1 Background - mountain.PROJECTS

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TURKU UNIVERSITY DEPARTMENT OF GEOGRAPHY PUBLICATIONS B Nr 4The methods used and results produced in OMEGA were summarised at the OMEGASymposium in Helsinki, March 2004. These presentations are available athttp://OMEGA.utu.fi/publications.html. OMEGA results were frequently promoted andpresented at scientific meetings such as EGU European Geophysical Union, Nice, April 2004,ISPRS (International Society of Photogrammtery and Remote Sensing) conference in Istanbulin July 2004 and IGS International Glaciological Society meeting at Geilo, Norway, August2004. An account of the scientific and technological accomplishments of the OMEGA projectwill be published in Zeitschrift für Gletscherkunde und Glazialgeologie. The special issue willcontain 12 articles.Popularisation of the scientific resultsA web camera overlooking Hintereisferner is in operational use. Images of the glacier are puton the web site of the Institute of Meteorology and Geophysics of the University of Innsbrucktwice a day. In cooperation with the Commission for Geophysical Research of the AustrianAcademy of Sciences a power point presentation is being prepared for demonstration ofglaciological work at high school level. OMEGA was asked to present its results in theDeutsche Alpenverein (DAV) exhibition about glacier changes. The exhibition will bearranged in Munchen in 2005. The community of Sölden, in which Hintereisferner is situated,is planning a Glacier Museum in Vent that will include an account of the OMEGA activitiesin that area.Other glacier monitoring projectsOMEGA has been disseminated for other snow and ice related scientific organisations, suchas GLIMS (Global Land Ice Measurements from Space), WGS (The World GlacierMonitoring Service) and The National Snow and Ice Data Center of the United States. NVEhave acted to some extent as a liaison between OMEGA and GLIMS, since NVE is theregional co-ordinator for Norway of GLIMS. Within GLIMS, each Regional Center coordinatesmission planning for the entire region, including use of local knowledge of seasonalweather conditions, and co-ordinate analysis within the Region.In addition, few other glacier or snow related research projects have been recognized. Theseprojects were GLASNOWMAP financed by ESA (European Space Agency), GLACIORISKfinanced by EC 5 th Framework programme, EnviSnow financed by EC 5 th Frameworkprogramme, and EuroClim financed by EC 5 th Framework programme. The homepages of theorganisations and projects are given in Appendix 2 (Omega Final Report).Exploitation of the resultsThe OMEGA results have been exploited so far by the partners within their scientific work.The academic partners, such as University of Turku, Helsinki University of Technology andUniversity of Innsbruck, will use the results obtained in their remote sensing andgeoinformatics teaching and research. The information technology research organisations,such as Novosat, NORUT IT and Joanneum Research will use the results in future researchactivities. The research organisations within glaciology, such as NVE and University ofInnsbruck will use the results in glaciological studies related to the study areas. The detailedexploitation plans of each result are presented in the TIPs (Technological Implementation70
PETRI PELLIKKA AND KARI KAJUUTTI (ED)Plan). (Omega Final Report: Section 4).The project results also made free for scientists and public through the OMEGA monitoringsystem. All the project material produced are inserted to the system from which interested canretrieve the remote sensing data, GIS layers, meteorological data or glaciological data over thestudy glaciers - http://gin4.itek.norut.no:8080/EUMap/OMEGA.jsp.7 Literature producedPeer reviewed scientific articlesGeist, T., & H. Stötter (2002). First results of airborne laser scanning technology as a tool forthe quantification of glacier mass balance. Peer-reviewed Proceedings of EARSeLworkshop on Observing our Cryosphere from Space: techniques and methods formonitoring snow and ice with regard to climate change, 11–13 March 2002, Bern,Switzerland.Geist, T., E. Lutz & J. Stötter (2003). Airborne laser scanning technology and its potential forapplications in glaciology. Proceedings of the ISPRS workshop on 3-D reconstructionfrom airborne laserscanner and InSAR data, 8-10 October 2003, Dresden, Germany.International Archives of Photogrammetry, Remote Sensing and Spatial InformationSciences, Vol. XXXIV, Part 3/W13, 101-106.Geist, T., A. Heller & J. Stötter (2004). Digitale Geländemodelle aus Airborne LaserscanningDaten – eine qualitativ hochwertige Grundlage für glaziologische Fragestellungen.Proceedings AGIT 2004, Angewandte Geographische Informationsverarbeitung XVI,Salzburg, Austria. In print.Geist, T., H. Elvehøy, M. Jackson and J. Stötter (2005). Investigations on intra-annualelevation changes using multitemporal airborne laser scanning data – case studyEngabreen, Norway. Annals of Glaciology, Vol. 42. In print.Geist, T. and J. Stötter (2005). Documentation of glacier surface elevation change with multitemporalairborne laser scanner data – case study: Hintereisferner andKesselwandferner, Tyrol, Austria. Zeitschrift für Gletscherkunde und Glazialgeologi.Accepted for publication.Haggrén, H. (2004). Photogrammetry at Hochjochferner in 1907. In: Commemorative volumefor the 60th birthday of Prof. Dr. Armin Grün, 127-131. Institute of Geodesy andPhotogrammetry, ETH. Zürich 2004.Heiskanen, J., K. Kajuutti, M. Jackson, H. Elvehøy & P. Pellikka (2003). Assessment ofglaciological parameters using Landsat satellite data in Svartisen, Northern Norway.EARSeL eProceedings 2 1/2003, 34-42. Peer-reviewed Proceedings of EARSeLworkshop on Observing our Cryosphere from Space: techniques and methods formonitoring snow and ice with regard to climate change, 11–13 March 2002, Bern,Switzerland.Hendriks, J. & P. Pellikka (2004). Estimation of reflectance from a glacier surface bycomparing spectrometer measurements with satellite-derived reflectances. Zeitschriftfür Gletscherkunde und Glazialgeologie 38: 2, 139-154.Högda, K.A., T. Geist, M. Jackson, H. Elvehöy & J. Stötter (2004). Comparison of digitalelevation models from airborne SAR technology at Engabreen, Svartisen, Norway.Annals of Glaciology. In print.Kuhn, M. & H. Escher-Vetter (2004). Die Reaktion der österreichischen Gletscher und ihres71
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