Bases ecofisiológicas de la determinación del rendimiento y la calidad de grano en maíces pisingallo

El cultivo de maíz pisingallo (Zea mays L. var. everta) es una alternativa conveniente en la diversificación de la producción de granos en Argentina, sin embargo las bases ecofisiológicas de la determinación del rendimiento y la calidad han sido fundamentadas sobre maíces de tipo dentado, mientras que en maíces pisingallo se desconocen. El objetivo de esta tesis es entender cómo los maíces pisingallos determinan sus componentes del rendimiento, el nivel de proteína en grano y su volumen de expansión (principal criterio de calidad comercial)por medio de un marco conceptual basado en el crecimiento y partición de biomasa del cultivo en torno a floración y durante el llenado efectivo de los granos. Durante 2007 y 2008 se llevaron a cabo tres experimentos a campo en donde la tasa de crecimiento por planta fue alterada por medio de tratamientos de densidad de siembra y de raleo de plantas y defoliaciones (en torno a floración y durante el llenado efectivo)en 4 genotipos dentados y 8 pisingallos. Ambos tipos de maíz tuvieron en común una fuerte asociación de su rendimiento con la capacidad potencial de rendimiento establecida en torno a floración (R2 igual a 0,93, p menor a 0,001), pero difirieron en la determinación del peso de grano. El peso de grano potencial en maíces pisingallos siempre fue menor ante una misma disponibilidad de asimilados por grano en torno a floración (p menor a 0,05), mientras que el peso final de grano se redujo menos que el de los dentados ante una misma disminución en la disponibilidad de asimilados durante el llenado (p menor a 0,05). La concentración y contenido de proteínas del grano, y su volumen de expansión, estuvieron asociados principalmente a la tasa de crecimiento por planta por grano durante el llenado efectivo, y en menor medida con dicha tasa en torno a floración. Los resultados de esta tesis resaltan la importancia de las condiciones de crecimiento en torno a floración para la determinación del rendimiento dentro de un conjunto diverso de germoplasma de maíz (dentado y pisingallo)y demuestran, por primera vez, que el volumen de expansión de grano de maíz pisingallo puede ser predicho a partir del crecimiento del cultivo.

Aspectos de preferencia alimentaria de Plutella xylostella L. (Lepidoptera ; Yponomeutidae) en algunas cruciferas cultivadas

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Modelado de la dinámica y producción forestal de la Selva Pedemontana de Yungas, Argentina

Las Yungas representan el ecosistema de Selvas subtropicales de mayor extensión de la Argentina, constituyendo un área de gran biodiversidad y de recursos madereros. En ella la explotación forestal fue intensa debido a su relieve de pendiente suave, cercanía a centros urbanos y a la creciente demanda de productos madereros causando una gran fragmentación y comprometiendo su resiliencia. La sustentabilidad del manejo forestal se basa en el conocimiento de la composición florística, del crecimiento, la dinámica poblacional y la proyección en el tiempo de la evolución del bosque. Los objetivos planteados en esta tesis fueron determinar la composición y estructura forestal, definir las curvas de crecimientos, determinar las tasas de reclutamiento y mortalidad de las especies de valor, y proyectar la evolución de la Selva en distintas situaciones de manejo. Los parámetros estructurales muestran que las especies dominantes son Anadenanthera colubrina var cebil, Phyllostilon rhamnoides, Trichilia hieronymi, Parapiptadenia excelsa y Calycophyllum multiflorum. Las bajas tasas de incorporaciones y existencias de las especies de mayor valor, Cedrela balansae, Myroxylon peruiferum y Amburana cearensis, determinan su vulnerabilidad. La dinámica está determinada por la formación de claros que generan cambios en las condiciones de luz. Las variables que influyen sobre el crecimiento diamétrico son el tamaño del individuo, la posición sociológica y la densidad del rodal. Las especies de mayores crecimientos diamétricos son C. balansae, A. colubrina var. cebil, P. excelsa, Astronium urundeuva y M. peruiferum siendo el tiempo estimado en lograr sus diámetros mínimos de corta (DMC)de 50, 35, 60, 55 y 80 años respectivamente. La reducción de la densidad del rodal favorece los incrementos diamétricos de los individuos de las especies de valor forestal. La proyección del rodal demuestra que un aprovechamiento forestal realizado con las condiciones técnicas y DMC vigentes, la estructura, la dinámica y el volumen aprovechable no se recupera en un período de 25 años.

