First report of Fusarium verticillioides causing stalk and root rot of sorghum in Spain

Podredumbre del tallo y la raíz del sorgo causada por Fusarium verticillioides en España

Climate Change Impacts on Maize and Dry Bean Yields of smallholder farmers in Honduras

The rotation maize and dry bean provides the main food supply of smallholder farmers in Honduras. Crop model assessment of climate change impacts (2070?2099 compared to a 1961?1990 baseline) on a maize?dry bean rotation for several sites across a range of climatic zones and elevations in Honduras. Low productivity systems, together with an uncertain future climate, pose a high level of risk for food security. The cropping systems simulation dynamic model CropSyst was calibrated and validated upon field trail site at Zamorano, then run with baseline and future climate scenarios based upon general circulation models (GCM) and the ClimGen synthetic daily weather generator. Results indicate large uncertainty in crop production from various GCM simulations and future emissions scenarios, but generally reduced yields at low elevations by 0 % to 22 % in suitable areas for crop production and increased yield at the cooler, on the hillsides, where farming needs to reduce soil erosion with conservation techniques. Further studies are needed to investigate strategies to reduce impacts and to explore adaptation tactics.

The role of secretion systems and small molecules in soft-rot enterobacteriaceae pathogenicity

Soft-rot Enterobacteriaceae (SRE), which belong to the genera Pectobacterium and Dickeya, consist mainly of broad host-range pathogens that cause wilt, rot, and blackleg diseases on a wide range of plants. They are found in plants, insects, soil, and water in agricultural regions worldwide. SRE encode all six known protein secretion systems present in gram-negative bacteria, and these systems are involved in attacking host plants and competing bacteria. They also produce and detect multiple types of small molecules to coordinate pathogenesis, modify the plant environment, attack competing microbes, and perhaps to attract insect vectors. This review integrates new information about the role protein secretion and detection and production of ions and small molecules play in soft-rot pathogenicity.

The effects of storage duration, temperature and cultivar on the severity of garlic clove rot caused by Fusarium proliferatum.

Diseases that affect garlic during storage can lead to severe economic losses for farmers worldwide. One causal agent of clove rot is Fusarium proliferatum. Here, the progress of clove rot caused by F. proliferatum and its dependence on different storage conditions and cultivar type were studied. The effect of temperature on mycelial growth, conidial viability, and fungal survival during garlic commercial storage was documented. Samples of 50 bulbs from a randomized field trial with three different clonal generations for purple garlic (F3, F4 and F5) and the F4 clonal generation for white garlic were labeled and stored for two months (short-term storage). In addition, another sample of the F5 clonal generation of purple garlic was stored for 6 months after harvest (long-term storage). The presence of the pathogen and the percentage of symptomatic cloves were evaluated. A notable difference in the rot severity index (RSI) of different garlic varieties was observed. In all studied cases, clove rot increased with storage time at 20 ◦ C, and the white garlic variety had a higher index of rot severity after two months of storage. Additionally, there were clear differences between the growth rates of F. proliferatum isolates. Studies conducted on the temperature responses of the pathogen propagules showed that expo- sure for at least 20 min at 50 ◦ C was highly effective in significantly reducing the viability of fungal conidia. Pathogenicity studies showed that the fungus is pathogenic in all commercial varieties. However, there were significant differences in varietal susceptibility between Chinese and white garlic type cultivars (81.84 ± 16.44% and 87.5 ± 23.19% symptomatic cloves, respectively) and purple cultivars (49.06 ± 13.42% symptomatic cloves)

Dry cooling with night cool storage to enhance solar power plants performance in extreme conditions areas

Solar thermal power plants are usually installed in locations with high yearly average solar radiation, often deserts. In such conditions, cooling water required for thermodynamic cycles is rarely available. Moreover, when solar radiation is high, ambient temperature is very high as well; this leads to excessive condensation temperature, especially when air-condensers are used, and decreases the plant efficiency. However, temperature variation in deserts is often very high, which drives to relatively low temperatures during the night. This fact can be exploited with the use of a closed cooling system, so that the coolant (water) is chilled during the night and store. Chilled water is then used during peak temperature hours to cool the condenser (dry cooling), thus enhancing power output and efficiency. The present work analyzes the performance improvement achieved by night thermal cool storage, compared to its equivalent air cooled power plant. Dry cooling is proved to be energy-effective for moderately high day–night temperature differences (20 °C), often found in desert locations. The storage volume requirement for different power plant efficiencies has also been studied, resulting on an asymptotic tendency.

