Deriving Water Diffuse Attenuation Coefficient Kd Using ICESat-2 Bathymetric Information

Huiying Zheng;Hao Liu;Jian Yang;Yue Ma;Xiao Hua Wang
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Abstract

The diffuse attenuation coefficient $K_{d}$ continues to play a crucial role in oceanographic research works. Recently, Ice, Cloud, and Land Elevation Satellite-2 (ICESat-2) has shown its great ability to estimate $K_{d}$ using the water column decay profiles. However, the weak water column backscattered signals are vulnerable to afterpulses and solar background noise, making this way perform not well in the daytime and in nearshore areas. In this study, a method to estimate $K_{d}$ is proposed which innovatively uses ICESat-2 bathymetric signal intensities. The main principle is to calculate the attenuation in water column transmission by bathymetric lidar equations. Since the seafloor signal level is much stronger than that of the water column, a significant advantage is the greater noise immunity, i.e., the ability to operate under strong background noise and afterpulses interference. The performance is validated against the moderate-resolution imaging spectroradiometer (MODIS) ocean color measurements with mean relative differences (MRDs) of <32% using both daytime and nighttime ICESat-2 data in six sea and large lake nearshore areas. Based on the new generation of spaceborne lidar data, this study explores a new path to monitor water qualities in nearshore areas. This method is applicable where seafloor photons exist in both daytime and nighttime.
利用 ICESat-2 的测深信息推导水体扩散衰减系数 Kd
扩散衰减系数 $K_{d}$ 在海洋学研究工作中一直发挥着至关重要的作用。最近,冰、云和陆地高程卫星-2(ICESat-2)展示了其利用水柱衰减剖面估算 $K_{d}$ 的强大能力。然而,微弱的水柱后向散射信号很容易受到余脉和太阳背景噪声的影响,使得这种方法在白天和近岸区域表现不佳。本研究提出了一种估算 $K_{d}$ 的方法,创新性地使用了 ICESat-2 测深信号强度。其主要原理是通过测深激光雷达方程计算水柱传输中的衰减。由于海底信号电平比水柱信号电平强得多,因此一个显著的优势是抗噪声能力更强,即能够在强背景噪声和余脉干扰下工作。利用 ICESat-2 在六个海域和大型湖泊近岸区域的白天和夜间数据,与中分辨率成像分光辐射计(MODIS)海洋颜色测量结果进行了性能验证,其平均相对差异(MRDs)小于 32%。这项研究以新一代空间激光雷达数据为基础,探索了一条监测近岸区域水质的新途径。这种方法适用于白天和夜间都存在海底光子的地方。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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