Potential of SARAL/AltiKa for Inland Water Applications |
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| Authors: | Christian Schwatke Denise Dettmering Eva Börgens Wolfgang Bosch |
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| Institution: | 1. Deutsches Geod?tisches Forschungsinstitut der Technischen Universit?t München (DGFI-TUM), München, Germanychristian.schwatke@tum.de;3. Deutsches Geod?tisches Forschungsinstitut der Technischen Universit?t München (DGFI-TUM), München, Germany |
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| Abstract: | SARAL uses the same orbit as ERS and Envisat and can be used to extend inland water height time series derived from these missions. This article investigates the potential of SARAL for this application over the Great Lakes and the Amazon basin. SARAL/AltiKa is the first altimeter using Ka-band that is rarely influenced by ionospheric effects but susceptible for atmospheric water. Our investigations show clear waveform disruptions for SARAL due to precipitation. It is demonstrated that the quality of water heights improved when using alternative retracker products, for example, the ice-1 product. The improvement depends on the weather and yields up to 3.8 cm for wet conditions. The advantage of the smaller footprint of SARAL is demonstrated for land-water transitions where SARAL provides better water level heights up to 6 km to the lakeshore whereas Envisat is limited to about 11 km. SARAL provides also more reliable water level heights for narrow Amazon rivers than Envisat. Furthermore, the hooking effect is decreased for SARAL. Comparing water level time series of SARAL-only, Envisat-only, and multi-mission with in-situ data demonstrates that SARAL has the potential to extend Envisat long-term time series and to decrease the RMS by about 10% for large lakes and 40% for selected rivers. |
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| Keywords: | SARAL/AltiKa Envisat inland water |
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