Global Attention Turns Toward the North

Alaska Indigenous community leaders communicate their priorities to the U.S. delegation to the Arctic Science Ministerial. (Photo Credit: U.S. Coast Guard Petty Officer 2nd Class Connie Terrell)
Alaska Indigenous community leaders communicate their priorities to the U.S. delegation to the Arctic Science Ministerial. (Photo Credit: U.S. Coast Guard Petty Officer 2nd Class Connie Terrell)

For many years, international dialogue about the Arctic has focused primarily on the clichés of stranded polar bears and a romanticized vision of a final frontier. In reality, the Arctic is a region that is incredibly more intricate, with complex and intertwined social, economic, and environmental systems. One goal of this project is to increase awareness of the Arctic as a complex region among policy makers and the public. This week, Washington DC played host to the first White House Arctic Science Ministerial, where representatives of the eight Arctic States, fourteen additional States, the European Union, and Arctic Indigenous communities met to assert the importance of improving collaborative science efforts in the Arctic.[i] This is welcome news to our network, which very much look forward to contributing to this growing, and vitally important, dialogue.

As with any major political event in Washington DC, coverage from the media soon followed. The Washington Post wrote a featured piece covering the warming of the Arctic climate and the growing political attention on the region.[ii] One overarching theme throughout these different press briefings and articles is the focus on international cooperation. With so many different nations and communities represented in the region, it is important to include all these actors when planning for the future.

Another big focus of the White House Ministerial and its press coverage was the need to increase observational capacities in the Arctic. Accordingly, the meeting announced the “release of a new satellite-based dataset that maps elevations across the Arctic at a resolution of 8 meters, with an expected further improvement to 2 meters next year.”[iii] The ministers also highlighted a number of new projects in the region “to record and evaluate the large volume of environmental changes being observed by the Arctic’s indigenous peoples in and around their communities.”[iv] By inviting local populations to share their knowledge of changes and opportunities to adapt, these projects aim to increase the awareness of Arctic issues and help prepare the region to take advantage of the opportunities resulting from the the rapid changes already underway.

This remotely sense digital elevation model is an example of the imagery that is being made available through increased scientific interest in the Arctic. Remote sensing in the Arctic is hindered by challenges like frequent cloud cover and a lack of sensor coverage. (Photo Credit: Paul Morin, PGC)
This digital elevation model is an example of the imagery that is being made available through increased scientific interest in the Arctic. Remote sensing in the Arctic is hindered by challenges like frequent cloud cover and a lack of sensor coverage. (Photo Credit: Paul Morin, PGC)

The same changes that affect local indigenous communities will certainly affect Arctic urban populations, and as a result will have secondary effects on the social and economic systems of the region. Our project aims to create an index to rate the progress of sustainable development plans initiated in the region. This project will help assess the progress of such developments, focused on integrating locally sourced knowledge from our vast network of international research partners. It is our hope that by building a tool to measure sustainable development plans across the region, we can encourage cooperation and mutual learning.

[i] https://www.whitehouse.gov/the-press-office/2016/09/28/joint-statement-ministers

[ii] https://www.washingtonpost.com/news/energy-environment/wp/2016/09/28/the-arctic-is-being-utterly-transformed-and-were-just-starting-to-learn-the-consequences/?tid=sm_tw&utm_term=.426bf80de924

[iii] Ibid.

[iv] Ibid.

Panel Discussion at Inaugural Arctic PIRE Meeting

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From October 20th-22nd we will be hosting the inaugural annual meeting of the Arctic PIRE team, here in Washington DC. To culminate this multi-day conference, we are proud to invite you to a panel discussion led by some of our foremost experts in Arctic Sustainability from around the world. Speakers in this panel will address topics including: social sustainability in Arctic conditions, the economic role of cities, Arctic urban planning, and the political framing of sustainability in the Arctic. A reception will follow the panel discussion, providing the public and policy-makers an opportunity to network and forge relationships with our network of international research partners. We would love to see you there!

