Hydraulic responses to height growth in maritime pine trees |
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Authors: | S. DELZON,M. SARTORE,R. BURLETT,R. DEWAR,& D. LOUSTAU |
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Affiliation: | INRA –EPHYSE, 69 route d'Arcachon, 33612 Gazinet cedex, France;and INRA –EPHYSE, Centre de Bordeaux, BP81, 33883 Villenave d'Ornon, France |
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Abstract: | As trees grow taller, decreased xylem path conductance imposes a major constraint on plant water and carbon balance, and is thus a key factor underlying forest productivity decline with age. The responses of stomatal conductance, leaf area: sapwood area ratio (AL : AS) and soil–leaf water potential gradient (ΔΨS–L) to height growth were investigated in maritime pine trees. Extensive measurements of in situ sap flow, stomatal conductance and (non‐gravitational) needle water potential (L = ΨL ? ρwgh) were made during 2 years in a chronosequence of four even‐aged stands, under both wet and dry soil conditions. Under wet soil conditions, L was systematically lower in taller trees on account of differences in gravitational potential. In contrast, under dry soil conditions, our measurements clearly showed that L was maintained above a minimum threshold value of ?2.0 MPa independently of tree height, thus limiting the range of compensatory change in ΔΨS–L. Although a decrease in the AL : AS ratio occurred with tree height, this compensation was not sufficient to prevent a decline in leaf‐specific hydraulic conductance, KL (50% lower in 30 m trees than in 10 m trees). An associated decline in stomatal conductance with tree height thus occurred to maintain a balance between water supply and demand. Both the increased investment in non‐productive versus productive tissues (AS : AL) and stomatal closure may have contributed to the observed decrease in tree growth efficiency with increasing tree height (by a factor of three from smallest to tallest trees), although other growth‐limiting responses (e.g. soil nutrient sequestration, increased respiratory costs) cannot be excluded. |
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Keywords: | Pinus pinaster hydraulic conductance stomatal regulation tree height water potential |
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