Boaty McBoatface’s maiden voyage helps uncover why the Antarctic Southern Ocean is warming
- Boaty McBoatface’s first mission studied temperatures in the Southern Ocean.
- Boaty McBoatface is carried on the research vessel RRS Sir David Attenborough
- Boaty completed the perilous route using an echo sounder device to navigate
- It reached depths of up to 4,000 metres (13,123 ft) to undertake the research
Boaty McBoatface’s maiden mission has helped discover a key process linking increasing Antarctic winds to rising sea temperatures.
Climate scientists say that data collected from the publicly-named submarines’s first expedition will help them build more accurate predictions of the effects of climate change on rising global sea levels.
Boaty McBoatface is the lead boat of the Autosub Long Range-class of autonomous underwater vehicles (AUVs) used for scientific research.
It is carried on the research vessel RRS Sir David Attenborough owned by the Natural Environment Research Council (NERC) and operated by the British Antarctic Survey (BAS).
Boaty McBoatface’s (pictured) maiden mission has helped discover a key process linking increasing Antarctic winds to rising sea temperatures
WHAT IS BOATY MCBOATFACE?
Boaty McBoatface officially topped a poll over the name for a new polar research ship during a competition launched by the Natural Environment Research Council (NERC) in 2016.
The suggestion received 124,109 votes – more than three times that of its closest contender.
However, the £200 million research vessel was not christened with the winning suggestion after a final decision by then science minister Jo Johnson.
Instead he announced that the Boaty McBoatface name would be used for one of the submersibles aboard the Sir David Attenborough – the name chosen for the research ship – instead.
The name Boaty McBoatface was originally proposed in an online poll to name the ship that would eventually be this named RRS Sir David Attenborough.
Although Boaty McBoatface was the most popular suggestion in the poll, the suggestion to use the name for the mother ship was not followed.
The Minister for Universities and Science, Jo Johnson, announced that the Boaty McBoatface name would be used for one of the submersibles aboard Sir David Attenborough instead.
Scientists have revealed that Boaty’s first mission, which took place in April 2017, involved studied the changing temperatures at the bottom of the Southern Ocean.
During the three day mission, Boaty travelled 180 kilometres (112 miles) through mountainous underwater valleys measuring the temperature, saltiness and turbulence of the water at the bottom of the ocean.
Boaty successfully completed the perilous route using an echo sounder to navigate, reaching depths of up to 4,000 metres (13,123 ft).
It then was able to re-unite with the rest of the project team at the programmed rendezvous location, where Boaty was recovered from the water and measurements collected along its route were downloaded.
In recent decades, winds blowing over the Southern Ocean have been getting stronger due to the hole in the ozone layer above Antarctica and increasing greenhouse gases.
Now information collected by Boaty, along with other ocean measurements collected from research vessel RRS James Clark Ross, have revealed a mechanism that enables the winds to increase turbulence deep in the Southern Ocean, causing warm water at mid depths to mix with cold, dense water in the abyss.
Scientists say that the resulting warming of the water on the seabed is a ‘significant contributor’ to rising sea levels.
However, the mechanism uncovered by Boaty is not built into current models for predicting the impact of increasing global temperatures on our oceans.
Boaty’s mission was part of a joint project involving the University of Southampton, the National Oceanography Centre, the British Antarctic Survey, Woods Hole Oceanographic Institution and Princeton University in the United States.
Project leader Professor Alberto Naveira Garabato, of Southampton Univeristy, said: ‘Our study is an important step in understanding how the climate change happening in the remote and inhospitable Antarctic waters will impact the warming of the oceans as a whole and future sea level rise.’
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