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Tropentag 2008, October 7 - 9, Hohenheim, Germany

"Competition for Resources in a Changing World - New Drive for Rural Development"

Water Relations in Native Trees, Northeastern Mexico

Ivan Alexander Molina Camarillo1, Humberto González Rodríguez1, Israel Cantú Silva1, Roque G. Ramírez Lozano2, Marco V. Gómez Meza2, Marisela Pando Moreno1

1University of Nuevo Leon, Faculty of Forest Sciences, Mexico
2University of Nuevo León, Faculty of Economics, Mexico


Native trees and shrubs that grow in the semiarid regions of northeastern Mexico are very important feed resources for range ruminants and white-tailed deer. They also provide high quality fuel wood and timber for fencing of range land and construction of domestic goods. Since water stress is the most limiting factor in this region, the present work was focused to investigate the relation and the effect of diurnal and seasonal leaf water potentials (Ψ) of native tree species on soil water availability and evaporative demand components. Water potential is the index of water stress. This study was carried out at the Faculty of Forest Sciences of the University of Nuevo Leon (24° 47'N; 99° 32'W; 350 m asl) Mexico. The tree species included in this study were: Cordia boissieri (Boraginaceae), Condalia hookeri (Rhamnaceae), Diospyros texana (Ebenaceae) and Bumelia celastrina (Sapotaceae). Determinations of Ψ in the four tree species were made at 10 days intervals between July 10 and November 30, 2007 by using a Scholander pressure bomb. Ψ was monitored in five different plants per species at 2-h intervals between 06:00 (predawn) and 18:00 h. Air temperature, relative humidity vapour pressure deficit, precipitation and soil water content were registered throughout. Data were subjected to one-way ANOVA and correlation analysis. During the wettest period (Sep-10), Ψ ranged from –0.72 in C. boissieri to –1.30 MPa in B. celastrina. Conversely, during the driest period (Nov-30), Ψ varied from –2.90 (B. celastrina) to –6.10 MPa (D. texana) revealing high water stress during driest season and B. celastrina was more tolerant to water stress. Diurnal Ψ values were negatively correlated with air temperature and vapour pressure deficit, on the contrary, a positive relationship was found with relative humidity. Gravimetric soil water content and precipitation data were linearly correlated with predawn. The ability of tree species to cope with drought stress depends on the pattern of water uptake, seasonal precipitation and the extent to control water loss through the transpirational flux. Further studies on these and other tree species in the region will help in the efficient management and selection of drought tolerant species

Keywords: Drought, native trees, northeastern Mexico, soil water content, water potential, water stress

Contact Address: Humberto González Rodríguez, University of Nuevo León, Faculty of Forest Sciences, Apartado Postal 41, 67700 Linares, Mexico, e-mail: gonhumberto@gmail.com

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