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New depth map of the Arctic Ocean


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New depth map of the Arctic Ocean

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The map is the 4.0 version of the International Bathymetric Chart of the Arctic Ocean (IBCAO). Credit: Stockholm University (Sweden

 

An international team of researchers has published the most detailed submarine map of the Arctic Ocean. The study, by Miquel Canals, José Luis

 

Casamor and David Amblàs from the Consolidated Research Group on Marine Geosciences of the University of Barcelona, has been published in

 

Scientific Data.

 

The map is the 4.0 version of the International Bathymetric Chart of the Arctic Ocean (IBCAO), an initiative that was created in 1997 in Saint Petersburg

 

(Russia) in order to map the depths of the Arctic floor. Published in digital format, the new chart expands up to 19.6% the submarine surface mapped in

 

previous versions.

 

"The 4.0 IBCAO map is this year's contribution to the Nippon Foundation-GEBCO Seabed 2030, whose objective is to map all seas and oceans in the

 

world by 2030," says Martin Jakobsson, professor at the Stockholm University (Sweden), who led the scientific team with experts from fifteen countries,

 

together with Larry Mayer, from the University of New Hampshire (United States).

 

The new bathymetric chart of the Arctic Ocean

 

The northernmost ocean of the planet, and also the smallest and shallowest one, plays a decisive role in the regulation of the planet's climate, and it is

 

the most sensitive polar region to the effects of global warming. According to some predictions, the progressive loss of the marine ice layers could open

 

navigation to some areas that were previously inaccessible, such as the Northwest Passage, the legendary marine route pursued by many 19th century

 

expeditions, joining the boreal Pacific and Atlantic oceans.

 

"The potential difficulty for the current science campaigns in the Arctic is the access to places which are permanently covered by marine ice, and the

 

short-lived duration of the navigation period. However, global warming made these inaccessible areas easier to reach now," says Professor Miquel

 

Canals, head of the Consolidated Research Group on Marine Sciences of the UB.

 

Since 2018, the team has contributed to the 4.0 IBCAO map with data mainly obtained through the multibeam bathymetry in oceanographic campaigns

 

in the Arctic, specially in the western area in the Barents Sea, "a volunteering collaboration to benefit science and knowledge," Miquel Canals says. In its

 

different editions, the IBCAO maps received thousands of downloads over the years and are widely used by governments, companies and researchers

 

with scientific interest and activities in the Arctic.

 

The new cartography has a volume with a higher and better resolution data than the previous versions, and it includes marine regions which were

 

unknown to date. "This results from the efforts made by an international collaborative of many institutions and researchers who provided their

 

scientific data to reach a common objective: discovering the depths of the Arctic Ocean," says Canals.

 

Multibeam probes and nuclear submarine under the Arctic ice

In order to carry out the IBCAO 4.0 map, the team used the same technology used in the submarine study in other regions of the ocean. "The compounds of the new map,

 

mainly the most recent ones, were obtained through the most advanced multibeam bathymetry systems that exist. These data come from oceanographic vessels, ice breakers

 

and nuclear submarines, the only ones to map those areas under the iced sea, impossible to reach with other ships," says Canals. "Regarding the data processing and fusion

 

–with a new Mallat algorithm–, new techniques were added, and provided an excellent result."

 

Ocean currents, climate regulation and stability of ocean floors

 

In general, a better and larger cartography helps to broaden the knowledge of the geological and glacial evolution of such a sensitive region like the Arctic. Therefore, the new

 

bathymetric map identifies a great variety of the shapes of the relief with glacial origins, "some at large scales—from hundreds to thousands of meters in length—that show the

 

direction of the movement of the ice on the ocean floors, which helps to reconstruct the geological processes of the recent past in arctic latitudes."

 

Bathymetrical data are relevant in other fields of polar science, such as the study of the path of ocean currents, and therefore, the distribution of the heat, the sea-ice decline,

 

the effect of inflowing warm waters on tidewater glaciers, and the stability of marine based ice streams and outlet glaciers grounded on the seabed.

 

One of the most spectacular formations in the Arctic ocean floors is the Lomonosov Ridge, a geological element with more than 1,600 kilometers of length "which connects

 

Northern Greenland and Siberia and crosses the ocean leaving deep basins in both sides," says Canals. "The most recent cartography studies carried out with ice breakers,

 

revealed the presence of thresholds that influence the exchange of water between both basins, and anchoring marks in ice platforms on the ridge."

 

The IBCAO 4.0 bathymetric chart also reveals the detailed map of the Greenland fjords, and provides data of interest for the development of predictive models on the behavior

 

of the ice sheet, currently undergoing a rapid recession, which covers the island and on the sea level rise worldwide.

 

The challenge of mapping marine floors worldwide

 

To date, researchers have mapped about one-fifth of the ocean floors worldwide. Knowing the submarine relief of the global ocean is essential to manage and protect the

 

marine and coastal ecosystems, as stated in one of the objectives of the U.N. Sustainable Development Goals (SDG), approved by the General Assembly in 2015.

 

Within the frame of the international effort to study the Arctic marine floors, the Consolidated Research Group on Marine Geosciences of the UB is one of the teams that take

 

part in the Nippon Foundation-GEBCO Seabed 2030, the most ambitious global project to complete a great task in marine geosciences: high-resolution submarine bathymetry in

 

all oceans worldwide.

 

 

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