Sap flux density and stomatal conductance of European beech and common oak trees in pure and mixed stands during the summer drought of 2003
Identifieur interne : 000504 ( Main/Exploration ); précédent : 000503; suivant : 000505Sap flux density and stomatal conductance of European beech and common oak trees in pure and mixed stands during the summer drought of 2003
Auteurs : F. Jonard [Belgique] ; F. Andre [Belgique] ; Q. Ponette [Belgique] ; C. Vincke [Belgique] ; M. Jonard [Belgique]Source :
- Journal of hydrology : (Amsterdam) [ 0022-1694 ] ; 2011.
Descripteurs français
- Pascal (Inist)
- Wicri :
- topic : Arbre, Sécheresse.
English descriptors
- KwdEn :
Abstract
Sap flux density of European beech and common oak trees was determined from sap flow measurements in pure and mixed stands during the summer drought of 2003. Eight trees per species and per stand were equipped with sap flow sensors. Soil water content was monitored in each stand at different depths by using time-domain reflectometry (TDR). Leaf area index and vertical root distribution were also investigated during the growing season. From sap flux density (SFD) data, mean stomatal conductance of individual trees (Gs) was calculated by inverting the Penman-Monteith equation. Linear mixed models were developed to analyse the effects of species and stand type (pure vs. mixed) on SFD and Gs and on their sensitivity to environmental variables (vapour pressure deficit (D), incoming solar radiation (RG), and relative extractable water (REW)). For reference environmental conditions, we did not find any tree species or stand type effects on SFD. The sensitivity of SFD to D was higher for oak than for beech in the pure stands (P < 0.0001) but the mixing of species reduced it for oak and increased it for beech, so that the sensitivity of SFD to D became higher for beech than for oak in the mixed stand (P < 0.0001). At reference conditions, Gs was significantly higher for beech compared to oak (2.1 and 1.8 times in the pure and mixed stand, respectively). This was explained by a larger beech sapwood-to-leaf area ratio compared to oak. The sensitivity of Gs to REW was higher for beech than for oak and was ascribed to a higher vulnerability of beech to air embolism and to a more sensitive stomatal regulation. The sensitivity of beech Gs to REW was lower in the mixed than in the pure stand, which could be explained by a better sharing of the resources in the mixture, by facilitation processes (hydraulic lift), and by a rainfall partitioning in favour of beech.
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Jonard</name><affiliation wicri:level="4"><inist:fA14 i1="01"><s1>Université catholique de Louvain, Earth and Life Institute, Environmental Sciences, Croix du Sud 2</s1><s2>1348 Louvain-la-Neuve</s2><s3>BEL</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ><sZ>5 aut.</sZ></inist:fA14><country>Belgique</country><placeName><region type="land" nuts="2">Vienne (Autriche)</region><settlement type="city">Vienne (Autriche)</settlement></placeName><orgName type="university">Université catholique de Louvain</orgName></affiliation></author><author><name sortKey="Andre, F" sort="Andre, F" uniqKey="Andre F" first="F." last="Andre">F. Andre</name><affiliation wicri:level="4"><inist:fA14 i1="01"><s1>Université catholique de Louvain, Earth and Life Institute, Environmental Sciences, Croix du Sud 2</s1><s2>1348 Louvain-la-Neuve</s2><s3>BEL</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ><sZ>5 aut.</sZ></inist:fA14><country>Belgique</country><placeName><region type="land" nuts="2">Vienne (Autriche)</region><settlement type="city">Vienne (Autriche)</settlement></placeName><orgName type="university">Université catholique de Louvain</orgName></affiliation></author><author><name sortKey="Ponette, Q" sort="Ponette, Q" uniqKey="Ponette Q" first="Q." last="Ponette">Q. Ponette</name><affiliation wicri:level="4"><inist:fA14 i1="01"><s1>Université catholique de Louvain, Earth and Life Institute, Environmental Sciences, Croix du Sud 2</s1><s2>1348 Louvain-la-Neuve</s2><s3>BEL</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ><sZ>5 aut.</sZ></inist:fA14><country>Belgique</country><placeName><region type="land" nuts="2">Vienne (Autriche)</region><settlement type="city">Vienne (Autriche)</settlement></placeName><orgName type="university">Université catholique de Louvain</orgName></affiliation></author><author><name sortKey="Vincke, C" sort="Vincke, C" uniqKey="Vincke C" first="C." last="Vincke">C. Vincke</name><affiliation wicri:level="4"><inist:fA14 i1="01"><s1>Université catholique de Louvain, Earth and Life Institute, Environmental Sciences, Croix du Sud 2</s1><s2>1348 Louvain-la-Neuve</s2><s3>BEL</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ><sZ>5 aut.