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1

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Stomatal mechanism as the basis of evolution of crassulacean acid metabolism (1985)

KEELEY, J. E. ; OSMOND, C. B. ; RAVEN, J. A.

[s.l.] : Nature Publishing Group

Nature 314 (1985), S. 200-200

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] KEELEY ET AL. REPLY-We agree with Cockburn that, although the presence of CAM in astomatous Stylites does not support his theory on the stomatal origin of CAM, it does not necessarily falsify the theory either. We also agree with Thomas that Stylites most reasonably should be included with ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/314200c0

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Regulation of malic-acid metabolism in Crassulacean-acid-metabolism plants in the dark and light: In-vivo evidence from 13C-labeling patterns after 13CO2 fixation (1988)

Osmond, C. B. ; Holtum, J. A. M. ; O'Leary, M. H. ; [et al.]

Springer

Planta 175 (1988), S. 184-192

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ISSN: 1432-2048

Keywords: Carbon dioxide fixation (dark) ; Crassulacean acid metabolism ; Fumarase ; Malic acid ; Phosphoenolpyruvate carboxylase ; Ribulose-1,5-bisphosphate carboxylase

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The labeling patterns in malic acid from dark 13CO2 fixation in seven species of succulent plants with Crassulacean acid metabolism were analysed by gas chromatography-mass spectrometry and 13C-nuclear magnetic resonance spectrometry. Only singly labeled malic-acid molecules were detected and on the average, after 12–14 h dark 13CO2 fixation the ratio of [4-13C] to [1-13C] label was 2:1. However the 4-C carboxyl contained from 72 to 50% of the label depending on species and temperature. The 13C enrichment of malate and fumarate was similar. These data confirm those of W. Cockburn and A. McAuley (1975, Plant Physiol. 55, 87–89) and indicate fumarase randomization is responsible for movement of label to 1-C malic acid following carboxylation of phosphoenolpyruvate. The extent of randomization may depend on time and on the balance of malic-acid fluxes between mitochondria and vacuoles. The ratio of labeling in 4-C to 1-C of malic acid which accumulated following 13CO2 fixation in the dark did not change during deacidification in the light and no doubly-labeled molecules of malic acid were detected. These results indicate that further fumarase randomization does not occur in the light, and futile cycling of decarboxylation products of [13C] malic acid (13CO2 or [1-13C]pyruvate) through phosphoenolpyruvate carboxylase does not occur, presumably because malic acid inhibits this enzyme in the light in vivo. Short-term exposure to 13CO2 in the light after deacidification leads to the synthesis of singly and multiply labeled malic acid in these species, as observed by E.W. Ritz et al. (1986, Planta 167, 284–291). In the shortest times, only singly-labeled [4-13C]malate was detected but this may be a consequence of the higher intensity and better detection statistics of this ion cluster during mass spectrometry. We conclude that both phosphoenolpyruvate carboxylase (EC 4.1.1.32) and ribulose-1,5-biphosphate carboxylase (EC 4.1.1.39) are active at this time.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392426

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Stem photosynthesis in a desert ephemeral, Eriogonum inflatum (1987)

Osmond, C. B. ; Smith, S. D. ; Gui-Ying, B. ; [et al.]

Springer

Oecologia 72 (1987), S. 542-549

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ISSN: 1432-1939

Keywords: Eriogonum inflatum ; Internal CO2 concentration ; Stem photosynthesis ; Water-use efficiency ; Water stress

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The gas exchange characteristics of photosynthetic tissues of leaves and stems of Eriogonum inflatum are described. Inflated stems were found to contain extraordinarily high internal CO2 concentrations (to 14000 μbar), but fixation of this internal CO2 was 6–10 times slower than fixation of atmospheric CO2 by these stems. Although the pool of CO2 is a trivial source of CO2 for stem photosynthesis, it may result in higher water-use efficiency of stem tissues. Leaf and stem photosynthetic activities were compared by means of CO2 fixation in CO2 response curves, light and temperature response curves in IRGA systems, and by means of O2 exchange at CO2 saturation in a leaf disc O2 electrode system. On an area basis leaves contain about twice the chlorophyll and nitrogen as stems, and are capable of up to 4-times the absolute CO2 and O2 exchange rates. However, the stem shape is such that lighting of the shaded side leads to a substantial increase in overall stem photosynthesis on a projected area basis, to about half the leaf rate in air. Stem conductance is lower than leaf conductance under most conditions and is less sensitive to high temperature or high VPD. Under most conditions, the ratio C i /C a is lower in stems than in leaves and stems show greater water-use efficiency (higher ratio assimilation/transpiration) as a function of VPD. This potential advantage of stem photosynthesis in a water limited environment may be offset by the higher VPD conditions in the hotter, drier part of the year when stems are active after leaves have senesced. Stem and leaf photosynthesis were similarly affected by decreasing plant water potential.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00378980

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Crassulacean acid metabolism in the shade. Studies on an epiphytic fern, Pyrrosia longifolia, and other rainforest species from Australia (1986)

Winter, K. ; Osmond, C. B. ; Hubick, K. T.

