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Adjustment of the European Vertical Reference System for the representation of the Baltic Sea water surface topography

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Reference system was adapted EVRS (European Vertical Reference System), which is based on the level of NAP (Normal Amsterdam Peil) for the spatial imaging extreme levels of the Baltic Sea. The observational data on sea levels have been converted of the selected 38 stations in each of the Baltic countries to the level of NAP (Normal Amsterdam Peil). The images of the Baltic Sea area were obtained in a uniform reference system, for the example of chosen stormy situation of 1–2 November 2006, and the spatial distribution of the maximum and no maximum sea levels that occurred during the 1960–2010 year.
Słowa kluczowe
Rocznik
Strony
106--117
Opis fizyczny
Bibliogr. 34 poz., rys., tab.
Twórcy
  • Maritime University of Szczecin, Faculty of Navigation 70-500 Szczecin, ul. Wały Chrobrego 1–2
autor
  • University of Szczecin, Faculty of Geosciences Szczecin
autor
  • University of Szczecin, Faculty of Geosciences Szczecin
Bibliografia
  • 1. IHDE J., AUGATH W.: A Vertical Reference System for Europe. Presented at the EUREF Symposium in Tromsö, June 22–24, 2000. In: Veröffentlichung der Bayerischen Kommission für die Internationale Erdmessung, München 2001, No. 61, 99–110.
  • 2. IHDE J.: Status of the European Vertical Reference System (EVRS). Prezentacja w EVRS Workshop, Frankfurt Main 5–7 April 2004, http://www.ec-gis.org/sdi/ws/evrs/IHDE2. pdf
  • 3. KOPPE B.: Hochwasserschutzmanagementan der deutsche Ostseeküste. Dissertation, Rostocker Berichte aus dem Fachbereich Bauingenieurwesen, Heft 8, Universität Rostock 2002.
  • 4. MUDERSBACH CH., JENSEN J.: Statistische Extremwertanalyse von Wasserständen an der Deutschen Ostseeküste, Abschlussbericht 1.4 zum KFKI-VerbundprojektModellgestützte Untersuchungen zu extremenSturmflutereignissen an der Deutschen Ostseeküste (MUSTOK), Universität Siegen, 2009.
  • 5. HUPFER P., HARFF J., STERR H. STIGGE H.J.: Sonderheft: Die Wasserstände an der Ostseeküste, Entwicklung – Sturmfluten – Klimawandel, Kuratorium für Forschung und Küsteningenieurwesen (Hrsg.). Die Küste 66, Westholsteinische Verlagsanstalt Boyens & Co., Heide i. Holstein 2003.
  • 6. DNN og andre kotesystemer, 2008, http://www.slideboom. com/presentations/37439/DNN-og-andre-kotesystemer
  • 7. http://www.gst.dk/Emner/Referencenet/Referencesystemer/
  • 8. Højvandsstatistikker 2007, Extreme sea level statistics for Denmark, Kystdirektoratet (Danish Coastal Authority)
  • 9. BAHL L.: Implementation of New Reference Systems in Denmark. Shaping the Change. XXIII FIG Congress, Munich, Germany, October 8–13, 2006.
  • 10. European Vertical Reference System, http://www.crs-geo.eu/crseu/).
  • 11. OLSSON A., ERIKSSON O.: Nationella höjdsystem – historik. LANTMÄTERIET, 2005.
  • 12. LIU K.: A study of the possibility to connect local leveling networks to the Swedish height system RH. 2000 using GNSS. Reports in Geodesy and Geographical Information Systems, LMV-rapport 2011:3, LANTMÄTERIET, Gävle 2011.
  • 13. SVENSSON R., ÅGREN J., OLSSON A., ERIKSSON O., LILJE M.: The New Swedish Height System RH 2000 and Geoid Model SWEN 05LR.
  • 14. SMHI – Sea level indicates our changing climate, http://www.smhi.se/en/News-archive/sea-level-indicatesour-changing-climate-1.8962
  • 15. MONONEN J.: Harmonization of Vertical References within the Baltic Sea. TS 4F – Hydrographic Information Management, 1–8, Integrating Generations, FIG Working Week, Stockholm, Sweden 14–19 June 2008.
  • 16. HAMMARKLINT T.: Swedish Sea Level Series – A Climate Indicator. Swedish Meteorological and Hydrological Institute (SMHI), 2009.
