Biología de poblaciones de Erucastrum nasturtiifolium (Poiret) O. E. Schulz (Cruciferae)

Resumen de Tesis Doctoral, Director: F. Xavier Sans Serra. Centro: Facultad de Biología, Universidad de Barcelona. Fecha de lectura: 7 de Marzo de 2002

Control de margall (Lolium rigidum gaudin) en una agricultura sostenible

Peer Reviewe

Alterations in the odor profile of plants in cultivar mixtures affect aphid host-location behavior

The effect of cultivar mixtures on aphid control is attributed to the masking or alteration of host-preferred cultivar odor cues. However, the underlying physiological mechanism remains unclear. This study assessed alterations in the volatile emissions of wheat cultivars grown together (Florence-Aurora and Forment; Florence-Aurora and Montcada) and the consequences for the olfactory preference of aphids. Volatile organic compounds were collected from wheat plants grown in a laboratory under mixed or monoculture conditions and subsequently analyzed. The odor profiles of Florence-Aurora and Montcada were indistinguishable from each other. However, the odors of Florence-Aurora and Forment grown in monocultures differed significantly from those emitted by their mixture. The Florence-Aurora and Forment mixture induced plant physiological responses that affected the emission of single volatile compounds and, consequently, altered volatile organic compound ratios. English grain aphids (Sitobion avenae) were less attracted to the odors of Florence-Aurora and Forment when grown as a mixture than the combination of the odors from Florence-Aurora and Forment monocultures. Moreover, aphids preferred clean air over the odor from the Florence-Aurora and Forment mixture but preferred the odor from the Florence-Aurora and Montcada mixture over clean air. This study highlights the beneficial effects of intraspecific plant diversity on aphid control by altering plant odors in response to plant-plant interactions. The emission of less attractive odor cues consequently affects plant-aphid interactions; hence, less attractive odors are likely to impair aphid host-locating behavior. This effect was exclusive to certain cultivar mixtures, which supports the "right neighbor" concept

Alterations in the odor profile of plants in cultivar mixtures affect aphid host-location behavior

The effect of cultivar mixtures on aphid control is attributed to the masking or alteration of host-preferred cultivar odor cues. However, the underlying physiological mechanism remains unclear. This study assessed alterations in the volatile emissions of wheat cultivars grown together (Florence-Aurora and Forment; Florence-Aurora and Montcada) and the consequences for the olfactory preference of aphids. Volatile organic compounds were collected from wheat plants grown in a laboratory under mixed or monoculture conditions and subsequently analyzed. The odor profiles of Florence-Aurora and Montcada were indistinguishable from each other. However, the odors of Florence-Aurora and Forment grown in monocultures differed significantly from those emitted by their mixture. The Florence-Aurora and Forment mixture induced plant physiological responses that affected the emission of single volatile compounds and, consequently, altered volatile organic compound ratios. English grain aphids (Sitobion avenae) were less attracted to the odors of Florence-Aurora and Forment when grown as a mixture than the combination of the odors from Florence-Aurora and Forment monocultures. Moreover, aphids preferred clean air over the odor from the Florence-Aurora and Forment mixture but preferred the odor from the Florence-Aurora and Montcada mixture over clean air. This study highlights the beneficial effects of intraspecific plant diversity on aphid control by altering plant odors in response to plant-plant interactions. The emission of less attractive odor cues consequently affects plant-aphid interactions; hence, less attractive odors are likely to impair aphid host-locating behavior. This effect was exclusive to certain cultivar mixtures, which supports the "right neighbor" concept

Alterations in the odor profile of plants in cultivar mixtures affect aphid host-location behavior