Efect of Nostoc muscorum Ag. on germination in vitro of Bremia lactucae sporangia in Lactuca sativa L. Regel

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Naturaleza de la fertilización y calidad de hortalizas

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Multiscale modelling of dendrite growth during vacuum arc remelting

Vacuum Arc Remelting (VAR) is the accepted method for producing homogeneous, fine microstructures that are free of inclusions required for rotating grade applications. However, as ingot sizes are increasing INCONEL 718 becomes increasingly susceptible to defects such as freckles, tree rings, and white spots increases for large diameter billets. Therefore, predictive models of these defects are required to allow optimization of process parameters. In this paper, a multiscale and multi-physics model is presented to predict the development of microstructures in the VAR ingot during solidification. At the microscale, a combined stochastic nucleation approach and finite difference solution of the solute diffusion is applied in the semi-solid zone of the VAR ingot. The micromodel is coupled with a solution of the macroscale heat transfer, fluid flow and electromagnetism in the VAR process through the temperature, pressure and fluid flow fields. The main objective of this study is to achieve a better understanding of the formation of the defects in VAR by quantifying the influence of VAR processing parameters on grain nucleation and dendrite growth. In particular, the effect of different ingot growth velocities on the microstructure formation was investigated. It was found that reducing the velocity produces significantly more coarse grains.

Vacuum arc remelting time dependent modelling

Vacuum arc remelting (VAR) aims at production of high quality, segregation-free alloys. The quality of the produced ingots depends on the operating conditions which could be monitored and analyzed using numerical modelling. The remelting process uniformity is controlled by critical medium scale time variations of the order 1-100 s, which are physically initiated by the droplet detachment and the large scale arc motion at the top of liquid pool [1,2]. The newly developed numerical modelling tools are addressing the 3-dimensional magnetohydrodynamic and thermal behaviour in the liquid zone and the adjacent ingot, electrode and crucible.

Multiscale modeling of the onset of freckle formation during vacuum arc remelting

A multiscale model for the Vacuum Arc Remelting process (VAR) was developed to simulate dendritic microstructures during solidification and investigate the onset of freckle formation. On the macroscale, a 3D multi-physics model of VAR was used to study complex physical phenomena, including liquid metal flow with turbulence, heat transfer, and magnetohydrodynamics. The results showed that unsteady fluid flow in the liquid pool caused significant thermal perturbation at the solidification front. These results were coupled into a micromodel to simulate dendritic growth controlled by solute diffusion, including local remelting. The changes in Rayleigh number as the microstructure remelts was quantified to provide an indicator of when fluid flow channels (i.e. freckles) will initiate in the mushy zone. By examining the simulated microstructures, it was found that the Rayleigh number increased more than 300 times during remelting, which suggests that thermal perturbation could be responsible for the onset of freckle formation.

The ecology of Bacillus thuringiensis on the Phylloplane: colonization from soil, plasmid transfer, and interaction with larvae of Pieris brassicae

Seedlings of clover (Triflorium hybridum) were colonized by Bacillus thuringiensis when spores and seeds were co-inoculated into soil. Both a strain isolated in the vegetative form from the phylloplane of clover, 2810-S-4, and a laboratory strain, HD-1, were able to colonize clover to a density of about 1000 CFU/g leaf when seeds were sown in sterile soil and to a density of about 300 CFU/g leaf in nonsterile soil. A strain lacking the characteristic insecticidal crystal proteins produced a similar level of colonization over a 5-week period as the wild type strain, indicating that crystal production was not a mitigating factor during colonization. A small plasmid, pBC16, was transferred between strains of B. thuringiensis when donor and recipient strains were sprayed in vegetative form onto leaves of clover and pak choi (Brassica campestris var. chinensis). The rate of transfer was about 0.1 transconjugants/recipient and was dependent on the plant species. The levels of B. thuringiensis that naturally colonized leaves of pak choi produced negligible levels of mortality in third instar larvae of Pieris brassicae feeding on the plants. Considerable multiplication occurred in the excreted frass but not in the guts of living insects. Spores in the frass could be a source of recolonization from the soil and be transferred to other plants. These findings illustrate a possible cycle, not dependent on insect pathology, by which B. thuringiensis diversifies and maintains itself in nature.

