[1] [1] Duan Yali, Su Rongguo, Shi Xiaoyong, et al.. Differentiation of phytoplankton populations by in vivo fluorescence based on highfrequency component of wavelet[J]. Chinese J Lasers, 2012, 39(7): 0715003.

[2] [2] Pech-Pacheco J L, Alvarez-Borrego J. Optical-digital system applied to the identification of five phytoplankton species[J]. Marine Biology, 1998, 132(3): 357-365.

[3] [3] Boddy L, Morris C W, Wilkins M F, et al.. Identification of 72 phytoplankton species by radial basis function neural network analysis of flow cytometric data[J]. Marine Ecology Progress Series, 2000, 195: 47-59.

[4] [4] Mackey M D, Mackey D J, Higgins H W, et al.. CHEMTAX-a program for estimating class abundances from chemcal markers: Application to HPLC measurements of phytoplankton[J]. Marine Ecology Progress Series, 1996, 144(195): 265-283.

[5] [5] Galluzzi L, Penna A, Bertozzini E, et al.. Development of a real-time PCR assay for rapid detection and quantification of Alexandrium minntum[J]. Applied and Environmental Microbiology, 2004, 70(2): 1199-1206.

[6] [6] Yentsch C S, Phinney D A. Spectral fluorescence: An taxonomic tool for studying the structure of phytoplankton populations[J]. Journal of Plankton Research, 1985, 7(5): 617-632.

[7] [7] Liang Man, Huang Furong, He Xuejia, et al.. Algae identification research based on fluorescence spectral imaging technology combined with cluster analysis and principal component analysis[J]. Spectroscopy and Spectral Analysis, 2014, 34(8): 2132-2136.

[8] [8] 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.

[9] [9] 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.

[10] [10] Liu Yanfang, Su Rongguo, Zhou Qianqian, et al.. Rapid modeling offshore eutrophication technique using optical parameters of CDOM[J]. Chinese J Lasers, 2014, 41(12): 1215001.

[11] [11] 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.

[12] [12] Yin Gaofang, Zhao Nanjing, Hu Li, et al.. Classified measurement of phytoplankton based on characteristic fluorescence of photosynthetic pigments[J]. Acta Optica Sinica, 2014, 34(9): 0930005.

[13] [13] Wu Hailong, Yu Ruqin. Aspects of recent developments of chemical multiway calibration methodologies[J]. Chemistry, 2011, 74(9): 771-782.

[14] [14] Wu H, Shibukawa M, Oguma K. An alternating trilinear decomposition algorithm with application to calibration of HPLC-DAD for simultaneous determination of overlapped chlorinated aromatic hydrocarbons[J]. Journal of Chemometrics, 1998, 12(1): 1-26.

[15] [15] Ding Yujie. Applications of Trilinear Decomposition Algorithm to HPLC-DAD for Simultaneous Multicomponent Quantitative Analysis[D]. Changsha: Hunan University, 2005.

[16] [16] Liu Y, Wu H, Zhu S, et al.. Rapid determination of costunolide and dehydrocostuslactone in human plasma sample and Chinese patent medicine Xiang Sha Yang Wei capsule using HPLC-DAD coupled with second-order calibration[J]. Chinese Journal of Chemistry, 2012, 30(5): 1137-1143.

[17] [17] Wang Yu, Wu Hailong, Yu Yongjie, et al.. Simultaneous determination of three anticancerogens in plasma samples using secondorder calibration method based on alternating trilinear decomposition coupled with fluorescence spectroscopy[J]. Scientia Sinica Chimica, 2012, 42(8): 1226-1233.

[18] [18] Huang Lei, Wu Hailong, Nie Jinfang, et al.. Determination of rutin in cosmetics using second-order calibration methods coupled with excitation-emission fluorescence spectra[J]. Computers and Applied Chemistry, 2010, 27(7): 893-896.

[19] [19] Qing Xiangdong, Wu Hailong, Li Yuanna, et al.. Rapid determination of carbofuran in tuber vegetables, soil and wastewater using three-dimensional fluorescence coupled with second-order calibration[J]. Science China, 2010, 40(11): 1655-1663.

[20] [20] Zhu Chun, Li Run, Que Lizhi, et al.. Determination of components of mixed color solutions by fluorescence spectroscopy combined with calibration algorithms[J]. Spectroscopy and Spectral Analysis, 2014, 34(7): 1742-1746.

[21] [21] Zepp R G, Sheldon W M, Moran M A. Dissolved organic fluorophores in southeastern US coastal waters: Correction method for eliminating Rayleigh and Raman scattering peaks in excitation-emission matrices[J]. Marine Chemistry, 2004, 89(1-4): 15-36.

[22] [22] Zhang Yan. Three-Way Data Analysis and Its Applications to Chromatographic and Fluorometric Analysis[D]. Changsha: Hunan University, 2008.

[23] [23] Groenen P J F, van Os B-J, Meulman J J. Optimal scaling by alternating length-constrained nonnegative least squares, with application to distance-based analysis[J]. Psychometrika, 2000, 65(4): 511-524.

[24] [24] Zhang F, Su R, He J, et al.. Identifying phytoplankton in seawater based on discrete excitation-emission fluorescence spectra [J]. Journal of Phycology, 2010, 46(2): 403-411.

[25] [25] Zhang Fang, Su Rongguo, Wang Xiulin, et al.. Fluorescence characteristics extraction and differentiation of phytoplankton[J]. Chinese J Lasers, 2008, 35(12): 2052-2059.