</sZ></inist:fA14><country>Belgique</country><placeName><region type="land" nuts="2">Vienne (Autriche)</region><settlement type="city">Vienne (Autriche)</settlement></placeName><orgName type="university">Université catholique de Louvain</orgName></affiliation></author><author><name sortKey="Jonard, M" sort="Jonard, M" uniqKey="Jonard M" first="M." last="Jonard">M. Jonard</name><affiliation wicri:level="4"><inist:fA14 i1="01"><s1>Université catholique de Louvain, Earth and Life Institute, Environmental Sciences, Croix du Sud 2</s1><s2>1348 Louvain-la-Neuve</s2><s3>BEL</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ><sZ>5 aut.</sZ></inist:fA14><country>Belgique</country><placeName><region type="land" nuts="2">Vienne (Autriche)</region><settlement type="city">Vienne (Autriche)</settlement></placeName><orgName type="university">Université catholique de Louvain</orgName></affiliation></author></analytic><series><title level="j" type="main">Journal of hydrology : (Amsterdam)</title><title level="j" type="abbreviated">J. hydrol. : (Amst.)</title><idno type="ISSN">0022-1694</idno><imprint><date when="2011">2011</date></imprint></series></biblStruct></sourceDesc><seriesStmt><title level="j" type="main">Journal of hydrology : (Amsterdam)</title><title level="j" type="abbreviated">J. hydrol. : (Amst.)</title><idno type="ISSN">0022-1694</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Fagus</term><term>Quercus</term><term>air</term><term>density</term><term>depth</term><term>drought</term><term>flow</term><term>hydraulics</term><term>mixing</term><term>models</term><term>pressure</term><term>rainfall</term><term>regulations</term><term>resources</term><term>soils</term><term>solar radiation</term><term>time domain reflectometry</term><term>trees</term><term>water content</term></keywords><keywords scheme="Pascal" xml:lang="fr"><term>Densité</term><term>Arbre</term><term>Sécheresse</term><term>Ecoulement</term><term>Sol</term><term>Teneur eau</term><term>Profondeur</term><term>Réflectométrie domaine temporel</term><term>Modèle</term><term>Pression</term><term>Rayonnement solaire</term><term>Mixage</term><term>Air</term><term>Réglementation</term><term>Ressource</term><term>Hydraulique</term><term>Pluie</term><term>Fagus</term><term>Quercus</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Arbre</term><term>Sécheresse</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Sap flux density of European beech and common oak trees was determined from sap flow measurements in pure and mixed stands during the summer drought of 2003. Eight trees per species and per stand were equipped with sap flow sensors. Soil water content was monitored in each stand at different depths by using time-domain reflectometry (TDR). Leaf area index and vertical root distribution were also investigated during the growing season. From sap flux density (SFD) data, mean stomatal conductance of individual trees (G<sub>s</sub>) was calculated by inverting the Penman-Monteith equation. Linear mixed models were developed to analyse the effects of species and stand type (pure vs. mixed) on SFD and G<sub>s</sub> and on their sensitivity to environmental variables (vapour pressure deficit (D), incoming solar radiation (R<sub>G</sub>), and relative extractable water (REW)). For reference environmental conditions, we did not find any tree species or stand type effects on SFD. The sensitivity of SFD to D was higher for oak than for beech in the pure stands (P < 0.0001) but the mixing of species reduced it for oak and increased it for beech, so that the sensitivity of SFD to D became higher for beech than for oak in the mixed stand (P < 0.0001). At reference conditions, G<sub>s</sub> was significantly higher for beech compared to oak (2.1 and 1.8 times in the pure and mixed stand, respectively). This was explained by a larger beech sapwood-to-leaf area ratio compared to oak. The sensitivity of G<sub>s</sub> to REW was higher for beech than for oak and was ascribed to a higher vulnerability of beech to air embolism and to a more sensitive stomatal regulation. The sensitivity of beech G<sub>s</sub> to REW was lower in the mixed than in the pure stand, which could be explained by a better sharing of the resources in the mixture, by facilitation processes (hydraulic lift), and by a rainfall partitioning in favour of beech.</div></front></TEI><affiliations><list><country><li>Belgique</li></country><region><li>Vienne (Autriche)</li></region><settlement><li>Vienne (Autriche)</li></settlement><orgName><li>Université catholique de Louvain</li></orgName></list><tree><country name="Belgique"><region name="Vienne (Autriche)"><name sortKey="Jonard, F" sort="Jonard, F" uniqKey="Jonard F" first="F." last="Jonard">F. Jonard</name></region><name sortKey="Andre, F" sort="Andre, F" uniqKey="Andre F" first="F." last="Andre">F. Andre</name><name sortKey="Jonard, M" sort="Jonard, M" uniqKey="Jonard M" first="M." last="Jonard">M. Jonard</name><name sortKey="Ponette, Q" sort="Ponette, Q" uniqKey="Ponette Q" first="Q." last="Ponette">Q. Ponette</name><name sortKey="Vincke, C" sort="Vincke, C" uniqKey="Vincke C" first="C." last="Vincke">C. Vincke</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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