It’s going to be more difficult to follow traffic on the Northern Sea Route this year, because the Russian authorities are no longer publishing daily position information for ships using the route.
However other sources revealed that things got underway early this year. On May 29th the nuclear icebreaker Ural led LNG tanker Christophe de Margerie through the Vilkitsky Strait into the Laptev Sea:
On June 5th the modest convoy is about to pass Wrangel Island into the Chukchi Sea:
Another nuclear powered icebreaker, Yakutiya, has also just made its way through the Vilkitsky Strait heading east:
If Yakutiya is leading a convoy of one or more other vessels through the pack ice in the Laptev Sea they have all got satellite AIS turned off!
[Update – June 8th]
Christophe de Margerie has passed through the Bering Strait, and thus completed the first west to east voyage through the Northern Sea Route this year. Ural has been left behind in the Chukchi Sea:
Yakutiya has travelled north of the New Siberian Islands and entered the East Siberian Sea:
[Update – June 15th]
Christophe de Margerie has just passed through the Bering Strait heading north on a return journey through the NSR. This time around Yakutiya is leading the way:
[Update – June 22nd]
Yakutiya and Christophe de Margerie have just passed through the Vilkitsky Strait heading west:
The skies were fairly clear over the central Northern Sea Route this morning, revealing the fast ice breaking up in the East Siberian Sea and plenty of melt ponds in the Laptev Sea:
“False colour” image of the Laptev and East Siberian Seas on June 22nd from the MODIS instrument on the Terra satellite
[Update – June 30th]
Christophe de Margerie is back in the Laptev Sea heading east, this time accompanied by Boris Davydov, another LNG tanker. The nuclear icebreakers are all in the Kara Sea, on the other side of the Vilkitsky Strait:
In a press release last week the Alfred Wegener Institute announced that:
From her home port in Bremerhaven, the Polarstern will set course for Fram Strait and the marginal ice zone north of Svalbard, where warm, nutrient-rich Atlantic Water flows into the Arctic Ocean.
The Polarstern starts its voyage to the Arctic from its home port of Bremerhaven. Photo: Nina Machner
Closely monitoring energy and material flows in the marginal ice zone from the ship and from on ice floes is the goal of the team led by Prof Torsten Kanzow, expedition leader and a physical oceanographer at the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research (AWI). “We will make transects from the open water into the dense sea ice and back. Along the way, we will gather a variety of physical, chemical and biological measurements in the marginal ice zone, which is especially productive and therefore especially interesting,” explains Kanzow.
“The team will also venture onto the ice to take a closer look at the thickness and characteristics of the sea ice and measure ocean currents and eddies away from the ship. We’ll also deploy so-called gliders in the ocean, buoys on the ice and moorings on the seafloor, all of which will record valuable data for the next several years. Lastly, we’ll extend our research radius with helicopter flights, during which we’ll observe, for instance, the melt ponds on the ice.”
Following the work in the MIZ north of Svalbard Polarstern will be heading for Northeast Greenland:
The two glaciers there (79 N Glacier and Zachariae Isstrom) are both characterised by ocean-driven ice loss and accelerated ice flows, making them contributors to sea-level rise. “We plan to install moorings in order to gauge the sensitivity of ocean-driven glacier melting to changing environmental conditions,” says Kanzow, who’s been pursuing research in the region since 2016. Accompanying geodetic-glaciological studies will be conducted on Greenland. On the one hand, they will assess how the solid ground is rising on extremely small scales, because it is still rebounding from the past weight of ice masses that melted after the last glacial maximum. On the other, they will explore temporal variations in supraglacial lakes; their drainage out to sea can have considerable effects on glacier flow speeds and glacier melting.
The AWI team have installed three seasonal ice mass balance buoys in the MIZ, without the usual thermistor string but with a new conductivity, temperature, depth (CTD) sensor fitted to measure salinity instead. Less colourful than usual sea ice thickness graphs can be viewed on the 2022 ice mass balance buoy page. Here’s one example:
[Edit – July 25th]
The image above updates on a daily basis, but today’s version is worth preserving for posterity:
There is currently a large area of low concentration sea ice around the North Pole, and Polarstern has left its station in the marginal ice zone and is currently heading north of Greenland rather than in the direction of the 79N/ZI glaciers.
Polarstern has been heading even further north to the Aurora Vent field (about 130 nautical miles northwest). As part of an extensive lithospheric study, ocean bottom seismometers will be deployed at depths of more than 4000 meters to record seismological activity as well as the physical properties of the hydrothermal plume.
Polarstern north east of Greenland – Photo: Christian R. Rohleder
Polarstern is now heading south again, where a team from the Technical University of Dresden will be deploying a modified surfboard on supra-glacial lakes! Here’s a test run in a melt pond:
Photo: Erik Loebel[Edit – July 29th]
I discovered something rather interesting whilst browsing the Marine Traffic ship tracking web site this morning:
It appears as if the AWI have recently installed two buoys that support AIS position reporting, as indeed does Polarstern itself:
[Edit – August 6th]
Polarstern is now approaching the 79 N and Zachariae Isstrom glaciers:
Watch this space!
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