REAL

Diurnal and seasonal changes in stem radius increment and sap flow density indicate different responses of two co-existing oak species to environmental stress

Mészáros, Ilona and Kanalas, Péter and Fenyvesi, András and Kiss T., János and Nyitrai, Balázs and Szőllősi, Erzsébet and Oláh, Viktor and Ander, István (2011) Diurnal and seasonal changes in stem radius increment and sap flow density indicate different responses of two co-existing oak species to environmental stress. ACTA SILVATICA ET LIGNARIA HUNGARICA, 7. pp. 97-108. ISSN 1786-691X

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Abstract

Using continuous monitoring of stem radius combined with sap flow measurements we assessed the effects of environmental conditions on tree radial growth and water status of two co- existing oak species ( Quercus petraea and Quercus cerris ) at high resolution time in growing seasons of 2008 and 2009. The forest (95–100 yr) is situated in a xeric site in the transition zone between forested and forest-steppe regions in north -eastern Hungary, Bükk mountains (47 o 90’N, 20 o 46’E, elevation 320–340 m a.s.l.). Weather conditio ns in the growing season of 2008 (total rainfall 354 mm, mean daily temperature 17.0 o C) was less extreme than in 2009 (total rainfall 299 mm, temperature 17.9 o C). Rainfall strongly determined the course of radi al growth increment in trees. Radial growth of trees was limited in 200 9 due to the drought in spring. The maximum radial increment of both species was achieved three weeks earlier (4 th week of June) than in 2008 (4 th week of July). We used dendrometer monitoring data for estimation of stem (tree) water deficit ( ∆ W) by measuring water-related changes in stem radiu s (Zweifel et al. 2005). The magnitude of tree water deficit variation ( ∆ W) was always smaller in Q. cerris than in Q. petraea. In contrast, Quercus cerris always exhibited larger daytime averages and maxima of sap flow density. In August of 2009 when drought became seve re there were larger increases in tree water deficit ( ∆ W) (50–55 %) in both species compared to July as it could be expected from the extent of decreases in sap flow density (24–28%). Our data suggested that due to the low SWC the transpiration was supported mainly from the inner w ater storage of trees during prolonged drought which resulted in high stem water deficit ( ∆ W).

Item Type: Article
Uncontrolled Keywords: Biological and Medical Sciences,
Subjects: Q Science / természettudomány > QK Botany / növénytan > QK10 Plant physiology / növényélettan
SWORD Depositor: MTMT SWORD
Depositing User: MTMT SWORD
Date Deposited: 09 Oct 2014 13:54
Last Modified: 09 Oct 2014 13:54
URI: http://real.mtak.hu/id/eprint/17635

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