Global mean sea level reached a new record high in 2021, after increasing at an average 4.5 mm per year over the period 2013 -2021. This is more than double the rate of between 1993 and 2002 and is mainly due to the accelerated loss of ice mass from the ice sheets.
Climate change is inflicting a devastating toll on the world’s ocean, which are increasingly “hot, sour and breathless.” Record ocean heat, acidification and de-oxygenation have major implications for marine life, ecosystems, food security and socio-economic development, the 2022 UN Ocean Conference heard today.
“There is no way to deal with the climate problem without the ocean, and no way to deal with the ocean problem without the climate,” said US Special Presidential Envoy for Climate, John Kerry.
Speaking at an interactive dialogue on ocean acidification, deoxygenation and ocean warming, John Kerry said that the rate of change was “alarming even the most neutral scientists.”
“These consequences will affect every single human being on the planet,” he said.
Jamaican minister Matthew Samuda said small island developing states faced an existential threat.
The theme of the conference in Lisbon is “Scaling up ocean action based on science and innovation for the implementation of Goal 14: stocktaking, partnerships and solutions.” This is in line with the UN Decade of Ocean Science for Sustainable Development, stresses the critical need for scientific knowledge and marine technology to build ocean resilience.
The ocean absorbs more than 90 per cent of excess heat trapped by greenhouse gases; absorbs 23 per cent of carbon dioxide emissions; and is the source of more than half of the oxygen we breathe.
Lowest ocean pH in 26,000 years
According to the World Meteorological Organization’s State of the Global Climate in 2021 report, sea level rise, ocean heat, ocean acidification and greenhouse gas concentrations set new records in 2021.
Ocean warming rates show a particularly strong increase in the past two decades. The upper 2000m of the ocean continued to warm in 2021 and it is expected that it will continue to warm in the future – a change which is irreversible on centennial to millennial time scales. The warmth is penetrating to ever deeper levels. Much of the ocean experienced at least one ‘strong’ marine heatwave at some point in 2021, which affects marine life, and ecosystems, WMO Director of Services Dr Johan Stander told the panel session.
Global mean sea level reached a new record high in 2021, after increasing at an average 4.5 mm per year over the period 2013 -2021. This is more than double the rate of between 1993 and 2002 and is mainly due to the accelerated loss of ice mass from the ice sheets. This has major implications for hundreds of millions of coastal dwellers and increases vulnerability to tropical cyclones, he said.
Ocean acidification, which threatens organisms and ecosystem services, and hence food security, tourism and coastal protection. As the pH of the ocean decreases, its capacity to absorb CO2 from the atmosphere also declines.
The Intergovernmental Panel on Climate Change recent report concluded that “there is very high confidence that open ocean surface pH is now the lowest it has been for at least 26,000 years and current rates of pH change are unprecedented since at least that time.”
Dr Stander stressed the urgent need for enhancing and sustaining ocean observations. There are significant global coverage gaps in the observing network, with many under-sampled areas.
“We need more data. WMO is working hardly on improving the availability and accessibility of data that are needed to improve our understanding of the complex processes. We cannot take action if we do not understand the problem. We cannot understand what we cannot measure,” said Stander.
WMO Executive Council has just approved a proposal for WMO to further develop the concept for an integrated operational global greenhouse gas monitoring infrastructure. This will enable improved estimation of the relevant carbon fluxes between atmosphere, land, and oceans – including the role of the ocean as a carbon sink.
Whilst the capacity to monitor ocean heat content and warming has developed considerably in the last two decades, in particular through the revolutionary Argo array of profiling robots, the capacity to observe ocean acidification and deoxygenation remains marginal.
Of more than 10 000 in situ observing elements operating in the ocean, less than 5 percent have the capacity to measure pH or dissolved oxygen. The global ocean observing system delivers critical services for society but is facing many challenges.
“How can we rigorously estimate, forecast or develop any digital twin with such a fragile system?” said Matthieu Belbeoch of the joint WMO-IOC UNESCO OceanOPS centre.
“Please do not take the observing system for granted. Invest seriously in ship time, data buoys and profiling floats, sensors to enable a truly global, robust and multidisciplinary infrastructure dimensioned to the challenges we are facing,” he told the plenary session.
Polar science and services
A WMO side event ‘Polar Regions in a changing climate: ocean solutions through science to services’, emphasised the concern regarding rapid changes in these fragile regions, where warming ocean temperatures are having pronounced impacts on ice cover.
Panelists from Argentina, Canada, Finland, and USA, discussed the vulnerabilities of these regions, and how science, research and indigenous knowledge are all key to improving modelling of changes at multiple timescales, from days to seasons to years.
Anthony Rea, WMO Director of Infrastructure, called for collaboration and coordination for increased observations, which will provide the critical data, for improved forecasts and early warnings to protect people, ecosystems and property along the coast and at sea.
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