[1] [1] Kuang Weiming. Studies on the Fingerprints Distinction of Spilled Oil by GC-MS[D]. Xiamen: Third Institute of Oceanography State Oceanic Administration, 2012: 1-3.

[2] [2] Pang Shiping. Monitoring Marine Oil Pollutant with IR Technology[D]. Fuzhou: Fuzhou University, 2006: 1-18.

[3] [3] Ding Ning. The Research for Detecting the Information of Oil Spills on the Sea Surface by Using Fluorescence Lidar[D]. Qingdao: Ocean University of China, 2009: 3-14.

[4] [4] Brown C E, Fingas M, Marois R, et al.. Laser fluorosensor demonstration flights around the southern coast of Newfoundland[C]. International Oil Spill Conference, 2005: 1001-1005.

[5] [5] Lu Huazhang, Tang Jingsheng, Tang Weijie, et al.. A preliminary discussion on application of laser radar in atmospheric and ocean pollution detection and its development trend[J]. Chinese Journal of Engineering Geophysics, 2007, 4(6): 556-557.

[6] [6] Guan Shen, Wu Dong, Zhang Bo, et al.. Studies on distinguishing oil on surface of ocean by ocean fluorescence lidar[J]. Journal of Ocean University of Qingdao, 2002, 32(2): 305-306.

[7] [7] O′Neil R A, Buja-Bijunas L, Rayner D M. Field performance of laser fluorosensor for the detection of oil spills[J]. Applied Optics, 1980, 19(6): 863-870.

[8] [8] Wang Yutian, Xu Jing, Zhou Yanling. Study on mineral oil identification based on a dimension reduction method of three dimensional fluorescence spectra[J]. Chinese J Lasers, 2014, 41(12): 1215002.

[9] [9] Yang Lili, Wang Yutian, Lu Xinqiong. Identification and measurement of petroleum pollutant by three-dimensional matrix fluorescence with second-order calibration methods[J]. Chinese J Lasers, 2013, 40(6): 0615002.

[10] [10] Xiao Haibin, Zhao Jinhui, Liu Muhua, et al.. Application study of three-dimensional fluorescence spectroscopy combined with PLSR for carbaryl residues in duck meat[J]. Laser & Optoelectronics Progress, 2014, 51(4): 043001.

[11] [11] Lai Bo, Zhou Yuexi, Dou Lianfeng, et al.. Variation trend of three-dimensional fluorescence characteristics of aromatic organic pollutants in the ABS wastewater treatment process[J]. Acta Optica Sinica, 2011, 31(1): 0130001.

[12] [12] Zhang Cui, Su Rongguo, Zhang Shanshan, et al.. Fluorescence discrimination and determination method for phytoplankton composition by SA4 multiwavelet[J]. Chinese J Lasers, 2011, 38(7): 0715003.

[13] [13] Huang Changchun, Li Yunmei, Sun Deyong, et al.. Research of scattering spectrum characteristic and formative mechanism of Taihu Lake waters[J]. Acta Optica Sinica, 2011, 31(5): 0501003.

[14] [14] Yu Xiaoya, Zhang Yujun, Yin Gaofang, et al.. Feature wavelength selection of phytoplankton fluorescence spectra based on partial least squares[J]. Acta Optica Sinica, 2014, 34(9): 0930002.

[15] [15] Liu Jing, Liu Wenqing, Zhao Nanjing, et al.. Phytoplankton chlorophyll fluorescence characteristics excited by various light qualities and intensities[J]. Acta Optica Sinica, 2013, 33(9): 0930001.

[16] [16] Chen Hongyu. Harbor Oil Spill Short-Distance Monitoring and Alarm System Based on Fluorescence Spectroscopy[D]. Dalian: Dalian Maritime University, 2013: 9-13.

[17] [17] Zhang Yanlin. Study of Oil Identification Technique Based on Three-Dimensional Fluorescence Spectra[D]. Qinhuangdao: Yanshan University, 2010: 9-24.

[18] [18] Lennon M, Babichenko S, Thomas N, et al.. Detection and mapping of oil slicks in the sea by combined use of hyperspectral imagery and laser induced fluorescence[J]. EARSeL eProceedings, 2006, 5(1): 120-128.

[19] [19] Hengstermann T, Reuter R. Lidar fluorosensing of mineral oil spills on the sea surface[J]. Applied Optics, 1990, 29(22): 3218-3227.