Effects of Water and Nutrient Availability in Pinus pinaster Ait. Open Pollinated Families at an Early Age: Growth, Gas Exchange and Water Relations |
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Authors: | Manuel Fernández Carlos Novillo José A. Pardos |
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Affiliation: | (1) E.T.S.I. de Montes. Ud. Anatomía, Fisiología y Mejora Genética Forestal, Universidad Politécnica de Madrid, Ciudad universitaria s/n, 28040 Madrid, Spain;(2) Present address: Escuela Politécnica Superior, Dpt. Ciencias Agroforestales, Universidad de Huelva, Campus Universitario de La Rábida, 21819 Palos de la Frontera, Huelva, Spain |
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Abstract: | Growth and physiological responses of Pinus pinaster Ait. to water and nutrient availability were compared in four open pollinated families of Arenas de San Pedro provenance (Central Iberian Peninsula), looking for more useful parameters and growing conditions to be included in early selection programmes of forest trees. Young seedlings were grown in a greenhouse, subjected to high and low water and nutrient regimes, during 14 weeks. Interfamily differences were significant with regard to growth, nutrient content and water-use efficiency (WUE): differences in growth were higher under more favourable growing conditions; gas exchange differences were higher in the short term (9 weeks), indicating a faster reaction to water stress of the better adapted families to these conditions; the highest growth rates were found in the families with the largest plasticity, highest WUE and highest nutrient content. Water regime and nutrients had significant effects on growth, δ13C, gas exchange and water relation parameters. For these parameters the ranking of the families was kept regardless the water × nutrient supply combination and there was not a significant family × treatment interaction. In the long term (14 weeks) higher water supply and nutrient content significantly increased instantaneous WUE. The positive relationships between growth, intrinsic WUE (A/g wv) and δ13C demonstrate that it should be possible to use physiological parameters (e.g. g wv, δ13C) as a surrogate for the efficiency in the use of water, at least if short periods of water stress (up to 2 months long) were frequent, as it occurs in the Mediterranean basin. There was also some indication that the decrease in nitrogen or potassium supply led to increasing stomatal conductance and hence lower WUE. |
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Keywords: | Carbon isotopic composition Early selection Fertilisation Maritime pine Water relations Water use efficiency |
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