Seed Dispersal Spectrum of Woody Species in South Ecuadorian Dry Forests: Environmental Correlates and the Effect of Considering Species Abundance

This study examines the seed dispersal spectrum of the tropical dry forests of Southern Ecuador, in an effort to contribute to the knowledge of the complex dynamics of tropical dry forests. Seed dispersal spectrum was described for a total number of 160 species. Relationships of dispersal syndromes with plant growth form and climatic seasonality were explored. For a subset of 97 species, we determined whether dispersal spectrum changes when species abundance, in addition to species number, is taken into account. The same subset was used to relate dispersal syndromes with the environmental conditions. Zoochorous species dominated in the studied community. When considering the individual abundance of each species, however, anemochory was the prevalent dispersal syndrome. We found a significant difference in the frequency of dispersal syndromes among plant growth forms, with epizoochory only occurring in shrub species. The dispersal spectrum was dependent on climatic seasonality. The largest proportion of anemochorous species fructified during the dry season, while zoochorous diaspores dominated during the rainy season. A fourth-corner analysis indicated that the seed dispersal spectrum of Southern Ecuador dry forests is controlled by environmental conditions such as annual precipitation, annual temperature range or topography. Our results suggest that spatio-temporal changes in the environmental conditions may affect important ecological processes for dispersal. Thus, the predominance of one syndrome or another may depend on the spatial variation of environmental conditions.

Aerodynamic Optimization of High-Speed Trains Nose using a Genetic Algorithm and Artificial Neural Network

An aerodynamic optimization of the train aerodynamic characteristics in term of front wind action sensitivity is carried out in this paper. In particular, a genetic algorithm (GA) is used to perform a shape optimization study of a high-speed train nose. The nose is parametrically defined via Bézier Curves, including a wider range of geometries in the design space as possible optimal solutions. Using a GA, the main disadvantage to deal with is the large number of evaluations need before finding such optimal. Here it is proposed the use of metamodels to replace Navier-Stokes solver. Among all the posibilities, Rsponse Surface Models and Artificial Neural Networks (ANN) are considered. Best results of prediction and generalization are obtained with ANN and those are applied in GA code. The paper shows the feasibility of using GA in combination with ANN for this problem, and solutions achieved are included.

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.

Aerodynamic optimization of the ICE2 high-speed train nose using a genetic algorithm and metamodels

An aerodynamic optimization of the ICE 2 high-speed train nose in term of front wind action sensitivity is carried out in this paper. The nose is parametrically defined by Be?zier Curves, and a three-dimensional representation of the nose is obtained using thirty one design variables. This implies a more complete parametrization, allowing the representation of a real model. In order to perform this study a genetic algorithm (GA) is used. Using a GA involves a large number of evaluations before finding such optimal. Hence it is proposed the use of metamodels or surrogate models to replace Navier-Stokes solver and speed up the optimization process. Adaptive sampling is considered to optimize surrogate model fitting and minimize computational cost when dealing with a very large number of design parameters. The paper introduces the feasi- bility of using GA in combination with metamodels for real high-speed train geometry optimization.

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.