Flammability properties of dry sewage sludges

Dry sewage sludge are being considered as a possible energy source for direct firing. They have interesting properties to be used as an alternative fuel, but also other characteristics must be considered from the point of view of its safe operation: the most important are ignition sensitivity, explosion severity, thermal sensitivity and thermal stability. The aim of this study was to determine if sewage sludge have different characteristics due to different locations or seasons and how this influences their flammability properties. To study these characteristics sludge samples were selected from different locations in Spain, taken during different seasons. In addition, relationships between flammability parameters and chemical analysis were observed. Some parameters can be controlled during normal operation, such as granulometry or humidity, and may mean a decrease in the risk of explosion. Those relationships are well known for other dusts materials, like coal, but not yet for sewage sludge dusts. Finally, properties related to spontaneous combustion were determined (thermal susceptibility and stability). The addition of those properties to the study provides an overview of the thermal behavior of sewage sludge during their utilization, including transport and storage.

Des. Erasmi Rot. Ecclesiastae sive de ratione concionandi libri quatuor opus recens nec antehac [sic] à quo quam excusum

Nombres de imp. constan en colofón

Dry sand as a specialized layer to improve the acoustic insulation between rooms one above another = La arena como capa intermedia especializada para la mejora del aislamiento acústico entre recintos superpuestos

Se comprueba la mejora en el aislamiento acústico entre recintos de la colocación de una capa de arean entre el solado y el forjado

Label-free biosensing for dry eye by Means of BICELLS

The use of Biophotonic Sensing Cells (BICELLs) based on micro-nano pattemed photonic architectures has been recently proven as an efficient methodology for label-free biosensing by using Optical Interrogation [1]. According to this, we have studied the different optical response for a specific typology of BICELL, consisting of structures of SU -8. This material is biocompatible with different types of biomolecules and can be immobilized on its sensing surface. In particular, we have measured the optical response for a biomarker in clinic diagnostic of dry eye. Although different proteins can be enstudied such as: PRDX5, ANXA 1, ANXA 11, CST 4, PLAA Y S 1 OOA6 related with ocular surface (dry eye), for this work PLAA (phospholipase A2) is studied by means of label free biosensing based on BICELLs for analyzing the performance and specificity according with means values of concentration in ROC curves.

Ecología de la dispersión de plantas en los bosques secos del suroccidente Ecuatoriano

