Lucie Lorrain scite author profile

Lucie Lorrain

3Publications

30Citation Statements Received

55Citation Statements Given

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Affiliations

Lab_Bell (Canada), Université du Québec à Trois-Rivières, Poznań University of Technology

Publications

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In vivo measurement of spectroscopic and photochemical properties of intact leaves using the ‘mirage effect’

1989

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This paper describes a new, highly sensitive, method for in vivo studies of photosynthesis based on the 'mirage effect' in which thermal energy dissipation from intact leaves, illuminated with intensity-modulated light, is sensed through the periodic deflection of a laser beam propagating along the leaf surface. The photothermal deflection technique allows one to rapidly estimate the gross efficiency of photochemical energy storage by comparing the heat emission signal with and without an additional strong, photosynthetically saturating, non-modulated light. In pea leaves, the maximal storage efficiency at low light intensities was shown to approach 55%. The general utility of this simple photothermal method is illustrated by examining the variation of the deflection signal under different conditions. The spectral resolution of this new method is shown to be much higher than that of the photoacoustic method.

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Photothermal beam deflection: a new method for in vivo measurements of thermal energy dissipation and photochemical energy conversion in intact leaves

1990

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A novel photosynthetic technique, photothermal deflection spectroscopy, is presented which is based on the 'mirage effect' and allows the rapid measurement of thermal deactivation of excited pigments in leaf samples placed in an open cell. Modulated heat emission from leaves illuminated with intensity-modulated light was measured via the detection of the periodic deflection of a laser beam parallel to the sample surface. Photothermal deflection signals can be monitored in vivo in leaves placed in various, liquid or gaseous, environments with a satisfactory signal-to-noise ratio close to 60-80 (in distilled water) at low modulation frequencies (below 50 Hz). Using this new and simple photothermal method, it was possible to easily obtain useful information on the leaf photochemical activity and its light-saturation characteristics under normal or stress conditions, suggesting that in vivo deflection signals could be used for assaying the photosynthetic state of health of crop plants. The beam deflection method presented in this paper appears to be a potentially useful photosynthetic tool complementary to the related photoacoustic technique.

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Polarized absorption, fluorescence and photoacoustic spectra of phycobilisomes embedded in poly(vinyl alcohol) films

Fra̧ckowiak

Erokhina²,

Balter

et al. 1986

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Lucie Lorrain

In vivo measurement of spectroscopic and photochemical properties of intact leaves using the ‘mirage effect’

Photothermal beam deflection: a new method for in vivo measurements of thermal energy dissipation and photochemical energy conversion in intact leaves

Polarized absorption, fluorescence and photoacoustic spectra of phycobilisomes embedded in poly(vinyl alcohol) films

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