Oceans?
The loss of oxygen in the ocean can broadly be put down to two overlying causes –
- eutrophication as a result of nutrient run-off from land and deposition of nitrogen from the burning of fossil fuels
- the heating of ocean waters as a result of climate change, primarily causing a change in ventilation with the overlying atmosphere so that they hold less soluble oxygen, and compounded by reduced ocean mixing and changes in currents and wind patterns.
Ocean deoxygenation is but the latest consequence of our activities on the ocean to be recognized. Ocean warming, ocean deoxygenation, and ocean acidification are major ‘stressors’ on marine systems and typically co-occur because they share a common cause.
And … ?
This report on ocean deoxygenation is perhaps the ultimate wake-up call needed to dramatically raise our ambitions to tackle and immediately curb our emissions of carbon dioxide and other powerful greenhouse gases such as methane. This is needed before human actions irreparably impact and change the conditions favourable for life on earth, and that drive and underpin the natural values we all hold close in our daily lives.
Oceans and Oxygen – Further Reading
- IUCN’s full report on Ocean Deoxygenation (medium resolution, 23Mb)
- Sanity warning – It is 564 pages long
- Wikipedia page: Effects of global warming on oceans