The use of a four-channel colour sensor to measure chlorophyll and carotenoid concentration

Suzanne Brown; Paul B. Tett; R. Wilton

doi:10.1117/12.266368

The use of a four-channel colour sensor to measure chlorophyll and carotenoid concentration

Suzanne Brown, Paul B. Tett, R. Wilton

SAMS UHI

Research output: Contribution to journal › Conference article › peer-review

4 Citations (Scopus)

Abstract

A self-contained 4-channel sub-surface color sensor built by the School of Ocean Sciences is tested for the use of measuring phytoplankton pigments. The four 10 nm wide wavebands are centered at 435 nm (blue), 485 nm (cyan), 565 nm (yellow) and 665 nm (red). The instrument can be used for estimating chlorophyll a concentration from changes of the ratio of upwelling irradiances in the cyan and yellow wavebands and has been successfully calibrated for optical case I waters, where phytoplankton play a key role in the absorption of light. However, the main absorbing pigments in the cyan waveband are not chlorophyll a but caroteniod pigments. These also show a good correlation using the same ratio. The strong relationship between chlorophyll a and carotenoid concentrations in the phytoplankton cells explains the apparent chlorophyll a-cyan:yellow relationship. Application to Case II waters is being examined.

Original language	English
Pages (from-to)	603-608
Number of pages	6
Journal	Proceedings of SPIE - The International Society for Optical Engineering
Volume	2963
DOIs	https://doi.org/10.1117/12.266368
Publication status	Published - 1997
Event	Ocean Optics XIII - Halifax, NS, Canada Duration: 22 Oct 1996 → 22 Oct 1996

Keywords

Carotenoids
Case-1/case-2 waters
Chlorophyll
Colour ratios
Colour sensors
HPLC

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title = "The use of a four-channel colour sensor to measure chlorophyll and carotenoid concentration",

abstract = "A self-contained 4-channel sub-surface color sensor built by the School of Ocean Sciences is tested for the use of measuring phytoplankton pigments. The four 10 nm wide wavebands are centered at 435 nm (blue), 485 nm (cyan), 565 nm (yellow) and 665 nm (red). The instrument can be used for estimating chlorophyll a concentration from changes of the ratio of upwelling irradiances in the cyan and yellow wavebands and has been successfully calibrated for optical case I waters, where phytoplankton play a key role in the absorption of light. However, the main absorbing pigments in the cyan waveband are not chlorophyll a but caroteniod pigments. These also show a good correlation using the same ratio. The strong relationship between chlorophyll a and carotenoid concentrations in the phytoplankton cells explains the apparent chlorophyll a-cyan:yellow relationship. Application to Case II waters is being examined.",

keywords = "Carotenoids, Case-1/case-2 waters, Chlorophyll, Colour ratios, Colour sensors, HPLC",

author = "Suzanne Brown and Tett, {Paul B.} and R. Wilton",

year = "1997",

doi = "10.1117/12.266368",

language = "English",

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pages = "603--608",

note = "Ocean Optics XIII ; Conference date: 22-10-1996 Through 22-10-1996",

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T1 - The use of a four-channel colour sensor to measure chlorophyll and carotenoid concentration

AU - Brown, Suzanne

AU - Tett, Paul B.

AU - Wilton, R.

PY - 1997

Y1 - 1997

N2 - A self-contained 4-channel sub-surface color sensor built by the School of Ocean Sciences is tested for the use of measuring phytoplankton pigments. The four 10 nm wide wavebands are centered at 435 nm (blue), 485 nm (cyan), 565 nm (yellow) and 665 nm (red). The instrument can be used for estimating chlorophyll a concentration from changes of the ratio of upwelling irradiances in the cyan and yellow wavebands and has been successfully calibrated for optical case I waters, where phytoplankton play a key role in the absorption of light. However, the main absorbing pigments in the cyan waveband are not chlorophyll a but caroteniod pigments. These also show a good correlation using the same ratio. The strong relationship between chlorophyll a and carotenoid concentrations in the phytoplankton cells explains the apparent chlorophyll a-cyan:yellow relationship. Application to Case II waters is being examined.

AB - A self-contained 4-channel sub-surface color sensor built by the School of Ocean Sciences is tested for the use of measuring phytoplankton pigments. The four 10 nm wide wavebands are centered at 435 nm (blue), 485 nm (cyan), 565 nm (yellow) and 665 nm (red). The instrument can be used for estimating chlorophyll a concentration from changes of the ratio of upwelling irradiances in the cyan and yellow wavebands and has been successfully calibrated for optical case I waters, where phytoplankton play a key role in the absorption of light. However, the main absorbing pigments in the cyan waveband are not chlorophyll a but caroteniod pigments. These also show a good correlation using the same ratio. The strong relationship between chlorophyll a and carotenoid concentrations in the phytoplankton cells explains the apparent chlorophyll a-cyan:yellow relationship. Application to Case II waters is being examined.

KW - Carotenoids

KW - Case-1/case-2 waters

KW - Chlorophyll

KW - Colour ratios

KW - Colour sensors

KW - HPLC

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VL - 2963

SP - 603

EP - 608

JO - Proceedings of SPIE - The International Society for Optical Engineering

JF - Proceedings of SPIE - The International Society for Optical Engineering

T2 - Ocean Optics XIII

Y2 - 22 October 1996 through 22 October 1996

ER -

The use of a four-channel colour sensor to measure chlorophyll and carotenoid concentration

Abstract

Keywords

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