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Photoinhibition of the CAM succulent Opuntia basilaris growing in Death Valley: evidence from 77K fluorescence and quantum yield (1987)

Adams, W. W. ; Smith, S. D. ; Osmond, C. B.

Springer

Oecologia 71 (1987), S. 221-228

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ISSN: 1432-1939

Keywords: Photoinhibition ; Crassulacean acid metabolism (CAM) ; 77K fluorescence ; Quantum yield ; Stress physiology

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Diurnal measurements of low temperature (77K) fluorescence at 690 nm (PS II) from north, south, east, and west facing cladode surfaces of Opuntia basilaris in Death Valley, California were made on six occasions during 1985. The absolute levels of F o(instantaneous fluorescence) and F m(maximum fluorescence), as well as the ratio F v/F m(variable fluorescence, F m-F o, over maximum fluorescence), were greater in the north face relative to the other faces. Diurnal decreases in F o, F mand F v/F mwere found concomitant with increases in incident photon flux area density (PFD). F v/F mwas fairly low throughout the year, indicative of photoinhibition, but became somewhat elevated after a spring rain. In early fall the quantum yield of the south face was considerably depressed relative to that of the north face, and corresponding differences were observed in F v/F m. A decrease in PFD during growth of glasshouse plants led to an increase in chlorophyll concentration, F oand F m, but not F v/F m. Although there was some variability in the quantum yield of well watered glasshouse cladodes, a correlation was found between quantum yield and the light and CO2 saturated rate of photosynthesis. When O. basilaris was water stressed under glasshouse conditions, reductions in quantum yield, F m, and F v/F mwere observed. Reductions in F v/F malways indicated a reduced quantum yield, although the converse was not necessarily so in well watered glasshouse plants. The results of this study indicate that O. basilaris is likely to experience photoinhibition throughout much of its life in Death Valley.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00377287

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Photosystem II function and herbicide binding sites during photoinhibition of spinach chloroplasts in-vivo and in-vitro (1989)

Chow, W. S. ; Osmond, C. B. ; Huang, Lin Ke

Springer

Photosynthesis research 21 (1989), S. 17-26

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ISSN: 1573-5079

Keywords: chlorophyll fluorescence ; herbicide binding ; photoinhibition ; photosynthesis ; photosystem II ; temperature

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The time courses of some Photosystem II (PS II) parameters have been monitored during in-vivo and in-vitro photoinhibition of spinach chloroplasts, at room temperature and at 10 °C or 0 °C. Exposing leaf discs of low-light grown spinach at 25 °C to high light led to photoinhibition of chloroplasts in-vivo as manifested by a parallel decrease in the number of functional PS II centres, the variable chlorophyll fluorescence at 77K (F v /F m ), and the number of atrazine-binding sites. When the photoinhibitory treatment was given at 10 °C, the former two parameters declined in parallel but the loss of atrazine-binding sites occurred more slowly and to a lesser extent. During in-vitro photoinhibition of chloroplast thylakoids at 25 °C, the loss of functional PS II centres proceeded slightly more rapidly than the loss of atrazine-binding sites, and this difference in rate was further increased when the thylakoids were photoinhibited at 0 °C. During the recovery phase of leaf discs (up to 9 h) the increases in F v /F m preceded that of the number of functional PS II centres, while only a further decline in the number of atrazine-binding sites was observed. The recovery of variable chlorophyll fluorescence and the concentration of functional PS II centres occurred more rapidly at 25 °C than at 10 °C. These results suggest that the photoinhibition of PS II function is a relatively temperature-independent early photochemical event, whereas the changes in the concentration of herbicide-binding sites appear to be a more complex biochemical process which can occur with a delayed time course.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00047171

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