Lidar remote sensing of the aquatic environment: invited

被引:26
作者
Churnside, James H. [1 ]
Shaw, Joseph A. [2 ]
机构
[1] NOAA Eatth Syst Res Lab, Chem Sci Div, 325 Broadway, Boulder, CO 80305 USA
[2] Montana State Univ, Elect & Comp Engn Dept, POB 173780, Bozeman, MT 59717 USA
来源
APPLIED OPTICS | 2020年 / 59卷 / 10期
基金
美国国家科学基金会;
关键词
VOLUME SCATTERING FUNCTION; WIDENED MICHELSON INTERFEROMETER; DIURNAL VERTICAL MIGRATION; PARTICULATE ORGANIC-CARBON; SUBSURFACE OCEANIC LAYER; DEEP CHLOROPHYLL MAXIMUM; AIRBORNE LIDAR; SATELLITE CHLOROPHYLL; SPECTRAL DISCRIMINATION; RADIATIVE-TRANSFER;
D O I
10.1364/AO.59.000C92
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
This paper is a review of lidar remote sensing of the aquatic environment. The optical properties of seawater relevant to lidar remote sensing are described. The three main theoretical approaches to understanding the performance of lidar are considered (the time-dependent radiative transfer equation, Monte Carlo simulations, and the quasi-single-scattering assumption). Basic lidar instrument design considerations are presented, and examples of lidar studies fromsurface vessels, aircraft, and satellites are given. (C) 2020 Optical Society of America Provided under the terms of the OSA Open Access Publishing Agreement
引用
收藏
页码:C92 / C99
页数:8
相关论文
共 108 条
[1]   Joint US-UK polarized lidar trial [J].
Allocca, D ;
Contarino, VM ;
Mullen, L ;
Ludbrook, G ;
Holloway, T .
AIRBORNE AND IN-WATER UNDERWATER IMAGING, 1999, 3761 :174-184
[2]   Ocean water clarity measurement using shipboard LIDAR systems [J].
Allocca, D ;
London, M ;
Curran, T ;
Concannon, B ;
Contarino, VM ;
Prentice, J ;
Mullen, L ;
Kane, T .
OCEAN OPTICS: REMOTE SENSING AND UNDERWATER IMAGING, 2002, 4488 :106-114
[3]   Raman scattering by pure water and seawater [J].
Bartlett, JS ;
Voss, KJ ;
Sathyendranath, S ;
Vodacek, A .
APPLIED OPTICS, 1998, 37 (15) :3324-3332
[4]  
Behrenfeld MJ, 2017, NAT GEOSCI, V10, P118, DOI [10.1038/NGEO2861, 10.1038/ngeo2861]
[5]   Space-based lidar measurements of global ocean carbon stocks [J].
Behrenfeld, Michael J. ;
Hu, Yongxiang ;
Hostetler, Chris A. ;
Dall'Olmo, Giorgio ;
Rodier, Sharon D. ;
Hair, John W. ;
Trepte, Charles R. .
GEOPHYSICAL RESEARCH LETTERS, 2013, 40 (16) :4355-4360
[6]   Photosynthetic rates derived from satellite-based chlorophyll concentration [J].
Behrenfeld, MJ ;
Falkowski, PG .
LIMNOLOGY AND OCEANOGRAPHY, 1997, 42 (01) :1-20
[7]   Carbon-based ocean productivity and phytoplankton physiology from space [J].
Behrenfeld, MJ ;
Boss, E ;
Siegel, DA ;
Shea, DM .
GLOBAL BIOGEOCHEMICAL CYCLES, 2005, 19 (01) :1-14
[8]   Measurements and modeling of the volume scattering function in the coastal northern Adriatic Sea [J].
Berthon, Jean-Francois ;
Shybanov, Eugeny ;
Lee, Michael E. -G. ;
Zibordi, Giuseppe .
APPLIED OPTICS, 2007, 46 (22) :5189-5203
[9]   Relationship of light scattering at an angle in the backward direction to the backscattering coefficient [J].
Boss, E ;
Pegau, WS .
APPLIED OPTICS, 2001, 40 (30) :5503-5507
[10]   Underway spectrophotometry along the Atlantic Meridional Transect reveals high performance in satellite chlorophyll retrievals [J].
Brewin, Robert J. W. ;
Dall'Olmo, Giorgio ;
Pardo, Silvia ;
van Dongen-Vogels, Virginie ;
Boss, Emmanuel S. .
REMOTE SENSING OF ENVIRONMENT, 2016, 183 :82-97
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