La importancia del proceso de dispersión de semillas en la estructura y dinámica de los ecosistemas es ampliamente reconocida. Sin embargo, para los bosques tropicales estacionalmente secos los estudios relacionados con este proceso son aún escasos y dispersos en comparación con los bosques tropicales lluviosos. En este trabajo se estudió la importancia de los síndromes de dispersión de semillas en la estructuración de comunidades, mediante el análisis de los patrones de dispersión de semillas en el espacio y tiempo para comunidades de leñosas en los bosques secos del suroccidente Ecuatoriano. Esta área forma parte de la región Tumbesina, una de las áreas de endemismo más importantes del mundo, pero también uno de los hotspots más amenazados. El clima se caracteriza por una estación seca que va de mayo a noviembre y una estación lluviosa que se extiende desde diciembre a abril. Para toda esta zona se estima una temperatura promedio anual entre 20° y 26°C y una precipitación promedio anual entre 300 y 700 mm. El trabajo de campo se desarrolló entre febrero de 2009 y septiembre de 2012. El primer paso fue la recopilación de información sobre las especies leñosas nativas de los bosques secos del suroccidente de Ecuador, que permitiera asignar a cada especie a un síndrome de dispersión para determinar el espectro de síndromes de dispersión de semillas. Luego, utilizando la información disponible de 109 parcelas establecidas previamente a lo largo de cuatro cantones de la provincia de Loja que conservan bosques secos en buen estado, se analizó la relación entre el síndrome de dispersión y condiciones ambientales. La relación de los síndromes de dispersión con los patrones espaciales de las especies y con los patrones de la lluvia y banco de semillas se estudió dentro de una parcela permanente de 9 ha, en la Reserva Ecológica Arenillas. Dentro de esta parcela se estableció un transecto de aproximadamente 3,4 km, que se recorrió mensualmente para colectar excretas de cérvidos y analizar el rol de este grupo como dispersor de semillas. Una gran variedad de plantas en los bosques secos tropicales del suroccidente de Ecuador requirió la asistencia de animales para la dispersión de semillas. Sin embargo, un análisis del espectro de dispersión considerando no solo la riqueza, sino también la abundancia relativa de especies, permitió determinar que a pesar de la alta variedad de especies zoócoras, la mayor parte de la comunidad correspondía a individuos anemócoros, que no proveen ninguna recompensa para la dispersión por animales. Este patrón puede deberse a la abundancia relativa de hábitats adecuados para especies con diferente síndrome de dispersión. Las condiciones ambientales afectaron la estructura del espectro de dispersión en la comunidad de bosque seco neotropical estudiada. El análisis de la importancia relativa del síndrome de dispersión y de la heterogeneidad espacial en la formación de patrones espaciales de árboles adultos permitió determinar que la heterogeneidad ambiental ejercía un efecto adicional (y en algunos el único) en la formación de patrones agregados de la mayoría de especies estudiadas. Los resultados señalaron diferencias en los patrones espaciales de las especies dependiendo del síndrome de dispersión, pero también una gran variación en los patrones espaciales incluso entre especies del mismo síndrome de dispersión. El análisis simultáneo de los patrones de la lluvia de semillas y banco de semillas de una comunidad de leñosas y su relación con la vegetación establecida indicaron que la lluvia de semillas era temporalmente variable en número de especies y abundancia de semillas, y dependía del síndrome de dispersión. El síndrome de dispersión también influyó en la formación de bancos de semillas, siendo las especies con capacidad de dispersión limitada (autócoras) las de mayor riqueza de especies y abundancia de semillas. Los cérvidos también se consideraron como un elemento clave en el proceso de dispersión de semillas. Al menos ocho especies leñosas fueron dispersadas legítimamente vía endozoócora. La mayoría de las especies dispersadas presentaron diásporas sin adaptaciones obvias para la dispersión, por lo que la ingestión de semillas por cérvidos se constituye en una vía potencial para la dispersión de sus semillas a largas distancias y, con ello, mejora la posibilidad de colonizar nuevos sitios y mantener el flujo genético. Los resultados de este estudio aportan nuevas evidencias para el entendimiento de la importancia de los procesos de dispersión de semillas en la estructura de los bosques secos neotropicales. Uno de los principales hallazgos a partir de estos cuatro capítulos es que