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Two path length effects emerging from ontogenetically stable axial xylem design affect the conductance of inner sapwood rings
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  • Giai Petit,
  • Maurizio Mencuccini,
  • Marco Carrer,
  • Angela Luisa Prendin,
  • Teemu Holtta
Giai Petit
Università degli Studi di Padova Dept TeSAF Viale dell’Università 16 35020 Legnaro (PD) Italy

Corresponding Author:[email protected]

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Maurizio Mencuccini
CREAF Bellaterra (Cerdanyola del Vallès) E08193 Spain
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Marco Carrer
Università degli Studi di Padova Dept TeSAF Viale dell’Università 16 35020 Legnaro (PD) Italy
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Angela Luisa Prendin
Università degli Studi di Padova Dept TeSAF Viale dell’Università 16 35020 Legnaro (PD) Italy
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Teemu Holtta
Institute for Atmospheric and Earth System Research / Forest Sciences Faculty of Agriculture and Forestry University of Helsinki Latokartanonkaari 7 FI 00014 Helsinki Finland
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Abstract

The process of sapwood/heartwood transition in trees is not fully understood. We tested whether the ontogenetically-stable apex-to-base conduit widening generates path length effects limiting the conductance of inner sapwood rings. The axial scaling ( b) of conduit hydraulic diameter ( Dh) was estimated at annual resolution in a spruce and beech tree. We compiled a global dataset of sapwood ring number ( NSWr), their average width ( SWrw), tree height ( H) and stem elongation rate ( ΔH) in conifer and angiosperm trees. A numerical model simulated the effects of H and ΔH on the conductance of each xylem ring ( KRING). b resulted ontogenetically stable. Simulations well predicted the observed patterns of increasing NSWr with H and decreasing NSWr with ΔH, assuming that heartwood forms when the marginal conductance gain of maintaining the functionality of an inner ring becomes negligible. Sapwood/heartwood transition minimizes the C costs associated to allocation to secondary growth and maintenance of living sapwood required to attain a given sapwood conductance. The number of sapwood rings depends on the effects of H and ΔH on the conductance of inner sapwood rings. The width of sapwood rings contributes to compensate for the lower conductance of inner sapwood rings at high ΔH.
13 Sep 2023Published in Journal of Experimental Botany volume 74 issue 17 on pages 5072-5087. https://doi.org/10.1093/jxb/erad227