Improving Sentinel-3 Altimetry Data With GPD+ Wet Tropospheric Corrections

IF 2.9 3区 地球科学 Q2 ASTRONOMY & ASTROPHYSICS
M. J. Fernandes, T. Vieira, C. Lázaro, B. Vasconcellos, P. Aguiar
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Abstract

The provision of accurate wet tropospheric corrections (WTC), accounting for the delay of the radar pulses caused mostly by the atmospheric water vapor in the altimeter-range observations, is pivotal for the full exploitation of altimeter-derived surface heights. The WTC is best retrieved by measurements from Microwave Radiometers (MWR) on board the same altimeter mission. However, these instruments fail to provide valid WTC over land and ice and under rainy conditions. The GNSS-derived Path Delay Plus (GPD+) algorithm has been designed to provide WTC over these surfaces where the onboard MWR WTC is invalid. This study focuses on the estimation of enhanced GPD+ WTC for the Copernicus Sentinel-3A and Sentinel-3B satellites, for the latest Baseline Collection 005.02 (BC005.2), spanning the period since the beginning of the missions until March 2023. GPD+ corrections are being provided operationally since 2022 and have been adopted as the default WTC in the calculation of the sea level anomaly (SLA). Compared to previous versions, the BC005.2 GPD+ WTC features improved data combination procedures, possesses a larger percentage of points estimated from observations, a better intermission alignment and reduced systematic differences among ascending and descending passes. Overall, GPD+ WTC are consistent, calibrated corrections, valid over all points present in the Non Time Critical marine product, allowing to recover, on average, about 17% of the altimeter observations with valid SLA, which otherwise, most of them would be rejected. Impacts of these WTC are most significant over coastal and inland water regions, at high latitudes and during rain events.

Abstract Image

利用 GPD+ 湿对流层校正改进哨兵-3 号测高数据
提供准确的湿对流层修正(WTC)是充分利用高度计得出的地表高度的关键。通过同一高度计任务中的微波辐射计(MWR)的测量,可以最好地检索 WTC。然而,这些仪器无法在陆地、冰面和多雨条件下提供有效的 WTC。全球导航卫星系统衍生的路径延迟增强(GPD+)算法被设计用于在机载微波辐射计永利国际娱乐无效的情况下提供这些表面的永利国际娱乐。本研究的重点是哥白尼哨兵-3A 和哨兵-3B 卫星的增强 GPD+ 永利国际娱乐平台的估算,适用于最新的基线收集 005.02(BC005.2),时间跨度从任务开始到 2023 年 3 月。自 2022 年起,GPD+ 修正已投入运行,并在计算海平面异常 (SLA) 时被采用为默认永利国际娱乐。与之前的版本相比,BC005.2 GPD+永利国际娱乐平台的特点是改进了数据组合程序,拥有更大比例的观测估算点,更好的中继对齐,并减少了上升和下降航次之间的系统性差异。总体而言,GPD+ WTC 是一致的校准修正,对非时间临界海洋产品中的所有点都有效,平均可恢复约 17% 的具有有效 SLA 的高度计观测数据,否则大部分观测数据都会被剔除。这些永利国际娱乐对沿海和内陆水域、高纬度地区以及降雨期间的影响最为显著。
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来源期刊
Earth and Space Science
Earth and Space Science Earth and Planetary Sciences-General Earth and Planetary Sciences
CiteScore
5.50
自引率
3.20%
发文量
285
审稿时长
19 weeks
期刊介绍: Marking AGU’s second new open access journal in the last 12 months, Earth and Space Science is the only journal that reflects the expansive range of science represented by AGU’s 62,000 members, including all of the Earth, planetary, and space sciences, and related fields in environmental science, geoengineering, space engineering, and biogeochemistry.
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