Thanks to advances in robotic technology, scientists have been able to study a massive "dead zone" in the Arabian sea - a region with so little oxygen that virtually nothing can live. Scientists began to observe the oxygen-starved zones in the 1970s - which naturally form in the deep sea, but are also found wherever excess nitrogen and phosphorous-based fertilizers run off into coastal waters.
By one account nearly 8-12% of the nitrogen fertilizer applied worldwide is lost from fertilized fields and transported to the sea. In some individual fields, the value can be as high as 50%.
Still more nitrogen is lost during the disposal of animal wastes from modern industrialized production of pork and chickens. Here nitrogen is lost during inadvertent overflow of waste lagoons, and nitrogen is transported to groundwater, which makes its way to stream channels. -blog.nature.org
By 2008, 405 dead zones - also known as Oxygen Minimum Zones (OMZ) had been identified by Sweden's Göteborg University.
New research from the University of East Anglia (UEA) has confirmed that the Gulf of Oman dead zone - floating in the strait bordered by Iran, Pakistan, Oman and the UAE, is indeed the largest in the world.
That's not all... it's growing.
Two robot submarines called Seagliders, each around the size of a small human diver, were able to collect data for eight months in parts of the Gulf of Oman previously unable to be monitored due to concerns over piracy and geopolitical tensions.
We barely have any data collected for almost half a century because of how difficult it is to send ships there," said lead researcher, Bastien Queste.
What they found was stunning; since the 1990's, the gulf's dead zone has undergone "a dramatic increase" in both size and severity, and is now made up of entirely of low, or no-oxygen waters also known as suboxic or anoxic conditions respectively.
“As part of this project, we went to the Gulf of Oman, which shares its water masses with the wider Arabian Sea, and found that the oxygen was much lower than we thought from the outdated data,” Queste told Gizmodo. “The region is now anoxic—essentially extending the Arabian Sea OMZ into the marginal regions, much closer to where people live, fish, and depend on the marine environment. Hence the growing concerns.”
"Our research shows that the situation is actually worse than feared. The area of dead zone is vast and growing. The ocean is suffocating," Queste said in a statement.
"All fish, marine plants, and other animals need oxygen, so they can't survive there. It's a real environmental problem, with dire consequences for humans, too, who rely on the oceans for food and employment."
Aside from their impact on sea life, dead zones also affect the atmosphere, as the absence of oxygen dramatically changes the chemical cycling of nitrogen - a key nutrient for plant growth. Nitrous oxide, a greenhouse gas 300 times more potent than C02, is instead produced, said Queste.
Computer simulations of ocean oxygen show a decrease in oxygen over the next century and growing oxygen minimum zones.
However these simulations have a difficult time representing small but very important features such as eddies which impact how oxygen is transported.
The team combined their Seaglider data with a very high-resolution computer simulation to determine how oxygen is spread around the north-western Arabian Sea throughout different seasons and the monsoons.-UEA.AC.UK
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