Optical measurements of the morphological and biochemical imaging of phytoplankton are presented.
Employing quantitative phase imaging techniques, 3-D refractive index maps and high-resolution 2-D quantitative phase images of individual live phytoplankton are simultaneously obtained without exogenous labeling agents. In addition, biochemical information of individual phytoplankton including volume, mass, and density of individual phytoplankton are also quantitatively obtained from the measured refractive index distributions. We expect the present method to become a powerful tool for the study of phytoplankton.

1 H. Sun, "“Underwater digital holography for studies of marine plankton,” Philosophical Transactions of the Royal Society A: Mathematical" 366 : 1789-1806, 2008

2 Christopher Fang-Yen, "Video-rate tomographic phase microscopy" SPIE-SOC PHOTOPTICAL INSTRUMENTATION ENGINEERS 16 (16): 011005-, 2011

3 W. M. Durham, "Turbulence drives microscale patches of motile phytoplankton" 4 : 2148-, 2013

4 K. Tam, "Tomographical imaging with limited-angle input" 71 : 582-592, 1981

5 B. Javidi, "Threedimensional imaging and recognition of microorganism using single-exposure on-line (SEOL) digital holography" 13 : 4492-4506, 2005

6 E. Wolf, "Three-dimensional structure determination of semi-transparent objects from holographic data" 1 : 4-, 1969

7 B. N. Giepmans, "The fluorescent toolbox for assessing protein location and function" 312 : 217-224, 2006

8 V. Mico, "Synthetic aperture superresolution with multiple off-axis holograms" 23 : 3162-3170, 2006

9 S. Alexandrov, "Synthetic aperture Fourier holographic optical microscopy" 97 : 168102-, 2006

10 K. Lee, "Synthetic Fourier transform light scattering" OPTICAL SOC AMER 21 (21): 22453-22463, 2013

11 N. I. Lewis, "Swimming speed of three species of Alexandrium (Dinophyceae) as determined by digital in-line holography" 45 : 61-70, 2006

12 Faliu Yi, "Statistical Analysis of 3D Volume of Red Blood Cells with Different Shapes via Digital Holographic Microscopy" 한국광학회 16 (16): 115-120, 2012

13 박용근, "Spectroscopic phase microscopy for quantifying hemoglobin concentrations in intact red blood cells" OPTICAL SOC AMER 34 (34): 3668-3670, 2009

14 J. Jung, "Spectro-refractometry of Individual Microscopic Objects Using Swept-Source Quantitative Phase Imaging" AMER CHEMICAL SOC 85 (85): 10519-10525, 2013

15 J. Jung, "Spectro-angular light scattering measurements of individual microscopic objects" OPTICAL SOC AMER 22 (22): 4108-4114, 2014

16 D. Stramski, "Refractive index of planktonic cells as a measure of cellular carbon and chlorophyll a content" 46 : 335-351, 1999

17 박용근, "Refractive index maps and membrane dynamics of human red blood cells parasitized by Plasmodium falciparum" NATL ACAD SCIENCES 105 (105): 13730-13735, 2008

18 K. Kim, "Real-time visualization of 3-D dynamic microscopic objects using optical diffraction tomography" OPTICAL SOC AMER 21 (21): 32269-32278, 2013

19 S. K. Debnath, "Real-time quantitative phase imaging with a spatial phase-shifting algorithm" OPTICAL SOC AMER 36 (36): 4677-4679, 2011

20 M. C. Benfield, "RAPID Research on automated plankton identification" 20 : 172-187, 2007

21 K. Lee, "Quantitative phase imaging techniques for the study of cell pathophysiology:From principles to applications" 13 : 4170-4191, 2013

22 N. Lue, "Quantitative phase imaging of live cells using fast Fourier phase microscopy" OPTICAL SOC AMER 46 (46): 1836-1842, 2007

23 G. Popescu, "Quantitative Phase Imaging of Cells and Tissues" McGraw-Hill Professional 2011

24 P. J. Lopez, "Prospects in diatom research" 16 : 180-186, 2005

25 Y. Kim, "Profiling individual human red blood cells using common-path diffraction optical tomography" NATURE PUBLISHING GROUP 4 : 2014

26 Y. Kim, "Polarization holographic microscopy for extracting spatiotemporally resolved Jones matrix" 20 : 2012

27 F. Zernike, "Phase contrast, a new method for the microscopic observation of transparent objects" 9 : 686-698, 1942

28 M. Diez-Silva, "Pf155/RESA protein influences the dynamic microcirculatory behavior of ring-stage Plasmodium falciparum infected red blood cells" NATURE PUBLISHING GROUP 2 : 614-, 2012

29 한스-우베 담스, "PERSPECTIVES OF UNDERWATER OPTICS IN BIOLOGICAL OCEANOGRAPHY AND PLANKTON ECOLOGY STUDIES" Springer 18 : 112-121, 2010

30 G. Popescu, "Optical imaging of cell mass and growth dynamics" AMER PHYSIOLOGICAL SOC 295 (295): 538-544, 2008

31 Y. Sung, "Optical diffraction tomography for high resolution live cell imaging" OPTICAL SOC AMER 17 (17): 266-277, 2009

32 V. Lauer, "New approach to optical diffraction tomography yielding a vector equation of diffraction tomography and a novel tomographic microscope" 205 : 165-176, 2002

