Imaging chlorophyll a fluorescence reveals specific spatial distributions under different stress conditions |
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Authors: | Ana Martí nez-Peñ alver,Manuel J. Reigosa,Adela M. Sá nchez-Moreiras |
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Affiliation: | Laboratory of Plant Ecophysiology, Faculty of Biology, University of Vigo, Campus Lagoas-Marcosende s/n, E-36310 Vigo, Spain |
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Abstract: | Chlorophyll a fluorescence has been adopted as a fast, non-invasive, and cheap method to detect stress effects in plants. The majority of these chl-fluorescence measurements have been carried out with ‘clamping’ fluorometers recording punctual chlorophyll a fluorescence at isolated parts of the leaf. However, this method is inherently limited in providing information on the homogeneity of responses to stresses at the leaf or whole plant level. Therefore the purpose of this study was to measure imaging chlorophyll a fluorescence and to compare the temporal and spatial distribution of this emission under allelochemical (2-3H-benzoxazolinone and 3,4-dihydroxybenzaldehyde), thermal and salt, and heavy metal (cadmium, copper and zinc) treatment in the model plant Arabidopsis thaliana (L.) Heynh. The results suggested different spatial distributions for each condition: the two allelochemicals showed inhibition spots at the edges of the oldest leaves and both did not affect the photosynthetic activity of young leaves; treatment with the three heavy metals revealed highly homogenous effects over the whole plant with a quite uniform decrease of maximum PSII efficiency (also in youngest leaves). On the contrary, temperature (heat and cold) and salt stress showed an initial decrease of fluorescence in the tissues around the vascular bundles that lasted between 2 and 3 h depending on the treatment. These irregularities in chlorophyll fluorescence make it difficult to correlate punctual measures (typical for clamping fluorometers) with the effect on the whole plant, ignoring effects that are evident when imaging is used. Therefore these results show that monitoring chlorophyll a fluorescence by imaging improves the measurement of stress effects on treated plants, suggesting that punctual fluorescence measurements do not always reveal the heterogeneity of the stress-related effects in treated plants. |
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Keywords: | Maximum PSII efficiency Allelochemicals Salt stress Heavy metals Spatial distribution |
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