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Acta Optica Sinica, Volume. 42, Issue 6, 0617001(2022)

Analytical Method of Viable Algae Cells in Water Based on Variable Fluorescence Statistical Distribution

Lu Wang1,2,3, Gaofang Yin1,3、*, Nanjing Zhao1,3、**, Tingting Gan1,2,3, Peilong Qi1,2,3, Zhichao Ding1,2,3, Hui Hua1,2,3, Min Chen1,2,3, Mingjun Ma1,3, Ruifang Yang1,3, and Li Fang1,3
Author Affiliations
  • 1Key Laboratory of Environmental Optics and Technology, Anhui Institute of Optic and Fine Mechanics, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei, Anhui 230031, China
  • 2University of Science and Technology of China, Hefei, Anhui 230026, China
  • 3Key Laboratory of Optical Monitoring Technology for Environment, Anhui Province, Hefei, Anhui 230031, China
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    [1] Soler-Figueroa B M, Fontaine D N, Carney K J et al. Characteristics of global port phytoplankton and implications for current ballast water regulations[J]. Marine Pollution Bulletin, 155, 111165(2020).

    [2] Bax N, Williamson A, Aguero M et al. Marine invasive alien species: a threat to global biodiversity[J]. Marine Policy, 27, 313-323(2003).

    [4] Veldhuis M J W. Temporal changes in phytoplankton biomass and cellular properties; implications for the IMO ballast water convention[J]. Environmental Technology, 40, 1455-1466(2019).

    [5] Bradie J, Broeg K, Gianoli C et al. A shipboard comparison of analytic methods for ballast water compliance monitoring[J]. Journal of Sea Research, 133, 11-19(2018).

    [6] Byllaardt J V, Adams J K, Casas-Monroy O et al. Examination of an indicative tool for rapidly estimating viable organism abundance in ballast water[J]. Journal of Sea Research, 133, 29-35(2018).

    [7] Hua H, Yin G F, Zhao N J et al. Study on selecting characterization parameters of viable algae cells number in ballast water based on chlorophyll fluorescence kinetics[J]. Acta Optica Sinica, 41, 0617001(2021).

    [8] Patil J S, Anil A C. Simulation experiments to elucidate variable fluorescence as a potential proxy for bulk microalgal viability from natural water, sediments and biofilms: implication in ships ballast water management[J]. Journal of Environmental Management, 222, 242-249(2018).

    [9] Bernd K, Kornmueller A. Method. -08-16[2021-08-30]. https:∥worldwide.espacenet.com/publicationDetails/originalDocument?CC=US&NR=2012208264&KC=&FT=E.(2012).

    [10] Zhuang J, Lin Q Y. The application of Poisson distribution in biology[J]. Acta Laser Biology Sinica, 16, 655-658(2007).

    [11] Miller A W, Frazier M, Smith G E et al. Enumerating sparse organisms in ships’ ballast water: why counting to 10 is not so easy[J]. Environmental Science & Technology, 45, 3539-3546(2011).

    [12] Yu Y[J]. A discussion of the relations among binomial distribution, Poisson distribution and normal distribution Enterprise Science and Technology & Development, 2008, 108-110.

    [13] Wang S, Zhang B, Zhao X L et al. Evaluation of staining methods suitable for detection of viability of marine microalgae[J]. Advances in Marine Science, 36, 321-330(2018).

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    Lu Wang, Gaofang Yin, Nanjing Zhao, Tingting Gan, Peilong Qi, Zhichao Ding, Hui Hua, Min Chen, Mingjun Ma, Ruifang Yang, Li Fang. Analytical Method of Viable Algae Cells in Water Based on Variable Fluorescence Statistical Distribution[J]. Acta Optica Sinica, 2022, 42(6): 0617001

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    Paper Information

    Category: Medical optics and biotechnology

    Received: Aug. 31, 2021

    Accepted: Oct. 8, 2021

    Published Online: Mar. 8, 2022

    The Author Email: Yin Gaofang (gfyin@aiofm.ac.cn), Zhao Nanjing (njzhao@aiofm.ac.cn)

    DOI:10.3788/AOS202242.0617001

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology