LIGHT REQUIREMENTS FOR MONOSPORE GERMINATION IN BANGIA ATROPURPUREA (RHODOPHYTA)

Korene Charnofsky; Leslie R. Towill; Milton R. Sommerfeld

doi:10.1111/j.1529-8817.1982.tb03204.x

LIGHT REQUIREMENTS FOR MONOSPORE GERMINATION IN BANGIA ATROPURPUREA (RHODOPHYTA)

Korene Charnofsky, Leslie R. Towill, Milton R. Sommerfeld

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Monospore germination, in Bangia atropurpurea (Roth) C. Ag. [= B. fuscopurpurea (Dillw.) Lyngb.] is light‐dependent. In white light, the percent germination increases with increasing photon fluence rate until the response is saturated at 35 μmol · m⁻²· s⁻¹. At a saturating photon fluence rate in an 18:6 h L:D cycle, 9 days are required for maximum germination. Green light is the most effective spectral region for monospore germination, although the process can occur in red and blue light if sufficiently high photon fluence rates are provided. Monospore germination and photosynthetic oxygen evolution are completely inhibited by DCMU at a concentration of 1 × 10⁻⁶ M. Germination is reduced in a low CO₂ atmosphere and does not occur in the dark when glucose, maltose or inositol are supplied. It is concluded that photosynthesis is required for monospore germination.

Original language	English (US)
Pages (from-to)	417-422
Number of pages	6
Journal	Journal of Phycology
Volume	18
Issue number	3
DOIs	https://doi.org/10.1111/j.1529-8817.1982.tb03204.x
State	Published - 1982

Keywords

Bangia
heterotrophic growth
light quality
monospore germination
photon fluence rate
photosynthesis

ASJC Scopus subject areas

Aquatic Science
Plant Science

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10.1111/j.1529-8817.1982.tb03204.x

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title = "LIGHT REQUIREMENTS FOR MONOSPORE GERMINATION IN BANGIA ATROPURPUREA (RHODOPHYTA)",

abstract = "Monospore germination, in Bangia atropurpurea (Roth) C. Ag. [= B. fuscopurpurea (Dillw.) Lyngb.] is light‐dependent. In white light, the percent germination increases with increasing photon fluence rate until the response is saturated at 35 μmol · m−2· s−1. At a saturating photon fluence rate in an 18:6 h L:D cycle, 9 days are required for maximum germination. Green light is the most effective spectral region for monospore germination, although the process can occur in red and blue light if sufficiently high photon fluence rates are provided. Monospore germination and photosynthetic oxygen evolution are completely inhibited by DCMU at a concentration of 1 × 10−6 M. Germination is reduced in a low CO2 atmosphere and does not occur in the dark when glucose, maltose or inositol are supplied. It is concluded that photosynthesis is required for monospore germination.",

keywords = "Bangia, heterotrophic growth, light quality, monospore germination, photon fluence rate, photosynthesis",

author = "Korene Charnofsky and Towill, {Leslie R.} and Sommerfeld, {Milton R.}",

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AU - Charnofsky, Korene

AU - Towill, Leslie R.

AU - Sommerfeld, Milton R.

PY - 1982

Y1 - 1982

N2 - Monospore germination, in Bangia atropurpurea (Roth) C. Ag. [= B. fuscopurpurea (Dillw.) Lyngb.] is light‐dependent. In white light, the percent germination increases with increasing photon fluence rate until the response is saturated at 35 μmol · m−2· s−1. At a saturating photon fluence rate in an 18:6 h L:D cycle, 9 days are required for maximum germination. Green light is the most effective spectral region for monospore germination, although the process can occur in red and blue light if sufficiently high photon fluence rates are provided. Monospore germination and photosynthetic oxygen evolution are completely inhibited by DCMU at a concentration of 1 × 10−6 M. Germination is reduced in a low CO2 atmosphere and does not occur in the dark when glucose, maltose or inositol are supplied. It is concluded that photosynthesis is required for monospore germination.

AB - Monospore germination, in Bangia atropurpurea (Roth) C. Ag. [= B. fuscopurpurea (Dillw.) Lyngb.] is light‐dependent. In white light, the percent germination increases with increasing photon fluence rate until the response is saturated at 35 μmol · m−2· s−1. At a saturating photon fluence rate in an 18:6 h L:D cycle, 9 days are required for maximum germination. Green light is the most effective spectral region for monospore germination, although the process can occur in red and blue light if sufficiently high photon fluence rates are provided. Monospore germination and photosynthetic oxygen evolution are completely inhibited by DCMU at a concentration of 1 × 10−6 M. Germination is reduced in a low CO2 atmosphere and does not occur in the dark when glucose, maltose or inositol are supplied. It is concluded that photosynthesis is required for monospore germination.

KW - Bangia

KW - heterotrophic growth

KW - light quality

KW - monospore germination

KW - photon fluence rate

KW - photosynthesis

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LIGHT REQUIREMENTS FOR MONOSPORE GERMINATION IN BANGIA ATROPURPUREA (RHODOPHYTA)

Abstract

Keywords

ASJC Scopus subject areas

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