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  • 21. Bardarbunga-2014_August-events

    the Icelandic Met Office and the Institute of Earth Sciences. Data from the equipment on board is expected later today.  Data from radars and web-cameras is being received, showing no signs of changes at the surface.  The estimate is that 150-400 meters of ice is above the area.  The aviation color code for the Bárðarbunga volcano has been changed from orange to red.  Some minutes ago /media/jar/Bardarbunga-2014_August-events.pdf
  • 22. Bárðarbunga 2014 - August events

    system of the Askja volcano and GPS measurements indicate that the area there is greatly affected. The conclusions from the meeting of the Scientific Advisory Board of the Icelandic Civil Protection will continue to be published at around noon, after the meeting, if necessary. From the Icelandic Met Office: The Aviation Colour Code remains at the ‘orange' level for Bárðarbunga. 28 August 2014 /earthquakes-and-volcanism/articles/nr/3000/
  • 23. KSV_eq_locations

    in Vatnajökull  Seismic activity at volcanoes in Vatnajökull ice cap has been increasing over the last 5 years; Grímsvötn, Hamarinn (Loki ridge), Bárdarbunga, Kistufell, Kverkfjöll and Esjufjöll  Detected seismicity in Vatnajökull is generally shallow, but under the western part of Loki ridge the seismicity extends into the middle crust (~13 km). Photo: Sigurlaug Linnet /media/jar/KSV_eq_locations.pdf
  • 24. Factsheet_Bardarbunga_20140919

    of the caldera. Such an eruption would melt large quantities of ice, leading to a major jokulhlaup, accompanied by ashfall. Other scenarios cannot be excluded. From the Icelandic Met Office: The Aviation Colour Code for Bardarbunga remains at ‘orange’. The National Commissioner of the Icelandic Police, Department of Civil Protection and Emergency Management www.almannavarnir.is /media/jar/Factsheet_Bardarbunga_20140919.pdf
  • 25. Fagradalsfjall eruption unusual in many ways compared to other eruptions

    deformation and seismicity preceding the eruption that began 19 March 2021. a) Model of deformation 24 February – 19 March, showing horizontal displacements as arrows and vertical displacements with a colour scale. The red line shows the location of the dyke and the broken black line shows the central axis of the plate boundary b) Hourly earthquake rate (blue) and cumulative number of earthquakes /about-imo/news/fagradalsfjall-eruption-unusual-in-many-ways-compared-to-other-eruptions
  • 26. Fagradalsfjall eruption unusual in many ways compared to other eruptions

    deformation and seismicity preceding the eruption that began 19 March 2021. a) Model of deformation 24 February – 19 March, showing horizontal displacements as arrows and vertical displacements with a colour scale. The red line shows the location of the dyke and the broken black line shows the central axis of the plate boundary b) Hourly earthquake rate (blue) and cumulative number of earthquakes /about-imo/news/fagradalsfjall-eruption-unusual-in-many-ways-compared-to-other-eruptions/
  • 27. 2011_005

    in Appendix III. 4.2 Preferred layout of the network The Iceland CGPS network has been installed mostly through research grants of different projects with various collaborators. As a result the network coverage is uneven around the country. Areas outside of the active plate boundary have hardly any GPS stations and the network coverage is lacking for large part of the plate boundary, many /media/vedurstofan/utgafa/skyrslur/2011/2011_005.pdf
  • 28. D2.3_CES_Prob_fcsts_GCMs_and_RCMs

    Institution BCCR-BCM2.0 Bjerknes Centre for Climate Research, Norway CGCM3.1 (T47) Canadian Centre for Climate Modelling and Analysis CGCM3.1 (T63) same as previous CNRM-CM3 Météo-France CSIRO-MK3.0 CSIRO Atmospheric Research, Australia ECHAM5/MPI-OM Max Planck Institute (MPI) for Meteorology, Germany ECHO-G University of Bonn and Model & Data Group, Germany; Korean Meteorological Agency GFDL /media/ces/D2.3_CES_Prob_fcsts_GCMs_and_RCMs.pdf
  • 29. norsem_asdis

    beneath both Tertiary and Neovolcanic central volcanoes in Iceland. A low-velocity zone, with a shear-wave velocity of 2.0 km/s, centered 5 km southwest of the caldera reaches into the caldera at a 3-5 km depth. Our model resolution is not sufficient enough to resolve whether small pockets of melt reside within the low-velocity zone. /media/norsem/norsem_asdis.pdf
  • 30. Instructions for cloud cover forecasts

    and the third column high clouds: ...............CL...............................CM...............................CH................ Lowest measured cloud altitude, symbolised with numbers 0 to 9 Back Spoken weather forecast Weather information via /weather/articles/nr/1219

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