Available water modifications by topsoil treatments under mediterranean semiarid conditions: afforestation plan

During dry periods in the Mediterranean area, the lack of water entering the soil matrix reduces organic contribu- tions to the soil. These processes lead to reduced soil fertility and soil vegetation recovery which creates a positive feedback process that can lead to desertification. Restoration of native vegetation is the most effective way to regenerate soil health, and control runoff and sediment yield. In Mediterranean areas, after a forestry proposal, it is highly common to register a significant number of losses for the saplings that have been introduced due to the lack of rainfall. When no vegetation is established, organic amendments can be used to rapidly protect the soil surface against the erosive forces of rain and runoff. In this study we investigated the hydrological effects of five soil treatments in relation to the temporal vari- ability of the available water for plants. Five amendments were applied in an experimental set of plots: straw mulching; mulch with chipped branches of Aleppo Pine (Pinus halepensis L.); TerraCotten hydroabsobent polymers; sewage sludge; sheep manure and control. Plots were afforested following the same spatial pattern, and amendments were mixed with the soil at the rate 10 Mg ha-1. In control plots, during June, July, August and September, soils were registered below the wilting point, and therefore, in the area of water unusable by plants. These months were coinciding with the summer mediter- ranean drought. This fact justifies the high mortality found on plants after the seeding plan. Similarly, soils have never exceeded the field capacity value measured for control plots. Conversely, in the straw and pinus mulch, soils were above the wilting point during a longer time than in control plots. Thus, the soil moisture only has stayed below the 4.2 pF suction in July, July and August. Regarding the amount of water available was also higher, especially in the months of December, January and February. However, the field capacity value measured has not showed any differences regarding the control. For these treatments, the survival sapling rates measured were the highest. Sludge, manure and polymers showed a moisture retention capacity slightly more limited than straw and pinus mulch. Likewise, it has been found that the area of usable water by plants was also lower, especially during the months of January and February. This situation is especially sharpened in plots amended with manure. In this treatment, the upper part of the soil profile was below the wilting point for six months a year (from April to August). For this treatment, the survival sapling rates measured were the lowest. In conclusion, from a land management standpoint, the pinus and straw mulch treatments have been shown as effective methods reducing water stress for plants. In this research, mulching has been proved as a significant method to reduce the mortality sapling rates during the mediterranean summer drought.

Available water modifications by topsoil treatments under mediterranean semiarid conditions: afforestation plan

During dry periods in the Mediterranean area, the lack of water entering the soil matrix reduces organic contribu- tions to the soil. These processes lead to reduced soil fertility and soil vegetation recovery which creates a positive feedback process that can lead to desertification. Restoration of native vegetation is the most effective way to regenerate soil health, and control runoff and sediment yield. In Mediterranean areas, after a forestry proposal, it is highly common to register a significant number of losses for the saplings that have been introduced due to the lack of rainfall. When no vegetation is established, organic amendments can be used to rapidly protect the soil surface against the erosive forces of rain and runoff. In this study we investigated the hydrological effects of five soil treatments in relation to the temporal vari- ability of the available water for plants. Five amendments were applied in an experimental set of plots: straw mulching; mulch with chipped branches of Aleppo Pine (Pinus halepensis L.); TerraCotten hydroabsobent polymers; sewage sludge; sheep manure and control. Plots were afforested following the same spatial pattern, and amendments were mixed with the soil at the rate 10 Mg ha-1. In control plots, during June, July, August and September, soils were registered below the wilting point, and therefore, in the area of water unusable by plants. These months were coinciding with the summer mediter- ranean drought. This fact justifies the high mortality found on plants after the seeding plan. Similarly, soils have never exceeded the field capacity value measured for control plots. Conversely, in the straw and pinus mulch, soils were above the wilting point during a longer time than in control plots. Thus, the soil moisture only has stayed below the 4.2 pF suction in July, July and August. Regarding the amount of water available was also higher, especially in the months of December, January and February. However, the field capacity value measured has not showed any differences regarding the control. For these treatments, the survival sapling rates measured were the highest. Sludge, manure and polymers showed a moisture retention capacity slightly more limited than straw and pinus mulch. Likewise, it has been found that the area of usable water by plants was also lower, especially during the months of January and February. This situation is especially sharpened in plots amended with manure. In this treatment, the upper part of the soil profile was below the wilting point for six months a year (from April to August). For this treatment, the survival sapling rates measured were the lowest. In conclusion, from a land management standpoint, the pinus and straw mulch treatments have been shown as effective methods reducing water stress for plants. In this research, mulching has been proved as a significant method to reduce the mortality sapling rates during the mediterranean summer drought.

