Meet the scientists and their underwater drones tackling the 'weirdly complicated' world of ocean carbon - Action News
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Meet the scientists and their underwater drones tackling the 'weirdly complicated' world of ocean carbon

In the face of climate change, there's a lot scientists don't know about carbon emissions after they enter the ocean. But one team based in Newfoundland is trying to change that.

Explore the mission to answer oceanography questions in a new Atlantic Voice documentary

Man leans over the side of a small speedboat to touch the fin of a yellow underwater drone sticking out of a calm ocean surface.
Nicolai von Oppeln-Bronikowski, program manager of Memorial University's glider program, checks on the Migaloo glider as it finishes its first deployment in Trinity Bay. (Lindsay Bird/CBC)

It's that rarest of rare conditions along coastalNewfoundland: a dead calm day.

By 7a.m., the crew aboard the fishing boat Belle of the Bayare taking full advantage of it, steaming out of the harbour in Heart's Content underdazzling July sunshine,with their sights set on a prized catch in the middle of Trinity Bay.

It's not fish they're after.The object awaiting them looks like amashup betweena torpedo, a banana, and a Dash 8 a type of underwater dronecalled a glider.

"This isn't the regular kind of job that I would recommend for peoplethat don't like tobe challenged. It's a mission," said Nicolaivon Oppeln-Bronikowski, the head of Memorial University's glider operations.

"I think everybody that works with gliders sees themselves, in one way or the other, on a mission."

An underwater drone shaped like a small yellow plane breaks the surface of a calm ocean.
Migaloo the glider waits to be collected at the surface of Trinity Bay, after spending three weeks in July collecting data with a prototype pH sensor. (Lindsay Bird/CBC)

Today's missionto retrievethat glidernicknamed Migaloo,after a humpback whale is a team effort. It combines thescientific lens ofvon Oppeln-Bronikowski and research assistantSarik Shaikh-Upadhye, withthe fishing father-son duo of Doug and Kyle Piercey, who have loanedtheir boat and expertise to Memorial University glider research for nearly a decade.

"It's not light," Doug Piercey said as he and von Oppeln-Bronikowskiheaved the 1.5-metre-longMigaloo out of the bay. The two check it over, paying particular attention to a prototype sensor attached to it like a little scientific backpack.

"This is the pHsensor right there, that the whole fuss is about," said von Oppeln-Bronikowski.

At first glance, Migaloo and its sensor areintact, marking thefirstmilestone in a year-long efforteveryone on the boat simply refers to as ACOP: the Atlantic Carbon Observatory Pilot program.

"ACOPis sort of a small stepping stone in terms ofadvancing our ability to make more measurements of CO2 [in the ocean]," said von Oppeln-Bronikowski.

A man uses a screwdriver to fix part of a torpedo shaped drone while two other men look on.
Von Oppeln-Bronikowski, left, checks out Migaloo the glider after recovering it from the water. Doug Piercey, middle, and Kyle Piercey, right, are two fishermen based in Heart's Content who lend out their boat for scientific missions. (Lindsay Bird/CBC)

'Where is most of the carbon on our planet?'

Those measurements are badly neededas carbon dioxide emissions in the atmosphere continue to climb.

"If you ask the question, where is most of the carbon on our planet? The answer is, it's in the ocean," said Brad deYoung, a physical oceanographer at Memorial University and ACOP'slead researcher.

The world's oceans are a vast carbon sink absorbing anywhere from one-quarter to one-third of the carbon dioxide we pump into the atmosphere.

"What that means for us, in a planetary sense is, that the rise that we see of the CO2 in the atmosphere is a lot less than it would otherwise be if there were no ocean. So the ocean plays a big role in mitigating and slowing down the pace of climate change," said deYoung.

But exactly how much carbon the ocean has absorbed andwhere its limit to do so may lie aresome of the many unknowns in this area of oceanography,

"Carbon in the oceanis weirdly complicated," said deYoung.

Unlike things like temperature, deYoung said, "sensors to measure various aspects of [ocean] carbon are not so easy to build, not so reliable, and just not as well developed. Sothe carbon observatory is basically a platform where we can test and and actually use the instruments."