Aerodynamic Optimization of the Nose Shape of a High-speed Train

La influencia de la aerodinámica en el diseño de los trenes de alta velocidad, unida a la necesidad de resolver nuevos problemas surgidos con el aumento de la velocidad de circulación y la reducción de peso del vehículo, hace evidente el interés de plantear un estudio de optimización que aborde tales puntos. En este contexto, se presenta en esta tesis la optimización aerodinámica del testero de un tren de alta velocidad, llevada a cabo mediante el uso de métodos de optimización avanzados. Entre estos métodos, se ha elegido aquí a los algoritmos genéticos y al método adjunto como las herramientas para llevar a cabo dicha optimización. La base conceptual, las características y la implementación de los mismos se detalla a lo largo de la tesis, permitiendo entender los motivos de su elección, y las consecuencias, en términos de ventajas y desventajas que cada uno de ellos implican. El uso de los algorimos genéticos implica a su vez la necesidad de una parametrización geométrica de los candidatos a óptimo y la generación de un modelo aproximado que complementa al método de optimización. Estos puntos se describen de modo particular en el primer bloque de la tesis, enfocada a la metodología seguida en este estudio. El segundo bloque se centra en la aplicación de los métodos a fin de optimizar el comportamiento aerodinámico del tren en distintos escenarios. Estos escenarios engloban los casos más comunes y también algunos de los más exigentes a los que hace frente un tren de alta velocidad: circulación en campo abierto con viento frontal o viento lateral, y entrada en túnel. Considerando el caso de viento frontal en campo abierto, los dos métodos han sido aplicados, permitiendo una comparación de las diferentes metodologías, así como el coste computacional asociado a cada uno, y la minimización de la resistencia aerodinámica conseguida en esa optimización. La posibilidad de evitar parametrizar la geometría y, por tanto, reducir el coste computacional del proceso de optimización es la característica más significativa de los métodos adjuntos, mientras que en el caso de los algoritmos genéticos se destaca la simplicidad y capacidad de encontrar un óptimo global en un espacio de diseño multi-modal o de resolver problemas multi-objetivo. El caso de viento lateral en campo abierto considera nuevamente los dos métoxi dos de optimización anteriores. La parametrización se ha simplificado en este estudio, lo que notablemente reduce el coste numérico de todo el estudio de optimización, a la vez que aún recoge las características geométricas más relevantes en un tren de alta velocidad. Este análisis ha permitido identificar y cuantificar la influencia de cada uno de los parámetros geométricos incluídos en la parametrización, y se ha observado que el diseño de la arista superior a barlovento es fundamental, siendo su influencia mayor que la longitud del testero o que la sección frontal del mismo. Finalmente, se ha considerado un escenario más a fin de validar estos métodos y su capacidad de encontrar un óptimo global. La entrada de un tren de alta velocidad en un túnel es uno de los casos más exigentes para un tren por el pico de sobrepresión generado, el cual afecta a la confortabilidad del pasajero, así como a la estabilidad del vehículo y al entorno próximo a la salida del túnel. Además de este problema, otro objetivo a minimizar es la resistencia aerodinámica, notablemente superior al caso de campo abierto. Este problema se resuelve usando algoritmos genéticos. Dicho método permite obtener un frente de Pareto donde se incluyen el conjunto de óptimos que minimizan ambos objetivos. ABSTRACT Aerodynamic design of trains influences several aspects of high-speed trains performance in a very significant level. In this situation, considering also that new aerodynamic problems have arisen due to the increase of the cruise speed and lightness of the vehicle, it is evident the necessity of proposing an optimization study concerning the train aerodynamics. Thus, the aerodynamic optimization of the nose shape of a high-speed train is presented in this thesis. This optimization is based on advanced optimization methods. Among these methods, genetic algorithms and the adjoint method have been selected. A theoretical description of their bases, the characteristics and the implementation of each method is detailed in this thesis. This introduction permits understanding the causes of their selection, and the advantages and drawbacks of their application. The genetic algorithms requirethe geometrical parameterization of any optimal candidate and the generation of a metamodel or surrogate model that complete the optimization process. These points are addressed with a special attention in the first block of the thesis, focused on the methodology considered in this study. The second block is referred to the use of these methods with the purpose of optimizing the aerodynamic performance of a high-speed train in several scenarios. These scenarios englobe the most representative operating conditions of high-speed trains, and also some of the most exigent train aerodynamic problems: front wind and cross-wind situations in open air, and the entrance of a high-speed train in a tunnel. The genetic algorithms and the adjoint method have been applied in the minimization of the aerodynamic drag on the train with front wind in open air. The comparison of these methods allows to evaluate the methdology and computational cost of each one, as well as the resulting minimization of the aerodynamic drag. Simplicity and robustness, the straightforward realization of a multi-objective optimization, and the capability of searching a global optimum are the main attributes of genetic algorithm. However, the requirement of geometrically parameterize any optimal candidate is a significant drawback that is avoided with the use of the adjoint method. This independence of the number of design variables leads to a relevant reduction of the pre-processing and computational cost. Considering the cross-wind stability, both methods are used again for the minimization of the side force. In this case, a simplification of the geometric parameterization of the train nose is adopted, what dramatically reduces the computational cost of the optimization process. Nevertheless, some of the most important geometrical characteristics are still described with this simplified parameterization. This analysis identifies and quantifies the influence of each design variable on the side force on the train. It is observed that the A-pillar roundness is the most demanding design parameter, with a more important effect than the nose length or the train cross-section area. Finally, a third scenario is considered for the validation of these methods in the aerodynamic optimization of a high-speed train. The entrance of a train in a tunnel is one of the most exigent train aerodynamic problems. The aerodynamic consequences of high-speed trains running in a tunnel are basically resumed in two correlated phenomena, the generation of pressure waves and an increase in aerodynamic drag. This multi-objective optimization problem is solved with genetic algorithms. The result is a Pareto front where a set of optimal solutions that minimize both objectives.

