High resolution river and estuarine water level topography from nadir altimetry

Artikel i vetenskaplig tidskrift, 2026

Standard unfocused Synthetic Aperture Radar (UFSAR) nadir-altimeter products with posting rate of 20 Hz provide water level heights with alongtrack spacing of 300 meters, which is far from being optimal for coastal zone and inland studies. The fully focused FFSAR processing, that allows much higher resolution and posting rate, shall resolve small scales interferences along-track and thus improve accuracy and precision of the geophysical estimates. This study looks at different water surfaces in rivers,lakes and coastal zone to investigate under which condition and processing scheme the accuracy of water level is higher with FFSAR rather than with UFSAR. We focus on Sentinel-3A, -3B and -6A missions during 2016-2023. Starting from the UFSAR products at 20 Hz posting rate, we investigate the optimal choice for the Level 1 to Level 2 processing algorithms and parameters. We find that posting rates of 80 Hz for Sentinel-3 and of 140 Hz for Sentinel-6 are best suitable for all inland targets. Our results indicate that the FFSAR, combined with SAMOSA+ physical retracker, is likely to provide the highest accuracy and the largest number of observations for all targets, with average of 15-20 cm in rivers, 6 cm in lakes, 40 cm in estuaries and 10 cm at the coast. The gain in accuracy of FFSAR over UFSAR is, for same posting rate and retracker, smaller than 5 %, except for small targets with river width smaller than 100 meters, area smaller than 0.1 km**2 and near to coast. This study recommends FFSAR processing, although nadir-altimetry does not deliver longitudinal river profiles all along the river. Where water surfaces decorrelate quickly over time, the FFSAR accuracy may degrade, with a more pronounced impact over open ocean compared to lakes.