Ice formation and tissue response in apple twigs |
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| Authors: | E N ASHWORTH P ECHLIN R S PEARCE T L HAYES |
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| Institution: | United States Department of Agriculture, Agricultural Research Service, Appalachian Fruit Research Station, Kearneysville, WV 25430, U.S.A.;Botany School, University of Cambridge, Cambridge, U.K.;Department of Agricultural Botany, University of Newcastle upon Tyne, Newcastle upon Tyne, U.K.;Donner Laboratory, Lawrence Berkeley Laboratory, University of California, Berkeley, CA, U.S.A. |
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| Abstract: | Abstract. The response of apple twig tissue to a freezing stress was examined using a combination of low temperature scanning electron microscopy and freeze substitution techniques. Bark and wood tissues responded differently. In the bark, large extracellular ice crystals were observed in the cortex. The adjacent cortical cells collapsed and a large reduction in cell volume was observed. The extent of cell collapse throughout the bark was not uniform. Cells in the periderm, phloem and cambium exhibited little change in cell volume compared to cortical cells. Large extracellular ice crystals were not observed in the xylem or pith tissues. The xylem ray parenchyma and pith cells did not collapse in response to a freezing stress, but retained their original shape. The pattern of ice formation and cell response was not observed to change with season or the level of cold acclimation. This study supported the concept that bark and xylem tissues exhibit contrasting freezing behaviour. The observations were consistent with the idea that water in bark freezes extracellularly while water in xylem ray parenchyma and pith cells may supercool to temperatures approaching –40 °C prior to freezing intracellularly. |
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| Keywords: | Malus domestica Rosaceae apple freezing injury low-temperature scanning electron microscopy freeze substitution |
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