Springer

Oecologia 68 (1986), S. 224-230

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ISSN: 1432-1939

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Crassulacean acid metabolism (CAM) was studied in a tropical epiphytic fern, Pyrrosia longifolia, from a fully sun-exposed and from a very shaded site in Northern Queensland, Australia. Measurements of instantaneous net CO2 exchange showed carbon gain via CO2 dark fixation with some net CO2 uptake also occuring during late afternoon, in both sun and shade fronds. Maximum rates of net CO2 uptake and the nocturnal increase in titratable acidity were lower in shade than in sun fronds. δ13C values of sun and shade fronds were not significantly different, and ranged between-14 and-15‰ suggesting that, in the long term, carbon gain was mainly via CO2 dark fixation. Sun fronds had a higher light compensation point of photosynthesis than shade fronds but the same quantum yield. Yet there was no acclimation of photosynthetic O2 evolution, (measured at 5% CO2) in sun and shade fronds and photosynthesis saturated at between 200 and 400 μmol quanta m-2 s-1. Use of higher light intensities for photosynthesis of sun fronds was probably precluded by low nutrient availability. Total nitrogen was less than 1% of dry weight in fully expanded sun and shade fronds. Exposure of shade fronds to full sunlight for 6 h led to a 60% decline in the quantum yield of photosynthesis and to a decline in variable fluorescence measured at room temperature. Photoinhibition by high light was also observed in Hoya nicholsoniae, a rainforest climber growing in deep shade. This species also exhibited CAM as demonstrated by nocturnal net CO2 uptake, nocturnal acidification and a δ13C value of-14‰. Photosynthetic O2 evolution in this species was saturated at 2.5% of full sunlight. Two species of Dendrobium (Orchidaceae) from sun-exposed sites, one species exhibiting CAM and the other one exhibiting net CO2 uptake exclusively during daytime via conventional C3 photosynthesis, showed similar light response curves and the same quantum yield for photosynthetic O2 evolution.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00384791

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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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Stem photosynthesis in a desert ephemeral, Eriogonum inflatum (1987)

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

Springer

Oecologia 72 (1987), S. 533-541

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ISSN: 1432-1939

Keywords: δ13C ; Eriogonum inflatum ; Great Basin ; Mojave ; Photosynthetic morphology ; Stem photosynthesis ; Water-use efficiency

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Seasonal patterns in plant morphology, phenology, and physiology were monitored in several populations of Eriogonum inflatum, a desert ephemeral which produces a large photosynthetic inflorescence above a basal leaf rosette. Green stems accounted for 66–77% of whole plant photosynthetic surface area when integrated over a developmental cycle, whereas only 40–67% of the yearly transpirational water loss could be attributed to stems. Stems were found to have lower nitrogen and chlorophyll contents than leaves, and lower stomatal conductance under all physiological conditions encountered. However, because stems occur later in the year than leaves, comparison of physiological patterns was complicated by the two structures being exposed to different climatic regimes during their developmental cycles. Stems exhibited higher δ13C values than leaves, indicating that stems operated at higher water-use efficiencies than leaves, at least during periods when both leaves and stems were present. Higher water-use efficiency in stems of E. inflatum is attributed to both more conservative water use patterns and to their vertical orientation, allowing stems to remain photosynthetically active longer into the dry season after senescence of the horizontal leaf rosette.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00378979

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Control of photosynthesis by the carbohydrate level in leaves of the C4 plant Amaranthus edulis L. (1989)

Blechschmidt-Schneider, S. ; Ferrar, P. ; Osmond, C. B.

Springer

Planta 177 (1989), S. 515-525

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ISSN: 1432-2048

Keywords: Amaranthus ; Carbohydrate accumulation ; Chilling treatment ; Sucrose inhibition of photosynthesis ; Phloem translocation ; Photosynthesis (C4 plant)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Photosynthesis was studied in relation to the carbohydrate status in intact leaves of the C4 plant Amaranthus edulis. The rate of leaf net CO2 assimilation, stomatal conductance and intercellular partial pressure of CO2 remained constant or showed little decline towards the end of an 8-h period of illumination in ambient air (340 μbar CO2, 21% O2). When sucrose export from the leaf was inhibited by applying a 4-h cold-block treatment (1°C) to the petiole, the rate of photosynthesis rapidly decreased with time. After the removal of the cold block from the petiole, further reduction in photosynthetic rate occurred, and there was no recovery in the subsequent light period. Although stomatal conductance declined with time, intercellular CO2 partial pressure remained relatively constant, indicating that the inhibition of photosynthesis was not primarily caused by changes in stomatal aperture. Analysis of the leaf carbohydrate status showed a five- to sixfold increase in the soluble sugar fraction (mainly sucrose) in comparison with the untreated controls, whereas the starch content was the same. Leaf osmotic potential increased significantly with the accumulation of soluble sugars upon petiole chilling, and leaf water potential became slightly more negative. After 14 h recovery in the dark, photosynthesis returned to its initial maximum value within 1 h of illumination, and this was associated with a decline in leaf carbohydrate levels overnight. These data show that, in Amaranthus edulis, depression in photosynthesis when translocation is impaired is closely related to the accumulation of soluble sugars (sucrose) in source leaves, indicating feedback control of C4 photosynthesis. Possible mechanisms by which sucrose accumulation in the leaf may affect the rate of photosynthesis are discussed with regard to the leaf anatomy of C4 plants.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392620