The effect of cultivar mixtures on aphid control is attributed to the masking or alteration of host-preferred cultivar odor cues. However, the underlying physiological mechanism remains unclear. This study assessed alterations in the volatile emissions of wheat cultivars grown together (Florence-Aurora and Forment; Florence-Aurora and Montcada) and the consequences for the olfactory preference of aphids. Volatile organic compounds were collected from wheat plants grown in a laboratory under mixed or monoculture conditions and subsequently analyzed. The odor profiles of Florence-Aurora and Montcada were indistinguishable from each other. However, the odors of Florence-Aurora and Forment grown in monocultures differed significantly from those emitted by their mixture. The Florence-Aurora and Forment mixture induced plant physiological responses that affected the emission of single volatile compounds and, consequently, altered volatile organic compound ratios. English grain aphids (Sitobion avenae) were less attracted to the odors of Florence-Aurora and Forment when grown as a mixture than the combination of the odors from Florence-Aurora and Forment monocultures. Moreover, aphids preferred clean air over the odor from the Florence-Aurora and Forment mixture but preferred the odor from the Florence-Aurora and Montcada mixture over clean air. This study highlights the beneficial effects of intraspecific plant diversity on aphid control by altering plant odors in response to plant-plant interactions. The emission of less attractive odor cues consequently affects plant-aphid interactions; hence, less attractive odors are likely to impair aphid host-locating behavior. This effect was exclusive to certain cultivar mixtures, which supports the “right neighbor” concept

Crop yield, weed infestation and soil fertility responses to contrasted ploughing intensity and manure additions in a Mediterranean organic crop rotation

Conservation agriculture and organic farming are two alternative strategies that aim to improve soil quality and fertility in arable cropping systems through reducing tillage intensity, maintaining soil cover and increasing nutrient recycling, using farmyard and green manures. However, these practices can increase weed infestation or decrease nutrient availability. The objectives of this study were to evaluate the effects of tillage type (mouldboard vs. chisel ploughing), fertilization and green manure on soil parameters (SOC, N, bulk density, carbon stocks, and soil microbial biomass Cmic and Nmic), weed abundance and crop yields in a four-year rotation of spelt, chickpea, winter wheat and lentil in the Mediterranean region (Catalonia, Spain). Tillage and green manure did not affect crop yields or weed biomass, although during the last year of the experiment, plots with mouldboard ploughing had less weed biomass and higher lentil biomass. Fertilization was the most important factor, increasing the cereal yields, SOC, N and soil microbial biomass (Cmic and Nmic) content of the soil. However, fertilization did not favour chickpea and lentil crops because weed competition limited legume crop growth. Overall, there was a loss of SOC and a reduction of carbon stocks over the four years of the trial in the soil because of the deep soil tillage (25 cm) and low crop productivity irrespective of tillage type. In contrast, N content increased in all of the plots and was enhanced by fertilization. The use of chisel plough stratified the distribution of SOC and N in the surface layers (0-10 cm). Both Cmic and Cmic/SOC ratio increased in fertilized treatments, suggesting an increased lability of SOC. The application of more stabilized organic matter may be a better practice to build up soil organic matter and to maintain crop yields in organic farming systems

Ecologia y distribucion de Senecio pterophorus (Compositae) en la Peninsula Iberica.

En este trabajo se describen el área de distribución y el número de poblaciones de la especie sudafricana Senecio pterophorus DC. en Cataluña, única área de la Europa continental de donde hasta ahora se conoce. Esta especie coloniza ambientes perturbados, como lechos de ríos, márgenes de carreteras y áreas forestales perturbadas, siempre que no haya limitación por la luz y la humedad. En los hábitats riparios y ruderales las poblaciones son más estables y densas, con un gran número de individuos de diversas clases de edad, mientras que en ambientes forestales las poblaciones suelen contar con pocos individuos adultos distribuidos de forma dispersa. Senecio pterophorus presenta, además, una acusada plasticidad morfológica en relación con el hábitat, de modo que en ambientes riparios y ruderales los individuos desarrollan un porte esférico, de menor tamaño, y unas hojas más pequeñas que en ambientes forestales, donde el porte de las plantas es más alargado y el tamaño de las hojas mucho mayor. Esta especie, en creciente expansión, debe ser considerada una planta invasora en la Península Ibérica, ya que ha aumentado considerablemente el número de sus poblaciones en un período relativamente corto. Además, se sugiere que S. pterophorus puede llegar a ser una amenaza para la conservación de la diversidad de especies y de hábitats naturales autóctonos, como ocurre en Australia, donde desplaza a las especies nativas e incluso se hibrida con otras especies de Senecio

El abrigo y la cueva de Benzú en la Prehistoria de Ceuta. Aproximación al estudio de las sociedades cazadoras-recolectoras y tribales comunitarias en el ámbito norteafricano del Estrecho de Gibraltar.

