BIBLIOS

Document type
Journal articles

Document subtype
Full paper

Title
Root functioning, tree water use and hydraulic redistribution in Quercus suber trees: A modeling approach based on root sap flow

Participants in the publication
Teresa S. David (Author)
Clara A. Pinto (Author)
Nadezhda Nadezhdina (Author)
Cathy Kurz-Besson (Author)
INSTITUTO SUPERIOR DE AGRONOMIA
IDL
Manuel O. Henriques (Author)
Teresa Quilhó (Author)
Jan Cermak (Author)
M. Manuela Chaves (Author)
João S. Pereira (Author)
Jorge S. David (Author)

Summary
Mediterranean evergreen oaks have to survive a long summer drought. Roots may play a relevant role under these conditions. We studied their structure and function in a mature Quercus suber L. tree in central Portugal. The root system was mapped till the lowest water table level (4.5 m depth). Xylem anatomy was analyzed in a vertical profile belowground. Sap flow was continuously monitored for 1.5 yrs in the stem and roots of this intensively studied tree (heat field deformation method) and in the stem of four trees (Granier method), in relation to environmental variables and predawn leaf water potential. The sources of water uptake were assessed by stable isotope analyses in summer. Results showed a dimorphic root system with a network of superficial roots linked to sinker roots, and a taproot diverting into tangles of deep fine roots submerged for long periods, with parenchyma aerenchyma. Transpiration was not restricted in summer due to root access to groundwater. The isotopic δ18O signature of twig xylem water was similar to that of groundwater in the dry season. Two functional types of superficial roots were identified: shallow connected and deep connected roots. A modeling approach was built considering that each superficial root was linked to a sinker, with part of the root deep connected (between the stem and the sinker) and part shallow connected (between the sinker and topsoil). This conceptual framework simulated tree stem sap flow from root sap flow with a high efficiency (R2 = 0.85) in four plot trees.\\n\\nOn an annual basis, soil water and groundwater contributions were 69.5% and 30.5% of stem flow, respectively. Annual hydraulic lift and hydraulic descent were 0.9% and 37.0% of stem flow, respectively. The trees maximize the exploitation of the environmental resources by using the topsoil water during most of the year, and groundwater together with hydraulic lift (nutrient supply) in the dry summer. This study shows that a dimorphic root system, with roots reaching groundwater, is an efficient strategy of Q. suber trees to cope with seasonal drought. Knowledge of the functional behavior of Q. suber trees under shallow water table conditions may contribute to the definition of better adapted management practices and to anticipate their responses to climate change.


Where published
Forest Ecology and Management

Publication Identifiers
ISSN - 0378-1127

Publisher
Elsevier BV



Document Identifiers
DOI - https://doi.org/10.1016/j.foreco.2013.07.012
URL - http://dx.doi.org/10.1016/j.foreco.2013.07.012

Rankings
SCIMAGO Q1 (2018) - 1.43 - Forestry
SCOPUS Q1 (2017) - 1.625 - Forestry
Web Of Science Q1 (2018) - 3.126 - FORESTRY - SCIE