GC43G-08
The Potential of Time Series Based Earth Observation for the Monitoring of Large River Deltas

Thursday, 17 December 2015: 15:25
3001 (Moscone West)
Claudia Kuenzer1, Patrick Leinenkugel1, Juliane Huth1, Marco Ottinger2, Fabrice Renaud3, Efi Foufoula-Georgiou4, Tri Vo Khac5, Long Trinh Thi5 and Stefan Dech1, (1)German Aerospace Center, Earth Observation Center, Oberpfaffenhofen, Germany, (2)University of Wuerzburg, Department of Geography and Geology, Wuerzburg, Germany, (3)United Nations University, Institute for Enviroment and Human Security, Bonn, Germany, (4)University of Minnesota Twin Cities, Department of Civil, Environmental, and Geo- Engineering, Minneapolis, MN, United States, (5)Southern Institute of Water Resources Research, Saigon, Vietnam
Abstract:
Although river deltas only contribute 5% to the overall land surface, nearly six hundred million people live in these complex social-ecological environments, which combine a variety of appealing locational advantages. In many countries deltas provide the major national contribution to agricultural and industrial production. At the same time these already very dynamic environments are exposed to a variety of threats, including the disturbance and replacement of valuable ecosystems, increasing water, soil, and air pollution, human induced land subsidence, sea level rise, as well upstream developments impacting water and sediment supplies. A constant monitoring of delta systems is thus of utmost relevance for understanding past and current land surface change and anticipating possible future developments. We present the potential of Earth Observation based analyses and derived novel information products that can play a key role in this context. Along with the current trend of opening up numerous satellite data archives go increasing capabilities to explore big data. Whereas in past decades remote sensing data were analysed based on the spectral-reflectance-defined ‘finger print’ of individual surfaces, we mainly exploit the ‘temporal fingerprints’ of our land surface in novel pathways of data analyses at differing spatial-, and temporally-dense scales. Following our results on an Earth Observation based characterization of large deltas globally, we present in depth results from the Mekong Delta in Vietnam, the Yellow River Delta in China, the Niger Delta in Nigeria, as well as additional deltas, focussing on the assessment of river delta flood and inundation dynamics, river delta coastline dynamics, delta morphology dynamics including the quantification of erosion and accretion processes, river delta land use change and trends, as well as the monitoring of compliance to environmental regulations.