2014
DOI: 10.1007/s10342-014-0801-y
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The anatomical traits of trunk wood and their relevance to oak (Quercus robur L.) vitality

Abstract: Oaks' decline in vitality is attributed to a complex process that involves interactions of several factors leading to increased trees' mortality. This study investigates the structure of trunk wood of oaks with reference to its physiological role in hydraulic conductivity. On the basis of the crown condition, the oaks were classified into three health groups: healthy trees, declining trees and dead trees. Anatomical traits of wood, such as annual ring width, vessel density, vessel diameter of earlywood and the… Show more

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Cited by 23 publications
(22 citation statements)
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“…), its ability to strongly reduce stomatal conductance during drought (Bréda et al. ), or the ability to shed twigs (cladoptosis) to reduce transpiration (Rust and Roloff ; Tulik ). The latter may be particularly important for the lagged response to drought, since leaf area is reduced for several years and resources need to be re‐allocated to the growth of twigs and leaves, such that less carbon is available for stem growth.…”
Section: Discussionmentioning
confidence: 99%
“…), its ability to strongly reduce stomatal conductance during drought (Bréda et al. ), or the ability to shed twigs (cladoptosis) to reduce transpiration (Rust and Roloff ; Tulik ). The latter may be particularly important for the lagged response to drought, since leaf area is reduced for several years and resources need to be re‐allocated to the growth of twigs and leaves, such that less carbon is available for stem growth.…”
Section: Discussionmentioning
confidence: 99%
“…On the other hand, Tulik and Bijak (2016) found a less significant effect of climate on oak decline. In declined oaks, repeated ecophysiological stress resulted in a decrease in the earlywood-vessel diameter and consequently in the reduction of the hydraulic conductivity (Tulik 2014). Smaller earlywood vessels can also be produced as a result of unsuitable weather conditions in the previous summer or low temperatures at the end of winter and in early spring (Garcia-González and Eckstein 2003;Fonti and GarciaGonzález 2008;González-González et al 2013a, b) or flooding (George et al 2002;Gričar et al 2013).…”
Section: Introductionmentioning
confidence: 99%
“…Levanic et al (2011) stated that periods of low growth rates preceding mortality are consistent with the carbon starvation mechanism of decline, but this does not exclude reduced water transport capacity in the final years before death, due to a low xylem production. Moreover, the reduced growth rate has been observed not only within the period of dieback symptoms occurrence, but also during the whole life of declining trees (Tulik 2014). However, in other studies on oak decline higher growth rates have been described in trees prone to drought-induced damage, particularly in temperate areas where water shortage rarely occurs (Levanic et al 2011).…”
Section: Iforest -Biogeosciences and Forestrymentioning
confidence: 99%