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.

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.

Respuesta fisiológica y agronómica del olivar en seto (cv. Arbequina) a la orientación de filas y al ancho de calle: relación entre la producción y calidad del aceite y la radiación interceptada

En las últimas dos décadas, los productores han plantado olivares en seto para lograr la mecanización de la poda y en especial de la cosecha, reducir los costes de mano de obra y permitir intervenciones de manejo rápidas y oportunas. Los olivares se desarrollaron en ausencia del conocimiento científico, sobre el diseño óptimo de la estructura de la copa, necesario para incrementar la producción y calidad del aceite. En contraste, con los árboles muy espaciados y distribuidos uniformemente de las plantaciones tradicionales, en el olivar en seto hay una marcada variabilidad espacial y temporal de la radiación disponible en función del diseño de la plantación. Así, conocer la respuesta fisiológica y productiva del olivo a la radiación resulta fundamental en el olivar en seto. La orientación de las filas y el ancho de calle son aspectos que se deciden en el diseño de las plantaciones en seto. Ambos aspectos modifican la radiación interceptada por la canopia y, por lo tanto, pueden incidir en la productividad y calidad del aceite. Una vez realizada la plantación no pueden ser modificados, y así las ventajas o desventajas permanecerán fijas durante toda la vida productiva del olivar. A pesar de esto, el impacto de la orientación de las filas y el ancho de calle han recibido poca atención en olivos y en la mayoría de los frutales conducidos en seto. Por todo ello, los objetivos principales de esta tesis fueron, (i) evaluar el efecto de la orientación del seto y del ancho de calle, sobre la productividad y calidad del aceite, (ii) evaluar un modelo que estime la radiación dentro de la canopia. Este modelo permitirá cuantificar las relaciones entre la radiación y los componentes del rendimiento y calidad del aceite de olivares en setos con un amplio rango de estructuras y (iii) conocer la variabilidad en las características de las hojas (morfológicas y fisiológicas) y de los tejidos del fruto (tamaño y composición) en diferentes posiciones de la copa de los setos. Para ello, se dispuso de 3 ensayos de olivar en seto (cv. Arbequina) implantados en 2008 en el municipio de La Puebla de Montalbán, Toledo. La primera cosecha fue en 2010 y a partir del 2012 los setos formaron una copa continua. A partir de ese año, los setos se mantuvieron mediante poda, con similar ancho (~1 m) y altura (~2,5 m), acordes a las dimensiones de la cosechadora vendimiadora. En los años 2012 y 2013 se estudió en profundidad la respuesta de las plantas de estos ensayos. En el ensayo 1, los setos fueron plantados con cuatro orientaciones de filas: N–S, NE–SO, NO–SE y E–O y el mismo ancho de calle (4 m). En los otros dos ensayos, los setos fueron plantados con tres anchos de calle (5,0, 4,0 y 2,5 m), y con filas orientadas N–S (ensayo 2) y E–O (ensayo 3). La respuesta de la orientación de las filas se evaluó a nivel de seto y de estratos del seto (alturas y caras), a través de mediciones del crecimiento de brotes, componentes reproductivos, características y temperatura del fruto, estado hídrico del suelo y de las plantas, fotosíntesis neta de las hojas y contenido de ácidos grasos. Los setos orientados NE–SO (2,7 t/ha) lograron la mayor producción de aceite, que fue significativamente más alta que la de los setos E–O (2,3 t/ha). La producción de aceite de los setos E–O no se diferenció estadísticamente de los setos N–S (2,5 t/ha). Las diferencias productivas entre orientaciones fueron explicadas por el número de frutos en cosecha, a su vez la variación en el número de frutos estuvo asociada al efecto de la orientación de las filas sobre el número de yemas desarrolladas y el porcentaje de inflorescencias fértiles. Las hojas en las caras iluminadas de los setos NE–SO y N–S presentaron mayor tasa fotosintética a la mañana (~10.0 h) que los setos E–O, en el año 2012, pero no en 2013. La orientación de las filas no tuvo un efecto significativo en el contenido de ácidos grasos de los aceites extraídos, esto ocurrió a pesar de variaciones en la temperatura interna de los frutos (3 °C) y de la radiación (40%) entre las distintas caras de los setos. La orientación del seto afectó significativamente al contenido relativo de agua del suelo, donde setos E–O presentaron valores más altos (12%) que setos N–S durante el verano y otoño. Sin embargo, el potencial hídrico de tallo fue similar entre orientaciones. En los ensayos 2 y 3, se evaluó el efecto que produce, a nivel de seto y de estratos (caras y alturas), reducir el ancho de calle de 5,0 a 4,0 y 2,5 m, en un seto orientado N–S y otro E–O, respectivamente. La relación entre altura/ancho de calle libre aumentó 0,6 a 0,8 y 1,6, al reducir 5,0, 4,0 y 2,5 m el ancho de calle, mientras la longitud de seto y el volumen de copa por hectárea incrementó 100% al reducir de 5,0 a 2,5 m, el ancho de calle. En los setos orientados N–S, la producción de aceite por ha acumulada en 4 campañas, incrementó significativamente un 52 %, al reducir de 5,0 a 2,5 m el ancho de calle. Los setos N–S con calle más estrecha (2,5 m) tuvieron un 19% menos frutos que los setos con calle más ancha (5,0 m) y a su vez el 60% de los mismos se localizaron los estratos altos de la canopia de los setos con calles estrecha en comparación al 40% en setos con calle de 5,0 m. En los estratos más bajos de los setos con calles de 2,5m hubo