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  • 11. CES_D2.4_task2_CMIP3_winds

    in the average wind speed between the baseline (or control) period 1971-2000 and the scenario period 2046-2065. These periods were chosen based on the availability of model output at daily time resolution. We have analyzed the surface geostrophic wind (hereafter Vg) rather than the actual simulated surface winds, because the latter are sensitive to the details of the boundary layer /media/ces/CES_D2.4_task2_CMIP3_winds.pdf
  • 12. Flood from Skaftá

    eastern and western, are located in the western part of Vatnajökull Ice-cap. They form because of geothermal activity that melts the glacier from below and water accumulates beneath them. When the hydro static pressure is high enough for the water to lift the ice above and flow from below the cauldrons it causes a flood. Floods from the eastern-cauldron are usually larger than the floods /about-imo/news/flood-in-estern-skafta
  • 13. New article on glacier changes in

    to approx. 1890 and create a time series of the volume and mass changes of the glaciers that spans about 130 years.The results clearly show that the average mass loss of the Icelandic glaciers per unit area is among the highest of the main glacierized areas of the world, outside of Antarctica and Greenland. Such glaciers are now rapidly losing mass all over the Earth, causing rising sea level /about-imo/news/new-article-on-glacier-changes-in-iceland-over-the-past-130-years
  • 14. Flood from Skaftá

    eastern and western, are located in the western part of Vatnajökull Ice-cap. They form because of geothermal activity that melts the glacier from below and water accumulates beneath them. When the hydro static pressure is high enough for the water to lift the ice above and flow from below the cauldrons it causes a flood. Floods from the eastern-cauldron are usually larger than the floods /about-imo/news/flood-in-estern-skafta/
  • 15. The weather in Iceland in 2022

    was particularly cold; the temperature was 5 °C below average in both places. It hasn't been this cold in Reykjavík in December for over 100 year. Precipitation The year 2022 was unusually wet in Reykjavík. It was relatively wet in the capital in the beginning of the year, with March exceptionally wet. It was the wettest March on record, with total precipitation almost triple the average precipitation /about-imo/news/the-weather-in-iceland-in-2022
  • 16. The weather in Iceland in 2020

    to the 10-year average. It was relatively warmer in coastal areas but colder in the inland.JuneJune was warm and favorable. It was relatively warmest in the Northeast but cooler in the southwestern part. Wind and precipitation were close to average.July July was rather cold compared to recent years, although the mean was above the 1961 to 1990 average. Yet the weather was not unfavorable /about-imo/news/the-weather-in-iceland-in-2020
  • 17. VI_2022_006_extreme

    77 91 109 Hraunaveita 132 116 136 159 117 140 169 Kvíslaveita 48 42 49 58 42 51 61 Sultartangi 66 57 68 80 58 69 84 Þingvallavatn 96 84 99 117 85 102 123 Þórisvatn 47 41 49 57 42 50 60 Tungnaá 76 67 79 92 67 80 98 Ufsarlón 104 92 108 126 93 112 134 36 Figure 19 – 1M5 maps for catchment Hálslón based on the ICRA dataset without projection (top left), with RCP 2.6 and 10th percentile /media/vedurstofan-utgafa-2022/VI_2022_006_extreme.pdf
  • 18. 2010_005_

    Century control runs, as well as 21st Century forecast runs, submitted by various institutions to the Intergovernmental Panel on Climate Change (IPCC) for their Forth 11 Table 1. General circulation and regional climate models that were considered in this study. Model Version Model Name, Institute BCCR BCM 2.0 Bergen Climate Model, Bjerknes Centre for Climate Research, Bergen, Norway CCCMA CGCM 3.1 /media/ces/2010_005_.pdf
  • 19. bb100days_ens

    opportunity ever to follow a caldera subsidence in Iceland with modern scientific measurements and methods. Number of earthquakes between 16 August 2014 00:00 and 09 December 2014 at 08:30 all intrusion caldera Kistufell Askja HB / HBT TFJ Kverkfj. automatic ~ 34.000 - - - - - - - checked ~ 17.500 ~ 7.500 ~ 7.000 ~ 120 ~ 340 ~ 1500 ~ 470 ~20 M3.0-3.9 836 99 721 6 2 3 4 1 M4.0-4.9 462 7 453 1 1 /media/jar/bb100days_ens.pdf
  • 20. Dyrrdal_Anita_CES_2010

    parameters – In the light of climate change Norwegian Meteorological Institute met.no Observed changes in Norway between 1961-90 and 1979-08 • Winter precipitation has increased by 5-25 % • Winter temperature has increased by 0.91–1.34 ºC (Hanssen-Bauer et al., 2009) What about snow conditions? Introduction Data & Methods Results Norwegian Meteorological Institute met.no Snow parameters Start End /media/ces/Dyrrdal_Anita_CES_2010.pdf

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