33 Y. Park, "Metabolic remodeling of the human red blood cell membrane" 107 : 1289-1294, 2010

34 E. Malkiel, "Measurements of plankton distribution in the ocean using submersible holography" 10 : 1142-, 1999

35 Y. Park, "Measurement of red blood cell mechanics during morphological changes" 107 : 6731-6736, 2010

36 Y. Cotte, "Marker-free phase nanoscopy" 7 : 113-117, 2013

37 T. A. Zangle, "Live-cell mass profiling:An emerging approach in quantitative biophysics" 11 : 1221-1228, 2014

38 D. J. Stephens, "Light microscopy techniques for live cell imaging" 300 : 82-86, 2003

39 Z. Wang, "Label-free intracellular transport measured by spatial light interference microscopy" 16 : 026019-, 2011

40 S. Oh, "Label-Free Imaging of Membrane Potential Using Membrane Electromotility" CELL PRESS 103 (103): 11-18, 2012

41 Z. Wang, "Jones phase microscopy of transparent and anisotropic samples" 33 : 1270-1272, 2008

42 이상준, "Inertial migration of spherical elastic phytoplankton in pipe flow" SPRINGER 55 (55): 1-9, 2014

43 J.-P. Hermand, "In-situ holography microscopy of plankton and particles over the continental shelf of Senegal" IEEE 1-10, 2013

44 G. Popescu, "Imaging red blood cell dynamics by quantitative phase microscopy" ACADEMIC PRESS INC ELSEVIER SCIENCE 41 (41): 10-16, 2008

45 L. Heflinger, "Holographic motion pictures of microscopic plankton" 17 : 951-954, 1978

46 M. Debailleul, "Holographic microscopy and diffractive microtomography of transparent samples" 19 : 074009-, 2008

47 T. R. Hillman, "High-resolution, wide-field object reconstruction with synthetic aperture Fourier holographic optical microscopy" 17 : 7873-7892, 2009

48 K. Kim, "High-resolution three-dimensional imaging of red blood cells parasitized by Plasmodium falciparum and in situ hemozoin crystals using optical diffraction tomography" SPIE-SOC PHOTO-OPTICAL INSTRUMENTATION ENGINEERS 19 (19): 011005-011012, 2014

49 P. H. Wiebe, "From the Hensen net toward four-dimensional biological oceanography" 56 : 7-136, 2003

50 H. Ding, "Fourier transform light scattering of inhomogeneous and dynamic structures" 101 : 238102-, 2008

51 K. Kim, "Fourier transform light scattering angular spectroscopy using digital inline holography" OPTICAL SOC AMER 37 (37): 4161-4163, 2012

52 M. H. Sohn, "Effect of ambient medium viscosity on the motility and flagella motion of Prorocentrum minimum (Dinophyceae)" OXFORD UNIV PRESS 35 (35): 1294-1304, 2013

53 Y. Jang, "Dynamic spectroscopic phase microscopy for quantifying hemoglobin concentration and dynamic membrane fluctuation in red blood cells" OPTICAL SOC AMER 20 (20): 2012

54 J. Garcia-Sucerquia, "Digital in-line holography: 4-D imaging and tracking of micro-structures and organisms in microfluidics and biology" 602613-602619, 2006

55 M. Heydt, "Digital in-line holography as a three-dimensional tool to study motile marine organisms during their exploration of surfaces" 83 : 417-430, 2007

56 J. Garcia-Sucerquia, "Digital in-line holographic microscopy" 45 : 836-850, 2006

57 J. Sheng, "Digital holographic microscopy reveals prey-induced changes in swimming behavior of predatory dinoflagellates" 104 : 17512-17517, 2007

58 M. K. Kim, "Digital Holographic Microscopy: Principles, Techniques, and Applications" Springer 2011

59 K. Kim, "Diffraction optical tomography using quantitative phase imaging unit"

60 K. Kim, "Diffraction optical tomography using quantitative phase imaging unit" 39 : 6935-6938, 2014

61 G. Nomarski, "Differential microinterferometer with polarized waves" 16 : 9S-11S, 1955

62 R. Barer, "Determination of dry mass, thickness, solid and water concentration in living cells" 172 : 1097-1098, 1953

63 C. Sheppard, "Confocal Laser Scanning Microscopy" BIOS Scientific Publishers 1997

64 김영찬, "Common-path diffraction optical tomography for investigation of three-dimensional structures and dynamics of biological cells" OPTICAL SOC AMER 22 (22): 10398-10407, 2014

65 R. Chandramohanadas, "Biophysics of Malarial Parasite Exit from Infected Erythrocytes" PUBLIC LIBRARY SCIENCE 6 (6): 2011

66 J. Jung, "Biomedical applications of holographic microspectroscopy [Invited]" OPTICAL SOC AMER 53 (53): G111-G122, 2014

67 J. Jung, "Biomedical applications of holographic micro-spectroscopy" 53 : G111-G122, 2014

68 Myung K. Kim, "Applications of Digital Holography in Biomedical Microscopy" 한국광학회 14 (14): 77-89, 2010

69 G. L. Stewart, "Application of holographic techniques to the study of marine plankton in the field and in the laboratory" 183-188, 1974

70 김영찬, "Anisotropic light scattering of individual sickle red blood cells" SPIE-SOC PHOTO-OPTICAL INSTRUMENTATION ENGINEERS 17 (17): 040501-040501, 2012

71 Y. Jo, "Angle-resolved light scattering of individual rod-shaped bacteria based on Fourier transform light scattering" NATURE PUBLISHING GROUP 4 : 2014