Posibles funciones de la familia génica de la glutamato descarboxilasa en Populus

Aunque hace más de 50 años que se describió que la glutamato descarboxilasa (GAD) lleva a cabo la descarboxilación del glutamato para producir GABA, y en animales ha sido muy estudiada debido al papel del GABA como neurotransmisor, la información disponible sobre las GADs de plantas es aún limitada, conociéndose sólo algunos aspectos de la regulación por calcio de su actividad enzimática o de expresión de algunos de los genes de su familia génica. El GABA es un metabolito que tradicionalmente se ha asociado a estrés, pero su papel en plantas todavía no está claro. En las últimas dos décadas los resultados experimentales obtenidos sobre la GAD y el GABA, destacando las alteraciones fenotípicas mostradas por plantas tratadas con GABA y por plantas transgénicas para GAD, han generado preguntas interesantes sobre el posible papel de este metabolito y la enzima en señalización en plantas. En plantas, son varios los papeles que se han propuesto para el metabolismo del GABA tales como su participación como componente del metabolismo del carbono y del nitrógeno (Fait y col., 2008), protección frente especies reactivas de oxigeno (Liu y col., 2011), regulación de la expresión génica incluyendo la regulación de genes implicados en la síntesis de hormonas (Khatiresan y col., 1997; Shi y col., 2010; Lancien y Roberts, 2006) y señalización a larga distancia (Beuve y col., 2004) y en gradiente guiando el crecimiento del tubo polínico (Palanivelu y col., 2013). Nuestro grupo de investigación ha sugerido un papel novedoso para la producción de GABA durante la xilogénesis en pino (Molina-Rueda y col., 2010, 2015). En base a estos antecedentes, los objetivos planteados para este trabajo han sido: la asignación de posibles funciones a las GADs de Populus en condiciones normales de crecimiento y en estrés abióticos, estudiar la adquisición del dominio de unión a calmodulina (CaMBD) de las GADs de plantas vasculares y analizar el efecto del GABA y del glutamato en las raíces de Populus. Las conclusiones que se derivan de los resultados de este trabajo se detallan a continuación. El dominio de unión a calmodulina de la GAD de plantas esta conservado en GADs de plantas consideradas ancestros de plantas vasculares y ausente en plantas no vasculares, lo que sitúa juntos en la evolución los eventos de adquisición del dominio de unión a CaM y el desarrollo del tejido vascular de plantas. Los resultados similares de la localización de GABA en xilema y una expresión GAD asociada a la formación de madera de reacción tanto en pino como en chopo apuntan a un papel relevante de la producción de GABA durante la xilogénesis en leñosas. La familia génica GAD posee seis genes codificando todos ellos para proteínas aparentemente funcionales y susceptibles de ser reguladas por calcio. Esta familia génica ha sufrido duplicaciones y eventos de especialización durante la evolución de Populus. Este trabajo ha posibilitado la asociación entre papeles específicos y los diferentes genes de esta familia. Beuvé N, Rispail N, Laine P, Cliquet J-B, Ourry A, Deunff F (2004) Putative role of Υ-aminobutyric acid as a long-distance signal in up-regulation of nitrate uptake in Brassica napus L. Plant Cell Environ. 27: 1035-1046 Fait A, Fromm H, Walter D, Galili G, Fernie AR (2008) Highway or byway: the metabolic role of the GABA shunt in plants. Trends in plant science 13: 14-19 Kathiresan A, Tung P, Chinnappa CC, Reid DM (1997) gamma-Aminobutyric acid stimulates ethylene biosynthesis in sunflower. Plant Physiol. 115: 129-135 Lancien M, Roberts MR (2006) Regulation of Arabidopsis thaliana 14-3-3 gene expression by ϒ-aminobutyric acid. Plant Cell Environ. 29: 1430-1436 Liu C, Zhao L, Yu G (2011) The dominant glutamic acid metabolic flux to produce gamma-amino butyric acid over proline in Nicotiana tabacum leaves under water stress relates to its significant role in antioxidant activity. Journal of integrative plant biology 53: 608-618 Molina-Rueda JJ, Pascual MB, Canovas FM, Gallardo F (2010) Characterization and developmental expression of a glutamate decarboxylase from maritime pine. Planta 232: 1471-1483 Molina-Rueda, J.J. y col., 2015. A putative role for γ-aminobutyric acid (GABA) in vascular development in pine seedlings. Planta 241: 257-267 Palanivelu R, Brass L, Edlund AF, D P (2003) Pollen tube growth and guidance is regulated by POP2, an Arabidopsis gene that controls GABA levels. Cell 114: 47-59 Shi SQ, Shi Z, Jiang ZP, Qi LW, Sun XM, Li CX, Liu JF, Xiao WF, Zhang SG (2010) Effects of exogenous GABA on gene expression of Caragana intermedia roots under NaCl stress: regulatory roles for H2O2 and ethylene production. Plant, cell & environment 33: 149-162