Impact of Simulated Herbivory on Water Relations of Aspen (Populus tremuloides) Seedlings: The Role of New Tissue in the Hydraulic Conductivity Recovery Cycle

Physiological mechanisms behind plant–herbivore interactions are commonly approached as input–output systems where the role of plant physiology is viewed as a black box. Studies evaluating impacts of defoliation on plant physiology have mostly focused on changes in photosynthesis while the overall i...

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Veröffentlicht in:Oecologia 2009-10, Vol.161 (4), p.665-671
Hauptverfasser: Gálvez, David A., Tyree, M. T.
Format: Artikel
Sprache:eng
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Zusammenfassung:Physiological mechanisms behind plant–herbivore interactions are commonly approached as input–output systems where the role of plant physiology is viewed as a black box. Studies evaluating impacts of defoliation on plant physiology have mostly focused on changes in photosynthesis while the overall impact on plant water relations is largely unknown. Stem hydraulic conductivity$(k_h )$, stem specific conductivity$(k_s )$, percent loss of hydraulic conductivity (PLC), CO₂ assimilation (A) and stomatal conductance$(g_s )$were measured on well-irrigated 1-month-old Populus tremuloides (Michx.) defoliated and control seedlings until complete refoliation. PLC values of defoliated seedlings gradually increased during the refoliation process despite them being kept well irrigated.$k_s $of defoliated seedlings gradually decreased during refoliation. PLC and$k_s $values of control seedlings remained constant during refoliation.$k_s $of new stems, leaf specific conductivity and A of leaves grown from new stems in defoliated and control seedlings were not significantly different, but$g_s $was higher in defoliated than in control seedlings. The gradual increase of PLC and decrease of$k_s $values in old stems after defoliation was unexpected under well-irrigated conditions, but appeared to have little impact on new stems formed after defoliation. The gradual loss of conductivity measured during the refoliation process under well-irrigated conditions suggests that young seedlings of P. tremuloides may be more susceptible to cavitation after herbivore damage under drought conditions.
ISSN:0029-8549
1432-1939
DOI:10.1007/s00442-009-1416-8