Zmiana zasięgu lodowca Vatnajökull na Islandii w latach 1991-1999 na podstawie obrazów satelitarnych wykonanych przez satelitę Landsat

• Autorzy: Górzyńska M.

Warianty tytułu

EN

Changes in range of Vatnajökull icecap (Iceland), based on Landsat imagery, 1991-1999

• Języki publikacji: PL

Słowa kluczowe

PL

lodowiec; zdjęcie satelitarne; satelita Landsat; Islandia

EN

satellite image; Landsat satellite; icecap; Iceland

• Wydawca: Polskie Towarzystwo Geograficzne, Oddział Teledetekcji i Geoinformatyki
• Czasopismo: Teledetekcja Środowiska
• Rocznik: 2008
• Tom: T. 40
• Strony: 85--99
• Opis fizyczny: Bibliogr. 28 poz., rys., tab.

Twórcy

autor

Górzyńska M.

• firma teleinformatyczna, Warszawa, tel. 502-599-383

Bibliografia

• Aðalgeirsdóttir G., Björnsson H., Jóhannesson T., czerwiec 2004, Vatnajökull ice cap, results of computations with a dynamical model coupled with a degree-day mass-balance model, Science Institute, University of Iceland, RH-11-2004.
• Aðalgeirsdóttir G., Jóhannesson T., Björnsson H., Pálsson F., Sigurðsson O., 2006, Response of Hofsjökull and southern Vatnajökull, Iceland, to climate change, Journal of Geophysical Research, vol. 111, F03001.
• Björnsson H, Jóhannesson T., Aðalgeirsdóttir G., Guðmundsson S., Sigurðsson O., Pálsson F., 5–9 czerwca 2006, Climate change response of Vatnajökull, Hofsjökull and Langjökull ice caps, Iceland, European Conference on Impacts of Climate Change on Renewable Energy Sources, Reykiavik, Islandia.
• Björnsson H., Pálsson F., Haraldsson H., 2002, Mass balance of Vatnajökull (1991–2001) and Langjökull (1996–2001), Iceland, Jökull nr 51, s.74–78.
• Björnsson H., Pálsson F., Sigurðsson O., Flowers G. E., 2003, Surges of glaciers in Iceland, Annals of Glaciology, nr 36, s. 82–90.
• Bronge Boresjo L., Bronge C., 1999, Ice and snow-type classification in the Vestfold Hills, East Antarctica, using Landsat-TM data and ground radiometer measurements, Int. J. Remote Sensing, vol. 20, nr 2, s. 225–240.
• Brown I.A., Kirkbride M.P., Vaughan R.A., 1999, Find the firn line! The suitability of ERS-1 and ERS-2 SAR data for the analysis of glacier facies on Icelandic icecaps, Int. J. Remote Sensing, vol. 20, nr 15 i 16, s. 3217–3230.
• De Ruyter de Wildt M., Oerlemans J., Björnsson H., 2003, A calibrated mass balance model for Vatnajökull, Iceland, Jökull nr 52, s. 1–20.
• ERDAS Field Guide, 1998, Przewodnik geoinformatyczny, GEOSYSTEMS Polska, Warszawa, Red. wydania Jacek Domański.
• Flowers G. E., Marshall S. J., Björnsson H., Clarke G. K. C., 2005, Sensitivity of Vatnajökull ice cap hydrology and dynamics to climate warming over the next 2 centuries, Journal of Geophysical Research, Vol. 110, F02011, s. 1–19.
• Hall D.K., Chang A.T.C., Foster J.L., wrzesień 1999, BOREAS RSS-08 Snow Maps Derived from Landsat TM Imagery, Dostępne on-line na: http://www.daac.ornl.gov.
• Hall K.D., Williams S.R. Jr, Bayr J.B., 24 marca 1992, Glacier recession in Iceland and Austria, „Eos, Transactions, American Geophysical Union”, vol. 73, no.12, s. 129, 135 i 141.
• Heiskanen J., Kajuutti K., Jackson M., Elvehoy, Pellikka P., 2002, Assessment of glaciological parameters using LANDSAT satellite data in Svartisen, northern Norway, EARSeL eProceedings No. 2, s. 1–9.
• www.iceland.vefur.is – islandzka strona informacyjna o Islandii.
• Ingólfsson Ó., stan na rok 2006, Professor of glacial and Quaternary Geology – Strona profesora geologii glacjalnej i czwartorzędowej, Uniwersytet Islandzki, http://www.hi.is/~oi/.
• Jania J., Glacjologia, PWN Warszawa 1997.
• Jóhannesson T., Aðalgeirsdóttir G., Björnsson H., Pálsson F., Sigurðsson O., 2004, Response of glaciers and glacier runoff in Iceland to climate change, w: Nordic Hydrological Conference 2004 (NHC-2004), Arvo Järvet, ed., Tartu, Nordic Hydrological Programme, s. 551–560.
• Magnússon E., Björnsson H., Dall J., Pálsson F., 2005a, Volume changes of Vatnajökull ice cap, Iceland, due to surface mass balance, ice flow and subglacial melting at geothermal areas, Geophysical Research Letters, Vol. 32, L05504, s. 1–4.
• Magnússon E., Björnsson H., Dall J., Pálsson J., 2005b, The 20th century retreat of ice caps in Iceland derived from airborne SAR: W-Vatnajökull and N-Mýrdalsjökull, Earth and Planetary Science Letters 237, str 508–515.
• Makowski J., 2004, Geografia fizyczna świata, PWN, Warszawa, s. 39.
• Paul F., 2000, Evaluation of different methods for glacier mapping using Landsat TM, Procedings of EARSeL-SIG-Workshop Land Ice and Snow, Dresden/FRG, 16-17.06.2000, s. 239–245.
• Sigurðsson O., 1998a, Glacier variantions in Iceland 1930–1995. From the database of the Iceland Glacjological Society. Jökull nr 45.
• Sigurðsson O., Jóhannesson T., 1998b, Interpretation of glacier variations in Iceland 1930–1995, Jökull nr 45, s. 27–34.
• Sigurðsson O., 2005, Variations of termini of glaciers in Iceland in recent centuries and their connection with climate, w: Iceland – Modern processes and past environements, Developments in Quaternary Science, nr 5, Edytor serii Jim Rose, s. 240–257.
• Sigurðsson O., Jónsson T., Jóhannesson T., 2007, Relation between glacier – termini variations and summer temperature in Iceland since 1930, Annals of Glaciology nr 46, s. 170–176.
• Williams S.R., 1987, Jr, Satellite remote sensing of Vatnajökull, Iceland, Annals of Glaciology, nr 9, s. 127–135.
• Williams S.R. Jr, Hall K.D., Benson S.C., 1991, Analysis of glacier facies using satellite techniques, Journal of glaciology, vol. 37, nr 125, s. 120–128.
• Williams S.R. Jr, Hall K.D., Sigurðsson O., Chien Y.L.J., 1997, Comparison of satellite-derived with ground-based measurements of the fluctuations of the margins of Vatnajökull, Iceland, 1973–92, Annals of Glaciology, nr 24, s. 72–80.