Adaptation of Native Shrubs to Drought Stress in North-eastern Mexico López-Hernández J. M.1, González-Rodríguez H.1,*, Cantú-Silva I.1, Ramírez-Lozano R. G.2, Gómez-Meza M. V.3, Pando-Moreno M.1, Sarquís-Ramírez J. I.4, Coria-Gil N.4, Maiti Ratikanta5, Sarkar N.C.6 1Facultad de Ciencias Forestales, Universidad Autónoma de Nuevo León, Apartado Postal 41, Linares, NL (67700), México 2Facultad de Ciencias Biológicas, Universidad Autónoma de Nuevo León, Monterrey, NL (67700), México 3Facultad de Economía, Universidad Autónoma de Nuevo León, Monterrey, NL (67700), México 4Facultad de Ciencias Biológicas-Agropecuarias, Universidad Veracruzana, Peñuela, Córdoba, Veracruz, México 5Vibha Seeds, Vibha Agrotech Ltd, Inspire, Plot#21, Sector 1, Huda Techno Enclave, High Tech City Road, Madhapur, Hyderabad, Andhra Pradesh (500 081), India 6Department of Agronomy, School of Agricultural Sciences and Rural Development, Nagaland University, Medziphema campus, Medziphema, Nagaland (797106), India *Correspondence to E-mail: humberto@fcf.uanl.mx
Online published on 31 March, 2014. Abstract Native shrubs that grow in the semi-arid regions of north-eastern Mexico are important feed resources for range ruminants and white-tailed deer. They also provide high quality fuel-wood and timber for fencing and construction. Since water stress is the most limiting factor in this region, the present research focused on studying how seasonal xylem water potentials (Ψ) of native shrubs such as Forestiera angustifolia (Oleaceae), Celtis pallida (Ulmaceae), Acacia amentacea (Leguminosae) and Parkinsonia texana (Leguminosae) are related to soil water availability. During the wettest period, Ψ at pre-dawn ranged from -0.62 MPa (A. amentacea and F. angustifolia) to -1.10 MPa (P. texana). In contrast, during the driest period, pre-dawn Ψ varied from -1.78 MPa (P. texana) to -3.94 MPa (C. pallida). With respect to mid-day Ψ data, on the wettest sampling date, Ψ values ranged from -0.62 MPa (A. amentacea) to -1.57 MPa (C. pallida, F. angustifolia and P. texana). In contrast, on the driest sampling date, C. pallida, A. amentacea and P. texana tended to achieve higher (−2.21 MPa) Ψ than F. angustifolia which acquired Ψ value around -3.50 MPa. Since the shrub species A. amentacea and P. texana achieved higher pre-dawn and mid-day Ψ values under water stress condition, these species could be considered as drought adapted species while, F. angustifolia which acquired lower water potentials, may not be suitable to drought and thus, may be in a physiological disadvantage under limited water conditions. The study recommends that the first two species may serve as a pertinent model to study the strategies of adaptation to drought at high tissue water potential while the later may serve as an adequate model to study plant adaptation to drought at low tissue water potential. Top Keywords Drought, soil water content, Tamaulipan thornscrub, water potential. Top |