menor crecimiento de los brotes y los frutos tuvieron menor peso seco, contenido de aceite y madurez, que los frutos en los estratos bajos de los setos a 5,0 m. Los componentes del rendimiento y características de los frutos (agua y madurez) fueron similares entre la caras E y O, independientemente del ancho de calle. En los setos orientados E–O, la producción de aceite por ha acumulada en 4 campañas, no respondió significativamente al ancho de calle, debido a una disminución significativa en el número de frutos y producción de aceite por m de seto, al reducir de 5,0 a 2,5 m, el ancho de calle. En los setos orientados E–O, con calles de 5,0 m, los frutos presentaron similar peso seco, contenido de aceite y agua, en las caras S y N, sin embargo, cuando la calle fue reducida a 2,5, los frutos de la cara S fueron más pesado y maduros que en la cara N. Independientemente del ancho de calle y de la orientación del seto, el aceite presentó mayor contenido de ácidos palmitoleico, palmítico, esteárico y linoleico en los frutos del estrato más alto de la canopia disminuyendo hacia la base. En contraste, el contenido de ácido oleico aumentó desde el estrato más alto hacia la base de los setos. Las diferencias en el contenido de ácidos grasos entre la parte alta y baja de los setos, incrementó al reducir el ancho de calle en los setos N–S, pero no en los E-O. En conclusión, en olivares en seto, reducir el ancho de calle permite incrementar la producción de aceite, en setos orientados N–S, pero no en E–O. Un modelo que estima la cantidad y distribución de la radiación en toda la copa del seto, fue utilizado para estimar la radiación interceptada en distintos estratos del seto. El modelo requiere un valor del coeficiente de extinción (k) para estimar la transmisión de radiación a través de la copa, el cual fue obtenido experimentalmente (k=1,2). Utilizando los datos del ensayo 1, un único modelo lineal relacionó el peso seco y el rendimiento graso de setos con la radiación interceptada por los distintos estratos de setos con cuatro orientaciones de filas. La densidad de frutos fue también relacionada con la radiación, pero más débilmente. En los setos orientados N–S, plantados con tres anchos de calles, (ensayo 2) el contenido de ácidos palmitoleico y linoleico del aceite incrementó linealmente con el incremento de la radiación interceptada, mientras el contenido ácido oleico disminuyó linealmente con el incremento de la radiación. El contenido de ácidos grasos del aceite no estuvo relacionado con la radiación interceptada en setos orientados E–O (Ensayo 3). En los setos N–S y E–O, plantados con anchos de calle de 2,5 m, se estudiaron las interacciones entre la radiación y características de las hojas, número de fruto, tamaño y composición de los frutos a nivel de órgano, tejido y células. Independientemente de la orientación del seto, el área y el contenido de clorofila de las hojas incrementaron significativamente en los estratos más bajos de los setos. Mientras, las hojas de los estratos medios del seto presentaron mayor capacidad fotosintética que en los estratos bajos y alto de los setos. Los estratos del seto que interceptaron más radiación produjeron frutos con mayor tamaño y contenido de aceite en el mesocarpo, sin efectos sobre el tamaño y composición del endocarpo. A nivel celular, los frutos expuestos a mayor nivel de radiación desarrollaron en el mesocarpo células de mayor tamaño en comparación a frutos menos expuestos, mientras el número de células no fue afectado. Adicionalmente, el número y tamaño de las células estuvo relacionado con la composición del mesocarpo en términos de aceite, agua y peso seco menos aceite. Esta tesis, contribuye, desde una perspectiva integral del cultivo del olivo, a cuantificar el impacto de la orientación y ancho de calle sobre la producción y calidad del aceite en olivares conducidos en setos. El análisis y discusión de la relación entre la radiación y los componentes del rendimiento y calidad del aceite, puede ayudar a diseñar plantaciones en seto con dimensiones óptimas para la intercepción de la radiación. ABSTRACT In the last two decades, olive hedgerow system has been established by commercial growers to allow continuous mechanized pruning and especially harvest, reduce costs of manual labour and allow more rapid and timely management interventions. The adoption of hedgerow was done in the absence of adequate scientific knowledge of the impact of this orchard structure and associated mechanization on tree response, yield and quality, after centuries in low-density orchards and open-formed trees. The row orientation and width alley are fundamental aspects in the hedgerow design and have been scarcely studied in olive. Both aspects modify the radiation intercepted by the canopy, and consequently the productivity and oil quality, and once defined in orchard planting cannot be changed, so advantages and disadvantages remain fixed for the lifespan of the orchard. The main objectives of this thesis were to (i) evaluate the impact of the row orientation and width alley on productivity and oil quality by the measurements of profile of the determining processes of shoot growth, fruit temperature, yield components and fruit and oil characteristics on opposite sides of olive hedgerows. Additionally, the effect of row orientation on the plant water status was also evaluated; (ii) evaluate a mathematical model for estimating the radiation within the canopy and quantify the relationships between the radiation estimated and yield components and oil quality in olive hedgerows under