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OLS Field Name OLS Field Data
Main Title Iron-Induced Changes in Light Harvesting and Photochemical Energy Conversion Processes in Eukaryotic Marine Algae.
Author Greene, R. M. ; Geider, R. J. ; Kolber, Z. ; Falkowski, P. G. ;
CORP Author Brookhaven National Lab., Upton, NY. Oceanographic and Atmospheric Sciences Div.;Environmental Research Lab., Narragansett, RI.;Department of Energy, Washington, DC.;National Science Foundation, Washington, DC.;National Aeronautics and Space Administration, Washington, DC.
Publisher c1992
Year Published 1992
Report Number DE-AC02-76CH00016, NSF-OCE89-15084; EPA/600/J-93/210 ; ERLN-X210
Stock Number PB93-204931
Additional Subjects Algae ; Marine biology ; Energy metabolism ; Photosynthesis ; Iron ; Chlorophylls ; Photochemistry ; Fluorescence ; Cytochromes ; Growth ; Plant proteins ; Pigments ; Reprints ; Dunaliella tertiolecta ; Phaeodactylum tricornutum
Holdings
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NTIS  PB93-204931 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 08/23/1993
Collation 13p
Abstract The role of iron in regulating light harvesting and photochemical energy conversion processes was examined in the marine unicellular chlorophyte Dunaliella tertiolecta and the marine diatom Phaeodactylum tricornutum. In both species, iron limitation led to a reduction in cellular chlorophyll concentrations, but an increase in the in vivo, chlorophyll-specific, optical absorption cross-sections. Moreover, the absorption cross-section of photosystem II, a measure of the photon target area of the traps, was higher in iron-limited cells and decreased rapidly following iron addition. Iron-limited cells exhibited reduced variable/maximum fluorescence ratios and a reduced fluorescence per unit absorption at all wave-lengths between 400 and 575 nm. Following iron addition, variable/maximum fluorescence ratios increased rapidly, reaching 90 percent of the maximum within 18 to 25 h. Thus, although more light was absorbed per unit of chlorophyll, iron limitation reduced the transfer efficiency of excitation energy in photosystem II.
Supplementary Notes Pub. in Plant Physiology 100, p565-575 1992. Sponsored by Environmental Research Lab., Narragansett, RI., Department of Energy, Washington, DC., National Science Foundation, Washington, DC., and National Aeronautics and Space Administration, Washington, DC.
NTIS Title Notes Journal article.
Title Annotations Reprint: Iron-Induced Changes in Light Harvesting and Photochemical Energy Conversion Processes in Eukaryotic Marine Algae.
Category Codes 47D; 57C; 57B
NTIS Prices PC A03/MF A01
Primary Description 600/05
Document Type NT
Cataloging Source NTIS/MT
Control Number 321825502
Origin NTIS
Type CAT