Quantifying the precision of retracked Jason-2 sea level data in the 0-5 km Australian coastal zone

Peng, Fukai; Deng, Xiaoli; Cheng, Xiao

Title: Quantifying the precision of retracked Jason-2 sea level data in the 0-5 km Australian coastal zone
Creator: Peng, Fukai; Deng, Xiaoli; Cheng, Xiao
Relation: Remote Sensing of Environment Vol. 263, Issue 15 September 2021, no. 112539, p. 112539-112539
Publisher Link: http://dx.doi.org/10.1016/j.rse.2021.112539
Publisher: Elsevier
Resource Type: journal article
Date: 2021
Description: This paper aims to quantify the precision of retracked Jason-2 altimeter sea level data (2008–2016) in the 0–5 km Australian coastal zone. A new retracking strategy has been developed to achieve the highest possible precision of coastal sea-level data. Coastal waveforms were classified into four groups according to the adaptability of dedicated coastal retrackers, from which each group was reprocessed using an optimal retracker. A modified Brown model was introduced to reprocess the quasi-specular waveforms over calm waters. A seamless transition of sea surface heights from different retrackers was achieved by estimating and removing the significant wave height dependent height differences. In order to generate the 20-Hz sea level anomaly (SLA) and total water level envelope (TWLE) at the coast, the regional along-track mean sea surface (MSS) with a high spatial resolution (~300 m) was estimated. Compared to the global MSS model, the use of the along-track MSS has dramatically reduced the SLA variance by 140 cm2 in the 0–15 km coastal strip. The results from the evaluation of data precision for Jason-2 ground tracks and the validation against tide gauges show that this new retracking strategy can retrieve more reliable sea level data nearshore. The precision of 20-Hz sea level data in the 0–5 km Australian coastal strip ranges typically from 5 cm to 6 cm in most coastal areas, which is only ~1 cm lower than that beyond 5 km off the coastline. However, in Northwest Australian and some coastal regions, the data precision drops to ≥7 cm due partly to the specific coastal sea states and topography. In addition, it is found that the altimeter and tide gauge TWLE time series have a high correlation (>0.8) in the 0–5 km distance band, indicating that coastal sea-level data are useful for applications such as estimation of river plumes, long-term variation of water level in lakes and rivers, and the analysis of storm surges
Subject: satellite altimetry; sea level anomaly; total water level envelope; jason-2; Australian coastal zone; data precision; SDG 14; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1450153
Identifier: uon:43847
Identifier: ISSN:0034-4257
Language: eng
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