wp.arcticportal.org

Tag: annual

  • Sixth lowest sea ice extent

    Sixth lowest sea ice extent

    Melting Sea Ice in the arctic

    After an unusually cold summer in the northernmost latitudes, Arctic sea ice appears to have reached its annual minimum summer extent for 2013 on Sept. 13, the NASA-supported National Snow and Ice Data Center (NSIDC) at the University of Colorado in Boulder has reported. Analysis of satellite data by NSIDC and NASA showed that the sea ice extent shrunk to 1.97 million square miles (5.10 million square kilometers).

    Click here for the Arctic Portal Mapping system on Sea Ice Extent

    This year’s sea ice extent is substantially higher than last year’s record low minimum. On Sept.16, 2012, Arctic sea ice reached its smallest extent ever recorded by satellites at 1.32 million square miles (3.41 million square kilometers). That is about half the size of the average minimum extent from 1981 to 2010.

    This summer’s minimum is still the sixth lowest extent of the satellite record and is 432,000 square miles (1.12 million square kilometers) lower than the 1981-2010 average, roughly the size of Texas and California combined.

    The 2013 summertime minimum extent is in line with the long-term downward trend of about 12 percent per decade since the late 1970s, a decline that has accelerated after 2007. This year’s rebound from 2012 does not disagree with this downward trend and is not a surprise to scientists.

    “I was expecting that this year would be higher than last year,” said Walt Meier, a glaciologist at NASA’s Goddard Space Flight Center in Greenbelt, Md. “There is always a tendency to have an uptick after an extreme low; in our satellite data, the Arctic sea ice has never set record low minimums in consecutive years.”

    The ice cap covering the Arctic Ocean shrinks and expands with the passing of the seasons, melting in the summer and refreezing during the long, frigid Arctic winter. This year, cooler weather in the spring and summer led to a late start of the melt season and overall less melt.

    This year, Arctic temperatures were 1.8 to 4.5 degrees Fahrenheit (1 to 2.5 degrees Celsius) lower than average, according to NASA’s Modern Era Retrospective analysis for Research and Applications, a merging of observations and a modeled forecast. The colder temperatures were in part due to a series of summer cyclones. In August 2012, a big storm caused havoc on the Arctic Ocean’s icy cover, but this summer’s cyclones have had the opposite effect: under cloudier conditions, surface winds spread the ice over a larger area.

    “The trend with decreasing sea ice is having a high-pressure area in the center of the Arctic, which compresses the ice pack into a smaller area and also results in clear skies, which enhances melting due to the sun,” said Richard Cullather, an atmospheric scientist at Goddard and at the Earth System Science Interdisciplinary Center of the University of Maryland, College Park, Md. “This year, there was low pressure, so the cloudiness and the winds associated with the cyclones expanded the ice.”

    The remaining Arctic sea ice cover is much thinner on average than it was years ago. Satellite imagery, submarine sonar measurements, and data collected from NASA’s Operation IceBridge, an airborne survey of polar ice, indicate that the Arctic sea ice thickness is as much as 50 percent thinner than it was in previous decades, going from an average thickness of 12.5 feet (3.8 meters) in 1980 to 6.2 feet (1.9 meters) in recent years. The thinning is due to the loss of older, thicker ice, which is being replaced by thinner seasonal ice.

    Most of the Arctic Ocean used to be covered by multiyear ice, or ice that has survived at least two summers and is typically 10 to 13 feet (3 to 4 meters) thick. This older ice has declined at an even faster rate than younger ice and is now largely relegated to a strip along the northern coast of Greenland. The rest of the Arctic Ocean is dominated by first year ice, or ice that formed over the previous winter and is only 3 to 7 feet (1 to 2 meters) thick.

    “Thinner ice melts completely at a faster rate than thicker ice does, so if the average thickness of Arctic sea ice goes down, it’s more likely that the extent of the summer ice will go down as well,” said Joey Comiso, senior scientist at Goddard and coordinating lead author of the Cryosphere Observations chapter of the upcoming report of the Intergovernmental Panel on Climate Change. “At the rate we’re observing this decline, it’s very likely that the Arctic’s summer sea ice will completely disappear within this century.”

    Comiso added that the slight rebound in the 2013 sea ice minimum extent is consistent with a rebound in the multiyear ice cover observed last winter.