Zooplankton Of The Bristol Channel And Severn Estuary - The Distribution Of 4 Copepods In Relation To Salinity

The seasonal variations in distribution and abundance of the common zooplankton species in the Bristol Channel and Severn Estuary were related to the salinity regimes observed over the period November 1973 to February 1975. The dominant constituents in all regions were the calanoid copepods, which reached maximum densities in July: approximately 100 times their winter levels. Four zooplankton assemblages were recognised using an objective classification program which computed similarity coefficients and used group-average sorting. The assemblages existed along the salinity gradient observed from the Severn Estuary to the Celtic Sea. The assemblages were classified as true estuarine, estuarine and marine, euryhaline marine and stenohaline marine and were characterized by the copepods Eurytemora affinis (Poppe) (<30‰S), Acartia bifilosa var. inermis (rose) (27 to 33.5‰S), Centropages hamatus (Lilljeborg) (31 to 35‰S) and Calanus helgolandicus (Claus) (>33‰S), respectively.

Assessing the sensitivity of seagrass bed biotopes to pressures associated with marine activities.

This project was commissioned to generate an improved understanding of the sensitivities of seagrass habitats to pressures associated with human activities in the marine environment - to provide an evidence base to facilitate and support management advice for Marine Protected Areas; development of UK marine monitoring and assessment, and conservation advice to offshore marine industries. Seagrass bed habitats are identified as a Priority Marine Feature (PMF) under the Marine (Scotland) Act 2010, they are also included on the OSPAR list of threatened and declining species and habitats, and are a Habitat of Principle Importance (HPI) under the Natural Environment and Rural Communities (NERC) Act 2006, in England and Wales. The purpose of this project was to produce sensitivity assessments with supporting evidence for the HPI, OSPAR and PMF seagrass/Zostera bed habitat definitions, clearly documenting the evidence behind the assessments and any differences between assessments. Nineteen pressures, falling in five categories - biological, hydrological, physical damage, physical loss, and pollution and other chemical changes - were assessed in this report. Assessments were based on the three British seagrasses Zostera marina, Z. noltei and Ruppia maritima. Z. marina var. angustifolia was considered to be a subspecies of Z. marina but it was specified where studies had considered it as a species in its own rights. Where possible other components of the community were investigated but the basis of the assessment focused on seagrass species. To develop each sensitivity assessment, the resistance and resilience of the key elements were assessed against the pressure benchmark using the available evidence. The benchmarks were designed to provide a ‘standard’ level of pressure against which to assess sensitivity. Overall, seagrass beds were highly sensitive to a number of human activities: • penetration or disturbance of the substratum below the surface; • habitat structure changes – removal of substratum; • physical change to another sediment type; • physical loss of habitat; • siltation rate changes including and smothering; and • changes in suspended solids. High sensitivity was recorded for pressures which directly impacted the factors that limit seagrass growth and health such as light availability. Physical pressures that caused mechanical modification of the sediment, and hence damage to roots and leaves, also resulted in high sensitivity. Seagrass beds were assessed as ‘not sensitive’ to microbial pathogens or ‘removal of target species’. These assessments were based on the benchmarks used. Z. marina is known to be sensitive to Labyrinthula zosterae but this was not included in the benchmark used. Similarly, ‘removal of target species’ addresses only the biological effects of removal and not the physical effects of the process used. For example, seagrass beds are probably not sensitive to the removal of scallops found within the bed but are highly sensitive to the effects of dredging for scallops, as assessed under the pressure penetration or disturbance of the substratum below the surface‘. This is also an example of a synergistic effect Assessing the sensitivity of seagrass bed biotopes to pressures associated with marine activities between pressures. Where possible, synergistic effects were highlighted but synergistic and cumulative effects are outside the scope off this study. The report found that no distinct differences in sensitivity exist between the HPI, PMF and OSPAR definitions. Individual biotopes do however have different sensitivities to pressures. These differences were determined by the species affected, the position of the habitat on the shore and the sediment type. For instance evidence showed that beds growing in soft and muddy sand were more vulnerable to physical damage than beds on harder, more compact substratum. Temporal effects can also influence the sensitivity of seagrass beds. On a seasonal time frame, physical damage to roots and leaves occurring in the reproductive season (summer months) will have a greater impact than damage in winter. On a daily basis, the tidal regime could accentuate or attenuate the effects of pressures depending on high and low tide. A variety of factors must therefore be taken into account in order to assess the sensitivity of a particular seagrass habitat at any location. No clear difference in resilience was established across the three seagrass definitions assessed in this report. The resilience of seagrass beds and the ability to recover from human induced pressures is a combination of the environmental conditions of the site, growth rates of the seagrass, the frequency and the intensity of the disturbance. This highlights the importance of considering the species affected as well as the ecology of the seagrass bed, the environmental conditions and the types and nature of activities giving rise to the pressure and the effects of that pressure. For example, pressures that result in sediment modification (e.g. pitting or erosion), sediment change or removal, prolong recovery. Therefore, the resilience of each biotope and habitat definitions is discussed for each pressure. Using a clearly documented, evidence based approach to create sensitivity assessments allows the assessment and any subsequent decision making or management plans to be readily communicated, transparent and justifiable. The assessments can be replicated and updated where new evidence becomes available ensuring the longevity of the sensitivity assessment tool. The evidence review has reduced the uncertainty around assessments previously undertaken in the MB0102 project (Tillin et al 2010) by assigning a single sensitivity score to the pressures as opposed to a range. Finally, as seagrass habitats may also contribute to ecosystem function and the delivery of ecosystem services, understanding the sensitivity of these biotopes may also support assessment and management in regard to these. Whatever objective measures are applied to data to assess sensitivity, the final sensitivity assessment is indicative. The evidence, the benchmarks, the confidence in the assessments and the limitations of the process, require a sense-check by experienced marine ecologists before the outcome is used in management decisions.

