Estudios de los restos vegetales de diversas muestras procedentes del abrigo de Son Gallard- Son Marroig: el resultado de los analisis de fitolitos.

[spa] Los fitólitos son microrestos síliceos que reproducen el tejido celular de las plantas. Su identificación y cuantificación en un yacimiento arqueológico permiten obtener información sobre el tipo de plantas utilizadas en un contexto determinado así como su distribución. Fueron realizados análisis de fitolitos en diversos niveles correspondientes a diferentes períodos cronológicos del abrigo de Son Gallard-Son Marroig. Los resultados obtenidos señalan una deposición de carácter «antrópico» de materia vegetal en dos de los niveles analizados (TB3 y UE5), aunque sin una selección aparente del tipo de plantas depositadas. Por otro lado las muestras analizadas de la Covacha Este parecen indicar que se trata del suelo de hábitat del abrigo sin una deposición intencionada de materia vegetal, mas allá de la derivada por el uso continuado del abrigo. [eng] Phytoliths are silica microremains that reproduce the cellular tissue of plants. The identification and quantification of phytoliths in archaeological sediments, allows for a better understanding of the utilised plants in a pecific area as well as the distribution of the plants used. Phytolith analyses were performed on different levels from different periods in Son Gallard-Son Marroig rockshelter. The results obtained show an «anthropological» deposition of plants in two of the studied levels (TB3 and UE5), without apparent selection of plants. On the other hand, the samples analyzed from the Covacha Este seem to indicate the presence of vegetal remains product of the continued use of the soils with no intentional deposition.

Concerted changes in N and C primary metabolism in alfalfa (Medicago sativa) under water restriction

Although the mechanisms of nodule N2 fixation in legumes are now well documented, some uncertainty remains on the metabolic consequences of water deficit. In most cases, little consideration is given to other organs and, therefore, the coordinated changes in metabolism in leaves, roots, and nodules are not well known. Here, the effect of water restriction on exclusively N2-fixing alfalfa (Medicago sativa L.) plants was investigated, and proteomic, metabolomic, and physiological analyses were carried out. It is shown that the inhibition of nitrogenase activity caused by water restriction was accompanied by concerted alterations in metabolic pathways in nodules, leaves, and roots. The data suggest that nodule metabolism and metabolic exchange between plant organs nearly reached homeostasis in asparagine synthesis and partitioning, as well as the N demand from leaves. Typically, there was (i) a stimulation of the anaplerotic pathway to sustain the provision of C skeletons for amino acid (e.g. glutamate and proline) synthesis; (ii) re-allocation of glycolytic products to alanine and serine/glycine; and (iii) subtle changes in redox metabolites suggesting the implication of a slight oxidative stress. Furthermore, water restriction caused little change in both photosynthetic efficiency and respiratory cost of N2 fixation by nodules. In other words, the results suggest that under water stress, nodule metabolism follows a compromise between physiological imperatives (N demand, oxidative stress) and the lower input to sustain catabolism.