los patrones espaciales de las especies, así como las estrategias que utilizan para dispersarse y hacer frente a las condiciones adversas (es decir, lluvia o banco de semillas) llevan consigo un efecto del síndrome de dispersión, y que la intensidad ese efecto depende a la vez de las condiciones ambientales del lugar. ABSTRACT The importance of seed dispersal process in the estructuring and ecosystem dynamic is widely recongnized. However, for seasonally tropical dry forest studies related to this process are still scarce and scattered compared to tropical rain forests. The present research deals with the importance of seed dispersal syndromes as a driver in the community structure, focusing its attention to temporal and spatial patterns of seed dispersal in woody communities of seasonally dry forest at Southwestern Ecuador. This area is part of the Tumbesian region, one of the most important areas of endemism, but also one of the most threatened areas around the world. Climate is characterized by a dry season from May to November, and a rainy season from December to April. For the whole area an average temperature between 20 ° and 26 ° C, and an average annual rainfall between 300 and 700 mm are estimated. Fieldwork was carried out between February 2009 and September 2012. During a first step information about native woody species of dry forests of southwestern Ecuador was gathered, enabling to assign a dispersal syndrome to each species to determine the seed dispersal spectrum. In a second step, available information from 109 established plots along four municipalities in Loja province, which hold the highest and best conserved dry forest remanants, was analyzed to establish the relationship between dispersal syndromes and environmental conditions. The relationships between dispersal syndromes and species spatial patterns; and between dispersal syndromes and seed rain and seed bank patterns, were studied within a permanent plot of 9 ha, in the Arenillas Ecological Reserve. Within this plot one transect of approximately 3.4 km was set to collect monthly deer droppings, which were used to latter analyze the rol of this group as seed dispersers. The results showed that a large variety of plants in tropical dry forest of Southwestern Ecuador require animal assistance to dispers their seeds. However, an analysis of seed dispersal spectrum considering not only species richness, but also the relative abundance of species, allowed to determine that despite the high variety of zoochorous species, most individuals in the community corresponds to anemochoruos species. This shift may be due to the relative abundance of habitats that are suitable for species with different dispersal syndromes. Moreover, quantitative data analysis showed that environmental conditions affect the structure of seed dispersal spectrum in the studied community. The analysis of relative importance of dispersal syndrome, and the environmental heterogeneity on formation of adult trees spatial patterns, indicated that environmental heterogeneity exert an additional (or was the only) effect limiting the distribution of most species in this forest. The findings showed differences in spatial patterns related to dispersal syndrome, but also showed a large variation in spatial patterns even among species sharing the same dispersal syndrome. Simultaneous analysis of seed rain and seed bank patterns of a woody community, and their relationship with established vegetation, suggested that seed rain is temporally variable in species number and seeds abundance, and that variation is related to the dispersal syndrome. Dispersal syndrome also influenced on the formation of seed banks, being species with limited dispersal abilities (autochorous) the ones with highest species richness and seed abundance. Deer were found as a key element in the seed dispersal process. At least to eight woody species were dispersed legitimately by ingestion. Diaspores of most dispersed species had no obvious adaptations to seed dispersal, therefore, seed ingestion by deer represents a potential pathway for long-distance dispersal, and hence, improves the chances to colonizing new sites and to maintain gene flow. Overall, these results provide new evidence for understanding the importance of seed dispersal processes in the structure of Neotropical dry forests. One of the major findings from these four chapters is that spatial patterns of species, and the strategies used to disperse their seeds and to deal with the adverse conditions (i.e. seed rain or seed bank) are related with dispersal syndromes, and the intensity of that relation depends in turn, on environmental conditions.

