[1] ZHANG Tinglu, CHEN Shuguo, XUE Cheng. Progress of measurement technology for marine water optics properties[J]. Journal of Atmospheric and Environmental Optics, 15, 23-39(2020).

[2] REN Shangshu. Study on technique of measurement of seawater transparency[D](2017).

[3] ZENG J, YIN B, WANG Y et al. Significantly decreasing harmful algal blooms in China seas in the early 21st century[J]. Marine Pollution Bulletin, 139, 270-274(2019).

[4] DENG Ruru, HE Yingqing, QIN Yan et al. Pure water absorption coefficient measurement after eliminating the impact of suspended substance in spectrum from 400 nm to 900 nm[J]. National Remote Sensing Bulletin, 16, 174-191(2012).

[5] KARAGEORGIS A, GARDNER W, MIKKELSEN O et al. Particle sources over the Danube River delta, Black Sea based on distribution, composition and size using optics, imaging and bulk analyses[J]. Journal of Marine Systems, 131, 74-90(2014).

[6] KAUSHAL N, TANZIL J, ZHOU Y et al. Environmental calibration of coral luminescence as a proxy for terrigenous dissolved organic carbon concentration in tropical coastal oceans[J]. Geochemistry, Geophysics, Geosystems, 23, e2022GC010529(2022).

[7] DONG Jing, TANG Junwu, WU Guojun. Research progress of in situ detection technology of seawater nitrate based on ultraviolet spectroscopy[J]. Journal of Ocean Technology, 41, 19-34(2022).

[8] XUE Qingsheng, BAI Haoxuan, LI Hui et al. Development of underwater hyperspectral imaging detecting technology (invited)[J]. Acta Photonica Sinica, 50, 1201001(2021).

[9] XUE Qingsheng, HUANG Liyu, LI Tingting et al. Luminescence characteristics testing of the dinoflagellate pyrocystis noctiluca[J]. Acta Photonica Sinica, 50, 1201002(2021).

[10] DU Jintao. Numerical simulation of laser propagation in random rough sea surface and seawater environment[D](2021).

[11] WEI Zexun, ZHENG Quanan, YANG Yongzeng et al. Physical oceanography research in China over past 70 years:Overview of development history and academic achievements[J]. Haiyang Xuebao, 41, 23-64(2019).

[12] GRUNERT B, MOUW C, CIOCHETTO A. Deriving inherent optical properties from decomposition of hyperspectral non-water absorption[J]. Remote Sensing of Environment, 225, 193-206(2019).

[13] CHEN Xiangzi, WENG Rong, PEI Hongmei. Attenuation characteristics of laser in seawater with different temperature and salinity[J]. Journal of Hainan Tropical Ocean University, 26, 93-100(2019).

[14] NEUNER B, WANG A, ZLATANOVIC S et al. Multi-laser transmissometer for ocean optical classification and biofouling detection[C](2019).

[15] BALKANOV V, BELOLAPTIKOV I, BEZRUKOV L et al. Simultaneous measurements of water optical properties by AC9 transmissometer and ASP-15 inherent optical properties meter in Lake Baikal[J]. Nuclear Instruments and Methods in Physics Research Section A, 498, 231-239(2003).

[16] OHNEMUS D, LAM P, TWINING B. Optical observation of particles and responses to particle composition in the GEOTRACES GP16 section[J]. Marine Chemistry, 201, 124-136(2018).

[17] SABBAH S, FRASER J, BOSS E et al. Hyperspectral portable beam transmissometer for the ultraviolet-visible spectrum[J]. Limnology and Oceanography: Methods, 8, 527-538(2010).

[18] RAMIREZ M, TORRECILLA E, SANCHEZ A et al. Do hyperspectral transmissometers allow us to go one step further on the analysis of particulate matter characteristics of marine samples[C](2014).

[19] RAMIREZ M, ROTTGERS R, TORRECILLA E et al. Cost-effective hyperspectral transmissometers for oceanographic applications: performance analysis[J]. Sensors, 15, 20967-20989(2015).

[20] CAO Wenxi, LI Cai, KE Tiancun et al. Hyperspectral meter for measuring inherent optical properties of sea water based on principle of double-optical-path[J]. Optical Technique, 29, 139-141(2003).

[21] HOU B, GROSSO P, TOCNAYE J et al. Principle and implementations of a refracto-nephelo-turbidimeter for seawater measurements[J]. Optical Engineering, 52, 044402(2013).

[22] MA Y, LIU W, GAO H et al. The scattering effects on the visibility measurements of laser transmissometer in rain and fog[J]. Optik, 157, 957-967(2018).

[23] XUE Qingsheng, LU Jitao, SUN Qian et al. Research on high precision detection of seawater absorbance[J]. Infrared and Laser Engineering, 49, 92-97(2020).

[24] MU Zhuangzhuang, ZHAO Qiang, LI Jin et al. Construction and error source analysis of seawater absorbance measurement system[J]. Optics and Precision Engineering, 29, 1751-1758(2021).

[25] REN Shangshu, ZHOU Shudao. Comparison analysis and developing trend of four methods for the seawater transparency field measurement[J]. Ocean Development and Management, 34, 99-104(2017).

[26] BOSS E, TWARDOWSKI M, MCKEE D et al. Beam transmission and attenuation coefficients: instruments, characterization, field measurements and data analysis protocols[C](2019).

[27] HU C, MULLER F, ZEPP R. Absorbance, coefficientabsorption, and apparent quantum yield: A comment on common ambiguity in the use of these optical concepts[C], 47, 1261-1267(2002).

[28] XIANG La, LI Juanjuan. Application research of digital lock-in amplifier in weak photoelectric signal detection[J]. Digital Communication World, 174-175(2018).