量子电子学报2024,Vol.41Issue(5):802-812,11.DOI:10.3969/j.issn.1007-5461.2024.05.010
海水表层叶绿素a及悬移质浓度的激光雷达初步探测实验研究
Preliminary experiment of lidar detection of chlorophyll-a and suspended matter concentration in seawater surface
摘要
Abstract
A dual-field-of-view oceanic lidar system was designed and developed to meet the actual demand of on line monitoring of seawater surface parameters such as chlorophyll-a and suspended matter concentrations.Firstly,the measurement experiment of chlorophyll-a concentration was carried out in the laboratory using an experimental tank.It was shown that the correlation coefficient between the results measured by the developed system and those of chlorophyll fluorimeter/nephelometer was 0.94,and the chlorophyll-a concentrations measured under different laser excitation energies were also consistent with those of chlorophyll fluorometer/nephelometer.Meanwhile,the calibration experiments were also carried out on the concentration of suspended matter with different particle sizes,and the corresponding correlation coefficient between the results measured by the developed system and those of the chlorophyll fluorometer/nephelometer was better than 0.91.Then,by using the developed oceanic lidar,the concentration of chlorophyll-a and suspended matter in the seawater surface off the coast of Qingdao were measured on-site,and the correlation coefficients between the results of the lidar system and of the chlorophyll fluorometer/nephelometer were 0.74 and 0.86,respectively,preliminarily verifying the feasibility of applying the self-developed oceanic lidar for detecting the concentration of chlorophyll-a and suspended matter in seawater surface.关键词
激光技术/海洋激光雷达/激光遥感/叶绿素a浓度/悬移质浓度Key words
laser techniques/oceanic lidar/laser remote sensing/chlorophyll-a concentration/suspended matter concentration分类
信息技术与安全科学引用本文复制引用
徐杰,王章军,陈超,庄全风,吴家胜,郭甜甜..海水表层叶绿素a及悬移质浓度的激光雷达初步探测实验研究[J].量子电子学报,2024,41(5):802-812,11.基金项目
国家重点研发计划(2022YFC2807202,2022YFC2807702),山东省重点研发计划(2022CXPT020,2020CXGC010104,2022JMRH0102),山东省自然科学基金(ZR202110060024,ZR2022MD068) (2022YFC2807202,2022YFC2807702)
