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• 11. Glossary

  We are hoping to find time to improve this glossary. Only a few items are available. For your relevant search, please click on one of the letters below: A Á B C D E É F G H I Í J K L M N O Ó P Q R S T U Ú V W X Y Ý Z Þ Æ Ö A A: Icelandic abbreviation of East (compass direction, easterly, eastern). ANA: Icelandic abbreviation of Eastnorthesast (compass direction). ASA: Icelandic /weather/articles/nr/1208

• 12. Glossary

  We are hoping to find time to improve this glossary. Only a few items are available. For your relevant search, please click on one of the letters below: A Á B C D E É F G H I Í J K L M N O Ó P Q R S T U Ú V W X Y Ý Z Þ Æ Ö A A: Icelandic abbreviation of East (compass direction, easterly, eastern). ANA: Icelandic abbreviation of Eastnorthesast (compass direction). ASA: Icelandic /weather/articles/nr/1208/

• 13. VanderKeur_etal-2008-Uncertainty_IWRM-WARM

  s fro m climat e ch ang e an d cr o ss bou ndar y adaptatio n measu res . In th e Netherl and s fo r hyd rodyna m ic mod el syst em s lik e SOB EK- W AQ UA (loca lleve l) an d e.g . fo rR hi ne flo w (ba sin wi de )c o n sid er ab le u n ce rta in tie s ex ist (W ee rts et al .200 3) D ev el op m en to fi nt eg ra te d ba sin m o de l( flo od ing an d poll ution) . 2: St at ist ic al /q ua lit /media/loftslag/VanderKeur_etal-2008-Uncertainty_IWRM-WARM.pdf

• 14. Ice subsidence above eastern Skaftá cauldron

  This graph shows the ice-surface lowering (subsidence) of the eastern Skaftá ice-cauldron in Vatnajökull ice cap in October 2015. Vertical displacement (m) was monitored by near real time presentation of data from a GPS station, mounted in the middle of the cauldron. The maximum elevation above sea level, top left (hæð), refers to the zero value on the y-axis; while such value top right /hydrology/research/skafta-cauldron/

• 15. ces_SA_group_flyer_new

  a l y ( ° C ) 1900 1920 1940 1960 1980 2000 -20 -10 0 1 0 2 0 R u n o f f a n o m a l y ( % ) 1900 1920 1940 1960 1980 2000 -40 -30 -20 -10 0 1 0 2 0 3 0 E v a p o r a t i o n a n o m a l y ( % ) Large-scale atmospheric patterns and hydroclimatological variables Large-scale atmospheric circulation patterns, are more accurately assessed by Global Climate Models than are local variations /media/ces/ces_SA_group_flyer_new.pdf

• 16. norsem_lindholm

  Neotectonics in Nordland; NEONOR 2 C. Lindholm, O. Olesen, I. Janutyte, S. Gradman, M. Keiding, H. Kierulf, M. Ask, J. Dehls, Y. Maystrenko, F. Riis, L. Rise and other project partners The Nordland shore region is known to be seismically active with deep local sediment basins on the continental shelf that stretches some 200 km west of the coastline. The offshore areas west of Nordland have /media/norsem/norsem_lindholm.pdf

• 17. Lettenmaier_Dennis_CES_2010pdf

  12 1 month 12 Columbia River Basin Water Resource Sensitivity to PCM Climate Change Scenarios 0% 20% 40% 60% 80% 100% 120% Portland- Vancouver Spring Flood Control Reliability Portland- Vancouver Winter Flood Control Reliability Autumn Firm Power Reliability (November) % of Control Hydropower Revenues McNary Instream Target Reliability (April- August) Middle Snake Agricultural /media/ces/Lettenmaier_Dennis_CES_2010pdf.pdf

• 18. Gradual fading of seismic activity at Bárðarbunga and the dyke intrusion

  of events of magnitudes M1-2 (blue), M2-3 (green) and M>3 (red). Both lower panels show the activity on the caldera rim, moment on the left and event numbers on the right, here the colours for the event numbers are M3-4 (blue), M4-5 (green) and M>5 (red). Please notice that the last data point in all plots represents the ongoing week and might thus still change. Further, the y-scale is logarithmic /earthquakes-and-volcanism/articles/nr/3039

• 19. RaisanenJouni_CES_2010

  not representative of present or future climate conditions? Winter mean T in Helsinki (1961-2008) 1961- 20081961- 1990 Temperature (°C) P r o b a b i l i t y d e n s i t y -12 4 Simplest case: change in mean climate, with no change in the magnitude of variability If variability changes as well, the two tails of the distribution (e.g., warm and cold) will be affected differently. IPCC (2001 /media/ces/RaisanenJouni_CES_2010.pdf

• 20. Case_B___Road_transport_operation_and_infrastructure_planning

  ) Annual Winter Summer • Accounts for natural variability and differences between climate models Width of the distribution primarily determined by natural temperature variability: larger in winter than in summer. Winter Summer Annual Best estimate (ºC) 1.3 0.7 1.0 5-95% uncertainty range (ºC) -0.5…+3.1 -0.2…+1.6 0.0…+1.8 Probability of warming (%) 90% 90% 96% Ref: Räisänen and Ruokolainen (2007 /media/loftslag/Case_B___Road_transport_operation_and_infrastructure_planning.pdf