Extensa obra sobre los métodos, antecedentes y objetivos; observaciones preliminares y estudios anteriores, excavación y análisis de los resultados del Proyecto Benzú.Consejería de Educación, Cultura y Deporte de la Ciudad Autónoma de Ceuta. Universidad Española de Educación a Distancia. Universidad de Cádiz.419 página

Clonal chromosomal mosaicism and loss of chromosome Y in elderly men increase vulnerability for SARS-CoV-2

The pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2, COVID-19) had an estimated overall case fatality ratio of 1.38% (pre-vaccination), being 53% higher in males and increasing exponentially with age. Among 9578 individuals diagnosed with COVID-19 in the SCOURGE study, we found 133 cases (1.42%) with detectable clonal mosaicism for chromosome alterations (mCA) and 226 males (5.08%) with acquired loss of chromosome Y (LOY). Individuals with clonal mosaic events (mCA and/or LOY) showed a 54% increase in the risk of COVID-19 lethality. LOY is associated with transcriptomic biomarkers of immune dysfunction, pro-coagulation activity and cardiovascular risk. Interferon-induced genes involved in the initial immune response to SARS-CoV-2 are also down-regulated in LOY. Thus, mCA and LOY underlie at least part of the sex-biased severity and mortality of COVID-19 in aging patients. Given its potential therapeutic and prognostic relevance, evaluation of clonal mosaicism should be implemented as biomarker of COVID-19 severity in elderly people. Among 9578 individuals diagnosed with COVID-19 in the SCOURGE study, individuals with clonal mosaic events (clonal mosaicism for chromosome alterations and/or loss of chromosome Y) showed an increased risk of COVID-19 lethality

Agricultural intensification and plant diversity in Mediterranean dryland cereal fields: implications for conservation

El trabajo analiza la importancia de la diversidad vegetal en los agroecosistemas y los efectos de la intensificación de las prácticas agrícolas y del paisaje sobre la diversidad vegetal. La revisión de diversos estudios llevados a cabo por el equipo de investigación permite destacar que la intensificación agrícola, tanto a escala de campo como de paisaje, afecta negativamente la abundancia y la riqueza específica de la flora. La comparación de la flora arvense de los cultivos cerealistas de secano mediterráneos entre los años 50 y la actualidad refleja la reducción de la flora arvense, especialmente de la flora propia de las mieses y la disminución de la abundancia de grupos funcionales como las leguminosas y las plantas entomófilas. El efecto de las prácticas agrícolas y de la complejidad del paisaje varía en función de la flora estudiada. Así, la complejidad del paisaje es el principal factor que afecta la configuración de la vegetación de los márgenes, mientras que la intensidad de las prácticas agrícolas es el principal factor para explicar las diferencias en la flora arvense en el centro de los campos. Por último, el artículo analiza diversas propuestas para la gestión de los agrosistemas con el objetivo de conciliar la producción agrícola y la conservación de la biodiversidad en la región mediterránea.The paper analyses the importance of plant diversity in agroecosystems and the effects of the intensification of agricultural practices and the complexity of the landscape on plant diversity. A review of several studies conducted by the research team shows that agricultural intensification, at field and landscape scales, negatively affects the abundance and richness of the flora. The comparison of weed communities from the 50s to the present reflects the reduction of weed flora, especially characteristic arable weeds, and the decline in abundance of functional groups such as legumes and insect-pollinated species. The effect of both agricultural practices and landscape complexity depends on the studied flora. Thus, landscape complexity is the main factor shaping vegetation of field boundaries whereas the intensity of agricultural practices is the most important factor in explaining differences in the weed flora in the centre of the fields. Finally, the paper discusses several proposals for farmland management aiming at reconciling crop production and biodiversity conservation in the Mediterranean region.Esta investigación ha sido financiada por los proyectos CGL2006-13190-C03-01 y CGL2009-13497-C02-01 del Ministerio de Economía y Competitividad, por el Ministerio de Educación, Cultura y Deporte a través de becas FPU a Laura Armengot y Laura José-María y por la Generalitat de Cataluña a través de becas FI a Berta Caballero y Montse Bassa. Asimismo la Generalitat de Cataluña a través de la financiación al Grupo de Investigación Emergente Ecología de los Sistemas Agrícolas (2009SGR1058) también ha contribuido al desarrollo de la investigación