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8

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Hydrogen-isotope composition of leaf water in C3 and C4 plants: its relationship to the hydrogen-isotope composition of dry matter (1985)

Leaney, F. W. ; Osmond, C. B. ; Allison, G. B. ; [et al.]

Springer

Planta 164 (1985), S. 215-220

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ISSN: 1432-2048

Keywords: C3, C4 plants (H-isotope composition) ; Deuterium ; Hydrogen-isotope composition ; Leaf (H-isotope composition)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The natural abundance hydrogen-isotope composition of leaf water ( $$\delta _{\text{D}}^{{\text{H}}_{\text{2}} {\text{O}}} $$ ) and leaf organic matter (δ D org ) was measured in leaves of C3 and C4 dicotyledons and monocotyledons. The $$\delta _{\text{D}}^{{\text{H}}_{\text{2}} {\text{O}}} $$ value of leaf water showed a marked diurnal variation, greatest enrichment being observed about midday. However, this variation was greater in the more slowly transpiring C4 plants than in C3 plants under comparable environmental conditions. A model based on analogies with a constant feed pan of evaporating water was developed and the difference between C3 and C4 plants expressed in terms of either differences in kinetic enrichment or different leaf morphology. Microclimatic and morphological features of the leaves which may be associated with this factor are discussed. There was no daily excursion in the δ D org value in leaves of either C3 or C4 plants. When δ D org values were referenced to the mean $$\delta _{\text{D}}^{{\text{H}}_{\text{2}} {\text{O}}} $$ values during the period of active photosynthesis, the discrimination against deuterium during photosynthetic metabolism (ΔD) was greater in C3 plants (-117 to -121‰) than in C4 plants (-86 to -109‰). These results show that the different water use “strategies” of C3 and C4 plants are responsible for the measured difference in deuterium-isotope composition of leaf water. However, it is unlikely that these physical processes account fully for the differences in hydrogen-isotope composition of the products of C3 and C4 photosynthetic metabolism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00396084

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Nitrogen supply as a factor influencing photoinhibition and photosynthetic acclimation after transfer of shade-grown Solanum dulcamara to bright light (1986)

Ferrar, P. J. ; Osmond, C. B.

Springer

Planta 168 (1986), S. 563-570

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ISSN: 1432-2048

Keywords: Nitrogen nutrition and photosynthesis ; Photoinhibition of photosynthesis ; Photosynthesis (acclimation) ; Solanum (photosynthetic acclimation)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract We have compared the ability of shadegrown clones of Solamum dulcamara L. from shade and sun habitats to acclimate to bright light, as a function of nitrogen nutrition before and after transfer to bright light. Leaves of S. dulcamara grown in the shade with 0.6 mM NO 3 - have similar photosynthetic properties as leaves of plants grown with 12.0 mM NO 3 - . When transferred to bright light for 1–2 d the leaves of these plants show substantial photoinhibition which is characterized by about 50% decrease in apparent quantum yield and a reduction in the rate of photosynthesis in air at light saturation. Photoinhibition of leaf photosynthesis is associated with reduction in the variable component of low-temperature fluorescence emission, and with loss of in-vitro electron transport, especially of photosystem II-dependent processes. We find no evidence for ecotypic differentiation in the potential for photosynthetic acclimation among shade and sun clones of S. dulcamara, or of differentiation with respect to nitrogen requirements for acclimation. Recovery from photoinhibition and subsequent acclimation of photosynthesis to bright light only occurs in leaves of plants provided with 12.0 mM NO 3 - . In these, apparent quantum yield is fully restored after 14 d, and photosynthetic acclimation is shown by an increase in light-saturated photosynthesis in air, of light-and CO2-saturated photosynthesis, and of the initial slope of the CO2-response curve. The latter changes are highly correlated with changes in ribulose-bisphosphate-carboxylase activity in vitro. Plants supplied with 0.6 mM NO 3 - show incomplete recovery of apparent quantum yield after 14 d, but CO2-dependent leaf photosynthetic parameters return to control levels.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392277

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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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