wide range of structures and; (iii) determine the variability in the characteristics of the leaves (morphological and physiological) and fruit tissues (size and composition) in different positions of the hedgerows canopy. Three plots of olive hedgerows (cv. Arbequina) planted in 2008 in La Puebla de Montalbán, Toledo were evaluated during the 2012 and 2013 seasons. The hedgerows were maintained by lateral pruning and topping with the same width (1 m) and height (2.5 m) compatible with the intended harvester. In a plot (experiment 1), the hedgerows were planted with the same width alley (4 m) and four row orientations: N–S, NE–SW, NW–SE and E–W. Other two plots (Experiments 2 and 3) separated by approximately 100 m were planted with N–S and E–O oriented rows and three alley widths in each orientation: 5.0, 4.0 and 2.5 m. In the exp. 1, maximum fruit yield were achieved by NE–SW and NW–SW (15.7 t/ha). Of these, NE–SW achieved the highest oil yield (2.7 t/ha). There were no differences in fruit or oil yield between N–S (2.5 t oil/ha) and E–W (2.3 t oil/ha) orientations. Fruit number was the most important component to explain these differences, by previous influence on number of bud developed and percentage of fertile inflorescences. Fruit maturity and oil quality on both sides of the hedgerows were not affected by row orientation. This occurred despite significant variations in the internal fruit temperature, which was closely related to the irradiance received by the canopy and the time of day. Additionally, row orientation significantly affected the relative water content of the soil, where E–W oriented hedgerows showed consistently higher values than N–S during summer-autumn season. The stem water potential at midday, however, was similar between orientations, revealing possible lower water consumption of E–W than N–S oriented hedgerows. In the exp. 2, regardless of row orientation, reduction of row spacing from 5.0 to 4.0 and 2.5 m increases the ratio of canopy depth to free alley width (Al/An) from 0.6 to 0.8 and 1.6, respectively, and ads 25 and 100 % more hedgerow length per ha. In N–S oriented hedgerows, oil production per ha increased significantly by 14 and 52 % in 4.0 m and 2.5 m relative to 5.0 m row spacing, the effect being proportionally less than the increase in hedgerow length per ha. Hedgerows spaced 2.5 m with Al/An = 1.6 produced relatively fewer fruits per unit length than did wider spacings and were preferentially distributed in upper layers. Fruits located at the bottom of the canopy were smaller, with lower oil content and were less mature. In E–W oriented hedgerows, oil production per ha did not respond significantly to row spacing, despite the doubling of row length from the 5.0 to the 2.5 m row spacing. The explanation was found in fewer fruit per unit length of hedgerow and smaller oil content at 2.5 m than 5.0 m row spacing, averaged over the experimental period. In E–W hedgerows spaced at 5.0 m with Al/An = 0.6, the vertical profiles of fruit characteristics (mass, oil and water contents, and maturity) were similar between opposing sides, but at 4.0 m (Al/An= 0.8) and 2.5 m (Al/An=1.6) spacings, fruits on the S side were heavier and more mature than on N side. The oil extracted from fruits harvested at different heights of N–S and E–W oriented hedgerows showed higher palmitoleic, palmitic, stearic and linoleic contents at the canopy top decreasing toward base. The oleic content was reverse, increased from top to base. In N–S hedgerows, vertical gradients increased by reducing the alley width, but not in the E–W oriented hedgerows. The simulation of internal canopy irradiance was related in a single relationship (R2 = 0.63) to the vertical profiles of fruit weight and oil content of olive hedgerows with wide range of structures. The density of fruits was also associated with the irradiance but more weakly (R2 = 0.27), and revealed a more complex response involving changes in the vegetative structure by canopy management (topping) and the effect of radiation on the previous sequence that defines the number of fruits. The vertical profiles of oil quality traits were closely associated to canopy irradiance, but only when the N–S oriented hedgerows were considered. The contents of palmitoleic and linoleic acid in the oil increased linearly when intercepted irradiance increased from 9 to 19 mol PAR/m2. In contrast, oleic content decreased linearly in this irradiance range. Additionally, we advanced knowledge regarding the interactions among irradiance and leaf, fruit number, size and composition at organ-, tissue- and cellular- levels. The irradiance received at different positions in the canopy strongly affected the leaf area and chlorophyll content, and mesocarp size and composition (water and oil), without effects on endocarp size and composition. At the cellular level, light-exposed fruit developed larger mesocarp cells than shaded fruits, but cell number was not affected. Our results indicate that cell number and size are related to mesocarp composition in term of oil, water, and dry weight menus oil, although the specific manner in which they interact remains to be determined. This research contributes from an integral perspective of olive growing to quantify the impact of row orientation and width alley on productivity and oil quality in hedgerows systems. The analysis and discussion of the relationships between radiation and yield components and oil quality can help understand the impact of design olive hedgerows in general and in a wide range of environmental conditions.