23. Revisión nomenclatural de la alianza Cistion laurifolii Rivas Goday 1956 y de sus sintaxones subordinados

La alianza Cistion laurifolii (Lavanduletalia stoechadis Br.-Bl. 1940 em. Rivas-Martínez 1968, Cisto-Lavanduletea Br.-Bl. 1940) reúne los jarales dominados por diversas especies de Cistus —principalmente Cistus laurifolius— y Lavandula pedunculata —cantueso endémico del interior de la península Ibérica—, a los que acompañan en algunas asociaciones gayubas (Arctostaphylos uva-ursi var. crassifolia) y ciertos brezos (Erica scoparia, Calluna vulgaris); como rasgo diferencial frente a otras alianzas de la clase destaca la ausencia de diversos caméfitos termófilos.

Aportaciones al estudio de algunas comunidades brioliquénicas de la provincia de León

Se hace un análisis de algunas comunidades brioliquénicas epifíticas en la vertiente meridional de la Cordillera Cantábrica en la provincia de León (NW de España), pertenecientes a las asociaciones Antitrichietum curtipendulae Frey & Ochsner 1926 y Nephrometum laevigatae Barkm. 1958. De laprimera se describe la subasociación antitrichietosum californicae nova, de carácter higrófilo, de los territorios supramediterráneos de ombroclima húmedo; y se señala la existencia de las subasociaciones antitrichietosum (Ochsner pro var.) Barkm. 1958 e isothecietosum myurii (Ochsner pro var.) Barkm. 1958. Asimismo se indica el dinamismo de las comunidades estudiadas y se relacionan con los forófitos y comunidades arbóreas donde se encuentran.

Contribución al conocimiento algológico del litoral levantino (España, Mediterráneo) III

Se cita la presencia de 28 taxones de algas marinas interesantes procedentes del litoral levantino (Espafla, Mediterráneo occidental). Veinticuatro constituyen nuevas citas para dicho tramo del litoral mediterráneo peninsular. Destaca la presencia de Peyssonnella codana, primera cita para las costas mediterráneas españolas; Peyssonnelia magna, Metapeyssonnelia feldmannii, Ceramium fastigiatum var. flaccida, y Cystoseria sauvageauana var. polyoedematis.