Migaloo's pH sensor, taking stock of acidity,is one suchACOPinstrument. Carbon makes the ocean more acidic, and checking pH is one way to try to pinpoint carbon uptake.

A man in a lifejacket stands in a speedboat while resting his hand on a large yellow underwater drone.
Brad deYoung is a physical oceanographer at Memorial University and the lead researcher on the Atlantic Carbon Observatory Pilot Program (ACOP). (Submitted by Brad de Young)

The Labrador Sea lung

There's aninternational scientific effort looking into these carbon questions, andACOP which involves an array of partners, including Dalhousie University and the Department of Fisheries and Oceans is, for now, focusing its attentionon the coastal waters off Newfoundland and Labrador.

Because as it turns out, one thing science has pinpointed is that some areas of the world's oceans are better at absorbing carbon than others. The North Atlantic is one such spot,with the Labrador Sea that remote stretch of water between Labrador and Greenland a particularstar, thanks in part to its often stormy surface acting as a sort of lung.

"Think of the ocean as kind of reaching up to the atmosphere in the Labrador Sea, and breathing and extracting carbon dioxide and oxygen out of the atmosphere," said deYoung.

A woman smiles for the camera against a backdrop of a garden and harbour.
Uta Passow is a biological oceanographer at Memorial University and a member of the ACOP team. (Lindsay Bird/CBC)

DeYoung and his team would like to fly their gliders into the Labrador Sea to collect valuable ocean carbon data. While that can be collected by scientists aboard ships,there are big drawbacks to that work.

Research ships are in short supply in Canada, and getting a spot ona missionthat does go out isextremely costly. Plus, such missions in the Labrador Sea happen mostly in the summer, and ACOP wants to know what's happening in the winter,when temperatures plunge, winds rage and waves average 15 metres high and the carbon uptake is thought to be higher.

"It's a very challenging place to make measurements and at the same time,it's absolutely critical that we make measurements there. It's a catch-22," said von Oppeln-Bronikowski.

DeYoung recalledone infamous ship-based winter mission to the Labrador Sea.

"In 65 days at sea they got one day of useful work. That's not a very good way to get work done."

This iswhere autonomous vehicle technology, like gliders, comes in handy.

"[They've]definitely changed the game," said Uta Passow, a biological oceanographer at MUN and another member of the ACOP team.

Two men lean over a yellow torpedo-like drone on the deck of a fishing boat.
Sarik Shaikh Upadhye, left, and von Oppeln-Bronikowski check over the glider while docked in Heart's Content. (Lindsay Bird/CBC)

Gliders do need to surface to transmit information back to waiting researchers, but they spend most of their time underwater and are able tododge a lot of rough waters in a way ships simply can't. Plus, they can roam around the ocean, whereas ship-based measurements are confined to one spot, at one point in time.

"These autonomous vehicles like gliders or observatories, they will increase our data input by orders of magnitude and will hopefully allow us to make predictions," said Passow.

"If we want to make predictions that are reliable, we really need to understand how the ocean will respond to climate change, and if it will continue to take up carbon, or take up more carbon in the future, or less carbon.So we really need to understand the carbon cycle and we don't at the time."

In an era of climate anxiety and uncertainty, it's scary to consider that lack of knowledge at the highest level of expertise. But for deYoung, hope lies in projects like ACOP.

"The question now is, should we throw up our hands and say, 'Oh, my gosh, this is just such a big problem'?"said deYoung.

"That's not a reasonable response. I think part of what we argue is, let's document what's happening, so we understand where the the critical spaces are and how we can perhaps adapt."

Man in a lifejacket leans on the side of a boat, holding a large piece of scientific equipment.
Von-Oppeln Bronikowski checks over a scientific device called a CTD, which will take measurements that he and other researchers can use to double-check the glider's data. (Lindsay Bird/CBC)

The Atlantic Carbon Observatory Pilot Program runs until mid-2023; its team hopes that a permanent carbon observatory can arise out of it one that would include international teamwork to continue to chip away at its ocean carbon questions.

Read morefrom CBC Newfoundland and Labrador