Variability of Arundo donax growth in dry-farming as a function of soil properties

Arundo donax L., commonly known as giant reed or arundo, is a perennial rhizomatous grass that has been studied since the decade of 1980 for bioenergy. In the Mediterranean region -characterised by dry and hot summers- arundo is usually grown with the support of irrigation. However, there is evidence that this plant species can tolerate dry-farming conditions once the crop is fully established. In this work the variation observed in plant growth of a 5-year-old arundo crop when the management changed from irrigated to dry-farming, is assessed. The hypothesis underlying this work was that punctual variations of soil properties might be responsible for the differences observed in plant growth

Patrones y procesos espaciales en poblaciones y comunidades vegetales: nuevas herramientas e hipótesis

Generalmente los patrones espaciales de puntos en ecología, se definen en el espacio bi-dimensional, donde cada punto representado por el par ordenado (x,y), resume la ubicación espacial de una planta. La importancia de los patrones espaciales de plantas radica en que proceden como respuesta ante importantes procesos ecológicos asociados a la estructura de una población o comunidad. Tales procesos incluyen fenómenos como la dispersión de semillas, la competencia por recursos, la facilitación, respuesta de las plantas ante algún tipo de estrés, entre otros. En esta tesis se evalúan los factores y potenciales procesos subyacentes, que explican los patrones de distribución espacial de la biodiversidad vegetal en diferentes ecosistemas como bosque mediterráneo, bosque tropical y matorral seco tropical; haciendo uso de nuevas metodologías para comprobar hipótesis relacionadas a los procesos espaciales. En este trabajo se utilizaron dos niveles ecológicos para analizar los procesos espaciales, el nivel de población y el nivel de comunidad, con el fin de evaluar la importancia relativa de las interacciones intraespecíficas e interespecíficas. Me centré en el uso de funciones estadísticas que resumen los patrones de puntos para explorar y hacer inferencias a partir de datos espaciales, empezando con la construcción de un nuevo modelo nulo para inferir variantes del síndrome de dispersión de una planta parásita en España central. Se analizó la dependencia de los patrones espaciales tanto de los hospedantes afectados como de los no-afectados y se observó fuerte dependencia a pequeña y mediana distancia. Se utilizaron dos funciones (kernel) para simular la dispersión de la especie parásita y se identificó consistencia de estos modelos con otros síndromes de dispersión adicionalmente a la autodispersión. Un segundo tema consistió en desarrollar un método ANOVA de dos vías? para patrones de puntos replicados donde el interés se concentró en evaluar la interacción de dos factores. Este método se aplicó a un caso de estudio que consitió en analizar la influencia de la topografía y la altitud sobre el patrón espacial de un arbusto dominante en matorral seco al sur del Ecuador, cuyos datos provienen de patrones de puntos replicados basados en diseño. Partiendo de una metodología desarrollada para procesos uni-factoriales, se construyó el método para procesos bi-factoriales y así poder evaluar el efecto de interacción. Se observó que la topografía por sí sola así como la interacción con la altitud presentaron efecto significativo sobre la formación del patrón espacial. Un tercer tema fue identificar la relación entre el patrón espacial y el síndrome de dispersión de la comunidad vegetal en el bosque tropical de la Isla de Barro Colorado (BCI), Panamá. Muchos estudios se han desarrollado en este bosque tropical y algunos han analizado la relación síndrome-patrón espacial, sin embargo lo novedoso de nuestro estudio es que se evaluaron un conjunto amplio de modelos (114 modelos) basados en procesos que incorporan la limitación de la dispersión y la heterogeneidad ambiental, y evalúan el efecto único y el efecto conjunto, para posteriormente seleccionar el modelo de mejor ajuste para cada especie. Más de la mitad de las especies presentaron patrón espacial consistente con el efecto conjutno de la limitación de la dispersión y heterogeneidad ambiental y el porcentaje restante de especies reveló en forma equitativa el efecto único de la heterogeneidad ambiental y efecto único de limitación de la dispersión. Finalmente, con la misma información del bosque tropical de BCI, y para entender las relaciones que subyacen para mantener el equilibrio de la biodiversidad, se desarrolló un índice de dispersión funcional local a nivel de individuo, que permita relacionar el patrón espacial con cuatro rasgos funcionales clave de las especies. Pese a que muchos estudios realizados involucran esta comunidad con la teoría neutral, se encontró que el ensamble de la comunidad de BCI está afectado por limitaciones de similaridad y de hábitat a diferentes escalas. ABSTRACT Overall the spatial point patterns in ecology are defined in two-dimensional space, where each point denoted by the (x,y) ordered pair, summarizes the spatial location of a plant. The spatial point patterns are essential because they arise in response to important ecological processes, associated with the structure of a population or community. Such processes include phenomena as seed dispersal, competition for resources, facilitation, and plant response to some type of stress, among others. In this thesis, some factors and potential underlying processes were evaluated in order to explain the spatial distribution patterns of plant biodiversity. It was done in different ecosystems such as Mediterranean forest, tropical forest and dry scrubland. For this purpose new methodologies were used to test hypothesis related to spatial processes. Two ecological levels were used to analyze the spatial processes, at population and community levels, in order to assess the relative importance of intraspecific and interspecific interactions. I focused on the use of spatial statistical functions to summarize point patterns to explore and make inferences from spatial data, starting with the construction of a new null model to infer variations about the dispersal syndrome of a parasitic plant in central Spain. Spatial dependence between point patterns in a multivariate point process of affected and unaffected hosts were analyzed and strong dependence was observed at small and medium distance. Two kernel functions were used to simulate the dispersion of parasitic plant and consistency of these models with other syndromes was identified, in addition to ballistic dispersion. A second issue was to analyze altitude and topography effects on the spatial population structure of a dominant shrub in the dry ecosystem in southern Ecuador, whose data come from replicated point patterns design-based. Based on a methodology developed for uni-factorial process, a method for bi-factorial processes was built to assess the interaction effect. The topography alone and interacting with altitude showed significant effect on the spatial pattern of shrub. A third issue was to identify the relationship between the spatial pattern and dispersal syndromes of plant community in the tropical forest of Barro Colorado Island (BCI), Panamá. Several studies have been developed in this tropical forest and some focused on the spatial pattern-syndrome relationship; however the novelty of our study is that a large set of models (114 models) including dispersal limitation and environmental heterogeneity were evaluated, used to identify the only and joint effect to subsequently select the best fit model for each species. Slightly more than fifty percent of the species showed spatial pattern consistent with only the dispersal limitation, and the remaining percentage of species revealed the only effect of environmental heterogeneity and habitat-dispersal limitation joined effect, equitably. Finally, with the same information from the tropical forest of BCI, and to understand the relationships underlying for balance of biodiversity, an index of the local functional dispersion was developed at the individual level, to relate the spatial pattern with four key functional traits of species. Although many studies involve this community with neutral theory, the assembly of the community is affected by similarity and habitat limitations at different scales.