Please RSVP at: go.gwu.edu/arcticpire

PDF of Event Flyer: conference-flyer-oct-2016

The Red River of Norilsk: How the Remoteness of the Arctic Amplifies Environmental Disasters

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Figure 1: Discoloration of the Daldykan River Source: https://www.rt.com/viral/358561-red-river-siberia-norils

Last week the world was shocked by images of a blood red Daldykan River in central Russia (Figure 1). The cause of the unnatural coloration was the spillage of slurry over a filtration dam near the Russian city of Norilsk. The economy of Norilsk is dominated by mineral extraction and processing, with the mines and factories around the city producing 13% and 44% of the world supply for Nickel and Palladium respectively.[1] This makes Norilsk an economic powerhouse, however also gives Norilsk Nickel, the operator of the various mines around the city, a very powerful influence on the political operation of the city as well as the media.

 

While the spill occurred around September 5, Norilsk Nickel did not admit responsibility for the spill for nearly a week, even publishing pictures on their website of the Dalydykan River in “regular condition and show[ing] the natural color,” on September 8th. [2] It was only after significant exposure on social media, as well as in the world media, that the company finally took responsibility, issuing a statement that “”On the 5th of September after abnormal heavy rain, overflow of one of the dikes occurred, and [contaminated] water entered Daldykan River.”[3] However, the company insists that there is no danger to humans or river flora / fauna and that they were taking steps to improve safety precautions for future incidents.

Heavy industrial pollution is not a new issue for Norilsk, which has often been cited as one of the most polluted cities on the planet.[4] In fact pollution had reached such high levels that in 2010 Vladimir Putin threatened to heavily fine Norilsk Nickel if steps weren’t taken to modernize the plants and reduce pollution.[5] Norilsk Nickel has pledged to invest over $3.5 billion in plant upgrades by 2020, a welcome step for residents who suffer from the toxic pollutants in the air.

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Figure 2: The remote location of Norilsk and the Arctic Region Source: http://www.bbc.com/news/world-europe-37345105

These steps being taken to modernize and reduce pollution are a good sign, however this most recent spill shows that the Arctic region is still extremely vulnerable to environmental contamination. The denial of responsibility for the spill by Norilsk Nickel is a perfect example of the worrying lack of strict governance in the region. The isolated nature Norilsk (Figure 2), with restricted access to industrial sites is indicative of the lacking environmental of oversight in the Arctic. Moreover, the companies operating in the area are not motivated to report spills, admit liability, and pay expensive cleanup costs, leaving it up to the media or civil-society to investigate these occurrences. Without the intense Social Media reaction to the ‘red-river of Norilsk,’ and its dramatic pictures, there is little doubt that the spill would have been swept under the rug or denied further.

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Figure 3: A map showing the vast, remote, area affected by the Exxon Valdez Spill. Over 1500 miles of coastline were affected. Source: https://feww.files.wordpress.com/2009/06/exxon-valdez-spill-map.jpg

Unfortunately, this reaction to environmental disasters in the Arctic is not limited to Russia. Following the 1989 Exxon Valdez spill in Alaska, and up until present day, Exxon Mobil has tried to downplay the amount of oil spilled, and the amount of oil leftover in the area after cleanup.[6] The company was still involved in legal battles fighting against the responsibility for continuing environmental damage in 2006.[7] However, studies have shown that the vast area affected by the spill (Figure 3) has not fully recovered, both in terms of fauna population levels, and economic output.[8] Again, the remote nature of the Arctic and the fragility of the ecosystems in the region amplify the magnitude of spills, while the remote nature of the region with its relatively small populations and weak governance lessen the motivation for polluters to take responsibility. As oil exploration and general resource exploitation in the Arctic grows, we can expect more incidents like the Valdez and the Daldykan River. How regional actors respond to these inevitable disasters will help define the progress sustainable development in the Arctic.

References:

[1] http://www.nornik.ru/en/investor-relations/fact-sheet

[2] http://www.nornik.ru/en/newsroom/news-and-press-releases/news/the-daldykan-river-photo-the-river-and-its-mainstream-are-in-regular-condition-and-show-the-natural-color

[3] http://www.cnn.com/2016/09/12/world/russia-red-river-siberia/

[4] http://www.blacksmithinstitute.org/the-2007-top-ten-of-worst-polluted-places.html

[5] https://www.theguardian.com/cities/2016/sep/15/norilsk-red-river-russias-most-polluted-city-clean

[6] http://www.adn.com/economy/article/size-exxon-spill-remains-disputed/2010/06/06/

[7] http://www.abc.net.au/news/2006-05-17/exxon-valdez-oil-spill-still-a-threat-study/1755518

[8] http://publish.wm.edu/cgi/viewcontent.cgi?article=1020&context=caaurj