Genetically aerodynamic optimization of the nose shape of a high-speed train entering a tunnel

The optimization of the nose shape of a high-speed train entering a tunnel has been performed using genetic algorithms(GA).This optimization method requires the parameterization of each optimal candidate as a design vector.The geometrical parameterization of the nose has been defined using three design variables that include the most characteristic geometrical factors affecting the compression wave generated at the entry of the train and the aerodynamic drag of the train.

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

Aerodynamic shape optimization of the nose of a high-speed train subjected to crosswind conditions

When dealing with the design of a high-speed train, a multiobjective shape optimization problem is formulated, as these vehicles are object of many aerodynamic problems which are known to be in conflict. More mobility involves an increase in both the cruise speed and lightness, and these requirements directly influence the stability and the ride comfort of the passengers when the train is subjected to a side wind. Thus, crosswind stability plays a more relevant role among the aerodynamic objectives to be optimized. An extensive research activity is observed on aerodynamic response in crosswind conditions.

Surrogate-based optimization of the nose shape of a train subjected to crosswind

Optimización multi-objetivo frente a varias direcciones del viento incidente del testero de un tren de alta velocidad

Climate and grazing control nurse effects in an Ecuadorian dry shrubby community

Positive plant interactions have strong effects on plant diversity at several spatial scales, expanding species distribution under stressful conditions. We evaluated the joint effect of climate and grazing on the nurse effect of Croton wagneri, by monitoring several community attributes at two spatial scales: microhabitat and plant community. Two very close locations that only differed in grazing intensity were surveyed in an Ecuadorian dry scrub ecosystem. At each location, two 30 × 30-m plots were established at four altitudinal levels (1500, 2630, 1959 and 2100 m asl) and 40 microsites were surveyed in each plot. Croton wagneri acted as community hubs, increasing species richness and plant cover at both scales. Beneath nurses mean richness and cover values were 3.4 and 21.9%, and in open areas 2.3 and 4.5%, respectively. Magnitude of nurse effect was dependent on climate and grazing conditions. In ungrazed locations, cover increased and diversity reduced with altitude, while grazed locations showed the opposite trend. In ungrazed plots the interactions shifted from positive to negative with altitude, in grazed locations interactions remained positive. We conclude that the nurse effect is a key mechanism regulating community properties not only at microsite but also at the entire community scale.