  • 17. JOHANSSON M., KAHMA K., BOMAN H., LAUNIAINEN J.:Scenarios for sea level on the Finnish coast. Boreal Environment Research 9, 2004, 153–166.
  • 18. Finnish Meteorological Institute, http://en.ilmatieteenlaitos.fi/theoretical-mean-sea-level
  • 19. Vedenkorkeusarvoja, 1945–1970, Merentutkimuslaitoksen julkaisu, Helsinki-Helsingfors.
  • 20. BOGDANOV V.I., MEDVEDEV M.YU., SOLODOV V.A., TRAPEZNIKOV YU.A., TROSHKOV G.A., TRUBITSINA A.A.: Mean Monthly Series of Sea Level Observations (1777.1993) at the Kronstadt Gauge. Reports of the Finnish Geodetic Institute 1, 2000, Kirkkonummi, Finland.
  • 21. LAZARENKO N.N.: Variations of mean level and water volume of the Baltic Sea. In Water Balance of the Baltic Sea (Falkenmark, M., ed.), Baltic Sea Environment Proceedings, 16, 1986, 64.80.
  • 22. EKMAN M.: Using Mean Sea Surface Topography for Determination of Height System Differences across the Baltic Sea. Marine Geodesy 22, 1999, 31–35.
  • 23. JAAGUS J., SUURSAAR Ü.: Long-term storminess and sea level variations on the Estonian coast ofthe Baltic Sea in relation to large-scale atmospheric circulation. Estonian Journal of Earth Sciences, 62, 2, 2013, 73.92.
  • 24. RÜDJA A.: Development of the Precise Levelling Network in Estonia. Report on the Symposium of the IAG Subcommission for Europe, (EUREF) held in Riga, Latvia, 14–17 June 2006.
  • 25. TORIM A.: Estonian National Vertical Network. Estonian Land Board, in Nordic Geodetic Commission, 1–3 http://www.nkg.fi/nkg/sites/default/files/Estonian_Vertical_Network.pdf
  • 26. RIKKEN K.: Final Geodetic Measurements Taken for Joining European Network. Estonian Public Broadcasting (ERR), 2011, http://news.err.ee/sci-tech/c9f74337-1a10-41d7-959f-4e4dc98fbbe1
  • 27. JUCEVICIUTE V., KUMETAITIS Z., SLEITERIS E. BUGA A., PARSELIUNAS E., PETROSKEVICIUS P., ZAKAREVICIUS A.: Development of the Lithuanian National Geodetic Control. In The Symposium of the IAG Subcommission for Europe (EUREF), 4–7 June 2003, Toledo, Spain, http://www.euref.eu/symposia/book2003/6-14-Lithuania.pdf
  • 28. KRIKSTAPONIS B., PARSELIUNAS E., PETROSKEVICIUS P., PUTRIMAS R., ZAKAREVICIUS A.: Realization of the vertical datum and height system of Lithuania. Proceedings of the 1st International Symposium of the International Gravity Field Service, Ankara 2007, spec. iss. 18 (2007), 142–147.
  • 29. PARŠELIŪNASET E., SACHER М., IHDE J.: Preparation of Lithuanian Levelling Network data for United European Levelling Network. Geodesy and Cartography, 2000, Vol XXVI, No. 4, 171–186.
  • 30. Historia wysokościowej osnowy geodezyjnej w Polsce, http://pl.wikipedia.org/wiki/Historia_wyskosciowej_osnowy_geodezyjnej_w_Polsce
  • 31. KRYNSKI J., ROGOWSKI J.B.: National Report of Poland to EUREF 2013. Symposium of the IAG Subcommission for Europe, European Reference Frame – EUREF 2013, Budapest, Hungary, 29–31May 2013.
  • 32. ŁYSZKOWICZ A.: Podstawowa osnowa wysokościowa w Polsce. Współczesne problemy podstawowych sieci geodezyjnych, Grybów 18–19.10.2012 (prezentacja), http://www.rog.gik.pw.edu.pl/phocadownload/Gryb_2012/AL.pdf
  • 33. http://www.wetterzentrale.de/topkarten/fsfaxsem.html
  • 34. DZIADZIUSZKO Z.: Poziom morza. [In:] Niwelacja precyzyjna. PPWK, Warszawa – Wrocław 1993, 351–391
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a18c05a4-4dc0-4c81-b525-47b1c48634dc
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