Volume Change of the Tasman Glacier Using Remote Sensing

dc.contributor.authorThomas, Joel Spenceren
dc.date.accessioned2009-05-05T02:15:56Z
dc.date.available2009-05-05T02:15:56Z
dc.date.issued2008en
dc.description.abstractMountain glaciers are expected to be the greatest contributor to sea level rise over the next century. Glaciers provide a good indicator of global climate and how to monitor their change is an increasingly important issue for climate science and for sea level rise forecasts. However, there has been little direct measurement of glacier volume change in New Zealand. This study explores the use of remotely sensed data for measuring glacier volume change from 1965 to 2006. Digital photogrammetric methods were used to extract topographic data of the Tasman Glacier from aerial photography and ASTER imagery for the years 1965, 1986, 2002 and 2006. SRTM C band data from 2000 were also analysed. Data were compared to an existing digital elvation model produced from the New Zealand Digital Topographic Database to test for their reliability. Using regression analysis, the data were filtered and points representing rock were used to correct points on the glacier ice for vertical bias. The quality of the data extracted from the aerial photography was good on rock and debris covered ice, but poor on snow. The data extracted from ASTER was much more reliable on snow in the upper glacier than the aerial photography, but was very poor in the lower debris covered region of the glacier. While the quality of the SRTM data is very high, there is a second order distortion present in the data that is evident over elevation differences. However, the overall mean difference of the SRTM rock from TOPODATA is close to zero. An overall trend could be seen in the data between dates. However, the 2006 ASTER data proved unreliable on the debris covered section of the glacier. Total volume change is therefore calculated for the period between 1965 and 2002. The data show a loss of 3:4km³ or 0:092km³ per year, an estimated 6% of the total ice in New Zealand. This is compared to estimates using the annual end of summer snowline survey between 1977 and 2005 of 1:78 km³, or 0:064km³ per year. The spatial resolution of ASTER makes high temporal resolution monitoring of volume change unlikely for the New Zealand glaciers. The infrequency of aerial photography, the high cost and vast time involved in extracting good quality elevation data from aerial photography makes it impractical for monitoring glacier volume change remotely. However, SRTM and other radar sensors may provide a better solution, as the data do not rely heavily on user processing.en
dc.identifier.urihttp://hdl.handle.net/10092/2406
dc.identifier.urihttp://dx.doi.org/10.26021/7943
dc.language.isoen
dc.publisherUniversity of Canterbury. Geographyen
dc.relation.isreferencedbyNZCUen
dc.rightsCopyright Joel Spencer Thomasen
dc.rights.urihttps://canterbury.libguides.com/rights/thesesen
dc.subjectTasman Glacieren
dc.subjectRemote Sensingen
dc.subjectASTERen
dc.subjectphotogrammetryen
dc.subjectvolume changeen
dc.subjectSouthern Alpsen
dc.subjectDigital Elevation Modelen
dc.subjectSRTMen
dc.subjectDEMen
dc.titleVolume Change of the Tasman Glacier Using Remote Sensingen
dc.typeTheses / Dissertations
thesis.degree.disciplineGeographyen
thesis.degree.grantorUniversity of Canterburyen
thesis.degree.levelMastersen
thesis.degree.nameMaster of Scienceen
uc.bibnumber1132458en
uc.collegeFaculty of Scienceen
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