Water Transport in Impaired Leaf Vein Systems

Abstract The subject of our investigation was the water regime of broad bean leaves (VICIA FABA L.), especially after having mechanically severed parts of the leaf blade and the leaf venation. Under moderate conditions, 18 - 22 °C temperature and 50 - 70 % relative humidity, the leaves remained viab...

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Veröffentlicht in:	Plant biology (Stuttgart, Germany) Germany), 2002-09, Vol.4 (5), p.603-611
Hauptverfasser:	Hüve, K., Remus, R., Lüttschwager, D., Merbach, W.
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Sprache:	eng
Schlagworte:	Leaf vein Original Paper water transport in leaves xylem
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creator	Hüve, K. Remus, R. Lüttschwager, D. Merbach, W.
description	Abstract The subject of our investigation was the water regime of broad bean leaves (VICIA FABA L.), especially after having mechanically severed parts of the leaf blade and the leaf venation. Under moderate conditions, 18 - 22 °C temperature and 50 - 70 % relative humidity, the leaves remained viable even after extensive damage. Only if more than 90 % of the xylem cross sectional area of a leaf was severed, the leaf wilted. Lesser damage to the xylem cross-sectional area only resulted in a reduced rate of transpiration and assimilation, compared to intact leaves. The cuts in larger veins were bypassed into small or even very small veins, as shown by xylem transport of dyes. In intact leaves, small veins have a negligible task in long-distance transport. Here, however, transport velocity in small veins was severalfold increased compared to the measurement of transport velocity in veins of the same size in intact leaves. Thereby, water transport to leaf areas distal from the cut was ensured.
doi_str_mv	10.1055/s-2002-35429
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Under moderate conditions, 18 - 22 °C temperature and 50 - 70 % relative humidity, the leaves remained viable even after extensive damage. Only if more than 90 % of the xylem cross sectional area of a leaf was severed, the leaf wilted. Lesser damage to the xylem cross-sectional area only resulted in a reduced rate of transpiration and assimilation, compared to intact leaves. The cuts in larger veins were bypassed into small or even very small veins, as shown by xylem transport of dyes. In intact leaves, small veins have a negligible task in long-distance transport. Here, however, transport velocity in small veins was severalfold increased compared to the measurement of transport velocity in veins of the same size in intact leaves. 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subjects	Leaf vein Original Paper water transport in leaves xylem
title	Water Transport in Impaired Leaf Vein Systems
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