Calcification state of coccolithophores can be assessed by light scatter depolarization measurements with flow cytometry
Calcification state of coccolithophores can be assessed by light scatter depolarization measurements with flow cytometry
Coccolithophores are important primary producers and a dominant group of calcifying organisms in the ocean. Calcification state depends on genetic, physiological and environmental factors. We show that flow cytometric measurement of the depolarization forward scattered light using a Brewster's Window Analyzer can be used to quantify the degree of calcification of coccolithophores at the single-cell level. Calcite-containing particles or cells were distinguished from non-calcified particles or cells by high values of forward scatter light with polarization orthogonal to that of the laser. Forward scatter polarization state varied strongly and linearly with the number of attached coccoliths per coccosphere when Emiliania huxleyi cells were first completely decalcified and then allowed to rebuild coccospheres. Cells of the heavily calcified E. huxleyi R-morphotype strain NZEH were also grown in different extracellular Ca2+ concentrations, forming complete coccospheres that contained similar numbers of attached coccoliths but varied in total calcite mass. Forward scatter polarization state varied strongly and linearly with coccosphere calcite mass. In contrast, forward scatter polarization state of detached coccoliths did not vary significantly with calcite weight, although forward scatter and side scatter did. Treatments had relatively minor effects on forward scatter, side scatter and forward scatter polarization state of decalcified cells, suggesting that depolarization of forward scatter light from E. huxleyi cells might be linearly determined, to a first approximation, by the ratio of surface calcite to organic protoplast. We suggest that flow cytometric measurement of forward scatter depolarization provides a potentially valuable method for analysis of calcification state of individual cells.
flow cytometry, light polarization, coccolithophore, calcification, phytoplankton
1011-1027
von Dassow, Peter
74ef5c44-af62-4509-949a-30b6616d05ff
van den Engh, Ger
d6a97955-292b-47a9-a83e-b129baa8017c
Iglesias-Rodriguez, Debora
34da3d8b-ca9d-4db8-91f0-abfed4a5710f
Gittins, John R.
c4d269cc-aae0-4182-bc81-78dc724f7d95
2012
von Dassow, Peter
74ef5c44-af62-4509-949a-30b6616d05ff
van den Engh, Ger
d6a97955-292b-47a9-a83e-b129baa8017c
Iglesias-Rodriguez, Debora
34da3d8b-ca9d-4db8-91f0-abfed4a5710f
Gittins, John R.
c4d269cc-aae0-4182-bc81-78dc724f7d95
von Dassow, Peter, van den Engh, Ger, Iglesias-Rodriguez, Debora and Gittins, John R.
(2012)
Calcification state of coccolithophores can be assessed by light scatter depolarization measurements with flow cytometry.
Journal of Plankton Research, 34 (12), .
(doi:10.1093/plankt/fbs061).
Abstract
Coccolithophores are important primary producers and a dominant group of calcifying organisms in the ocean. Calcification state depends on genetic, physiological and environmental factors. We show that flow cytometric measurement of the depolarization forward scattered light using a Brewster's Window Analyzer can be used to quantify the degree of calcification of coccolithophores at the single-cell level. Calcite-containing particles or cells were distinguished from non-calcified particles or cells by high values of forward scatter light with polarization orthogonal to that of the laser. Forward scatter polarization state varied strongly and linearly with the number of attached coccoliths per coccosphere when Emiliania huxleyi cells were first completely decalcified and then allowed to rebuild coccospheres. Cells of the heavily calcified E. huxleyi R-morphotype strain NZEH were also grown in different extracellular Ca2+ concentrations, forming complete coccospheres that contained similar numbers of attached coccoliths but varied in total calcite mass. Forward scatter polarization state varied strongly and linearly with coccosphere calcite mass. In contrast, forward scatter polarization state of detached coccoliths did not vary significantly with calcite weight, although forward scatter and side scatter did. Treatments had relatively minor effects on forward scatter, side scatter and forward scatter polarization state of decalcified cells, suggesting that depolarization of forward scatter light from E. huxleyi cells might be linearly determined, to a first approximation, by the ratio of surface calcite to organic protoplast. We suggest that flow cytometric measurement of forward scatter depolarization provides a potentially valuable method for analysis of calcification state of individual cells.
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Published date: 2012
Keywords:
flow cytometry, light polarization, coccolithophore, calcification, phytoplankton
Organisations:
Ocean Biochemistry & Ecosystems
Identifiers
Local EPrints ID: 345250
URI: http://eprints.soton.ac.uk/id/eprint/345250
ISSN: 0142-7873
PURE UUID: 895f0d5e-9179-42ce-ba85-e3f3d7cfc817
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Date deposited: 14 Nov 2012 11:52
Last modified: 14 Mar 2024 12:23
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Author:
Peter von Dassow
Author:
Ger van den Engh
Author:
Debora Iglesias-Rodriguez
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