Seasonal water potential changes and proline accumulation in mediterranean shrubland species |
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Authors: | A R Lansac J P Zaballos A Martin |
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Institution: | (1) Centro de Ciencias Medioambientales, Consejo Superior de Investigaciones Científicas (C.S.I.C.), Serrano 115 duplicado, 28006 Madrid, Spain;(2) Real Jardín Botánico, C.S.I.C., Plaza de Murillo 2., 28014 Madrid, Spain |
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Abstract: | We studied the water relations of 6 shrub and 3 tree species typical of the mediterranean climate region of central Spain to identify differential responses to water stress between and within species, and to determine if free proline concentration in leaves could be used as a water stress indicator. Predawn and midday water potentials ( w) on a seasonal basis, relative water content (RWC), leaf mass per area, foliar nitrogen and free proline concentrations were measured. The lowest water potentials were observed at the end of the summer, with recovery to higher water potentials in the fall and winter seasons. Species differed regarding the annual w fluctuation. Thymus zygis, Halimium viscosum, Genista hirsuta and Juniperus oxycedrus exhibited the most negative midday and predawn w (both less than -6 MPa) with a large magnitude of response to changing conditions in soil moisture of the upper horizon of the soil. Lavandula pedunculata and Cistus ladanifer showed a moderate response. Quercus rotundifolia, Quercus faginea and Retama sphaerocarpa showed a modest response. The w of different size individuals of Quercus rotundifolia and Cistus ladanifer were compared. The annual w fluctuation was greater in small individuals as compared to large individuals. In every species, there was an increase in proline concentration of bulk leaf tissues when predawn w dropped below -5 MPa. Small plants of Cistus ladanifer reached lower water potentials and also higher concentration of proline than bigger plants. Proline could possibly be used as a drought stress indicator in every species except Q. rotundifolia. It is suggested that in addition to water stress avoidance due to deep root systems, some mechanisms of water stress tolerance may operate among shrub and tree species of central Spain. |
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Keywords: | Thymus zygis Halimium viscosum Genista hirsuta Juniperus oxycedrus Lavandula pedunculata Cistus ladanifer Quercus rotundifolia Quercus faginea Retama sphaerocarpa Leaf mass per area Water potential Relative water content Nitrogen Proline |
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