    “The character of the ice is fundamentally different: It’s thinner, more broken up, and thus more susceptible to melt completely,” Meier said. “This year, the cool temperatures saved more of the ice. However, the fact that as much of the ice melted as it did is an indication of how much the ice cover had changed. If we had this weather with the sea ice of 20 years ago, we would have had an above-normal extent this year.”

    The sea ice minimum extent analysis produced at NASA Goddard – one of many satellite-based scientific analyses of sea ice cover – is compiled from passive microwave data from NASA’s Nimbus 7 satellite, which operated from late October 1978 to August 1987, and the U.S. Department of Defense’s Defense Meteorological Satellite Program, which has been used to extend the Nimbus 7 sea ice record onwards from August 1987. The record began in October 1978.

    Source:NASA

  • 6th Annual Arctic Shipping Summit

    6th annual arctic shipping summit

    The 6th Annual Arctic shipping Summit will take place during between 27. and 29th April 2010 in Helsinki Finland, with a pre-conference seminar on the 26.

    Leading experts from a diverse background will come together and analyze critical development and practical challenges connected to Arctic Shipping, these include

    • Strategic concerns, security and sovereignty
    • Developments in transport and exploration in Russian Arctic, North
      America and Greenland
    • The impact of climate change on potential navigation conditions
    • Challenges of ice management operations for offshore vessels
    • Technical challenges for design of ice-going ships and icebreakers
    • Stakeholder discussion on current status of training for ice-going crew

    Chairmen and speakers will include. Keynote wpeaker Sergey Donskoy, Deputy minister, Ministry of Natural Resources of the Russian Federation as well as

    • Anders Backman, Rederi AB Trasatlantic
    • Josep A. Casanovas, DG TREN, European Comission
    • Reidun Haahjem, GARD AS
    • Jan Fredrik Hammer, Beluga Projects (Norway) AS
    • DR Mikhail Grigoriev, GECON
    • Professor Frédéric Lasserre, Laval University
    • Fre?de?ric Lasserre, Laval University > Malcolm Lowings, Golder Associates
    • Wilhelm Magelssen, DNV
    • Mikko Niini, Aker Arctic Technology Inc
    • Capt David Snider, Martech Polar Consulting
    • Dr Kirsi Tikka, ABS
    • Professor Peter Wadhams, DAMTP, University of Cambridge

    The last year has seen continuing developments in the prospects for Arctic shipping, including the first commercial voyage by a western shipping company through the Northern Sea Route from Asia to Europe. During the conferance participants will be given the oppertunity to hear from Beluga Shipping on the background and results from this transit. It is clear that the Arctic shipping summit will be an exiting event, attended by some of the most prominent actors interested in arctic shipping which no-one interested in Arctic shipping should overlook. Further information can be found at the informa maritime events homepage.

  • The Yearbook of Polar Law

    The Yearbook of Polar Law

    The yearbook of polar lawThe Yearbook of Polar Law is a new annual Yearbook dealing with Law and the Polar Regions. The demand for this new publication seems apparent for anyone following current affairs.

    The perceived scramble for the vast natural resources lying underneath the polar ice and seas has garnered a lot of media attention, even though legal scholars have made the point that the process of States claiming extended continental shelves is governed by the UN Convention on the Law of the Sea.

    Indigenous peoples are gaining more self-governance in the Arctic as a result of domestic and international law developments. The Greenlanders have been recognized as a people or a nation. Tourism is on the increase in both Polar Regions, creating a need to come up with stricter regulations. The Polar Regions will also be seriously affected by global environmental problems like persistent organic pollutants, ozone depletion and climate change, creating a need for the polar regimes to try to influence global treaty processes that manage these problems.

    Volume 1 of the Yearbook of Polar Law contains 23 peer- reviewed articles as well as the opening keynote address by H.E. Olafur Ragnar Grimsson, President of the Republic of Iceland at an international Polar law symposium held at the University of Akureyri in Iceland in September 2008. The special editor of the first volume is Dr David Leary from the University of New South Wales, Australia. The editors-in-chief are Professor Gudmundur Alfredsson, University of Akureyri, Iceland and University of Strasbourg, France, and Professor Timo Koivurova, Northern Institute for Environmental and Minority Law, Arctic Centre, University of Lapland, Finland.

    The articles published in Volume 1 cover four broad themes including challenges for the protection of biodiversity and wilderness in the Polar Regions; sustainable development and human rights; environmental governance in the Polar Regions and emergent and re-emerging jurisdictional issues in the Polar Regions.

    For further information on this publication, please see the homepage of the publisher