Study: Human activities accelerate global ocean deoxygenation
["china"]
Scientists have found that the oxygen content of global oceans has been declining mainly because of human activities, which could have societal and economic consequences.
Deoxygenation of the open ocean and coastal waters has lasted for at least the past half-century, largely because of human activities that have increased global temperatures and nutrients discharged to coastal waters.
The level of oxygen in all ocean waters is falling, with 77 billion tons or two percent having been lost since 1950, according to the study.
The level of oxygen in all ocean waters is falling, with 77 billion tons having been lost since 1950. /VCG Photo

The level of oxygen in all ocean waters is falling, with 77 billion tons having been lost since 1950. /VCG Photo

Scientists around the world published on Friday their joint research paper in the journal Science, appealing for further research to assess the consequences and figure out remedies.
The research reviewed the downward trajectory of oxygen levels in increasing areas of the open ocean and coastal waters, and found that "oxygen-minimum zones in the open ocean have expanded by several million square kilometers."
Meanwhile, hundreds of coastal sites now have oxygen concentrations low enough to limit the distribution and abundance of animal populations and alter the cycling of important nutrients, the study said.
Global warming is the primary cause of deoxygenation, while coastal systems also suffer from rising nutrient loads from agriculture, sewage as well as fuel combustion.

Global warming is the primary cause of deoxygenation. /VCG Photo

Global warming is the primary cause of deoxygenation. /VCG Photo

The scientists used numerical models to predict further oxygen declines during the 21st century even with ambitious emission reductions.
They warned that the expansion of deoxygenation could increase greenhouse gas production, reduce biodiversity, and also negatively affect food security.
"This is a problem we can solve. Halting climate change requires a global effort, but even local actions can help with nutrient-driven oxygen decline," according to the study’s  co-author Denise Breitburg, reports the Guardian.
The prediction models of ocean deoxygenation should be improved, scientists suggested, adding that feedbacks to climate as well as the link between low-oxygen zones with fisheries should also be studied.
Source(s): Xinhua News Agency