Effect of solute and matric potential on growth rate of fungal species isolated from cheese

The effect of water potential ( J w ) on the growth of 15 fungal species isolated from cheeses was analysed. The species, identified mainly by analysis of DNA sequences, belonged to genera Penicillium , Geotrichum , Mucor , Aspergillus , Microascus and Talaromyces . Particularly, the effect of matric potential ( J m ), and ionic (NaCl) and non-ionic (glycerol) solute potentials ( J s ) on growth rate was studied. The response of strains was highly dependent on the type of J w . For J s , clear profiles for optimal, permissive and marginal conditions for growth were obtained, and differences in growth rate were achieved comparing NaCl and glycerol for most of the species. Conversely, a sustained growth was obtained for J m in all the strains, with the exception of Aspergillus pseudoglaucus , whose growth increased proportionally to the level of water stress. Our results might help to understand the impact of environmental factors on the ecophysiology and dynamics of fungal populations associated to cheeses.

Growth rate and TRI5 gene expression profiles of Fusarium equiseti strains isolated from Spanish cereals cultivated on wheat and barley media at different environmental conditions

Fusarium equiseti is a toxigenic species that often contaminates ce real crops from diverse climatic regions such as Northern and Southern Europe. Previous results suggested the existence of two distinct populations within this species with differences in toxin pro file which largely corresponded to North and South Europe (Spain). In this work, growth rate profiles of 4 F. equiseti strains isolated from different cereals and distinct Spanish regions were determined on wheat and barley based media at a range of temperatures (15, 20, 25, 30, 35 and 40 °C) and water potentialregimens(−0.7,−2.8,−7.0,and −9.8MPa,correspondingto 0.99,0.98,0.95 and 0.93aw values).Growth was observed at all temperatures except at 40 °C, and at all the solute potential values except at−9.8 MPa when combined with 15 °C. Optimal growth was observed at 20– 30 °C and −0.7/−2.8 MPa. The effect of these factors on trichothecene biosynthesis was examined on a F. equiseti strain using a newly developed real time RT-PCR protocol to quantify TRI5 gene expression at 15, 25 and 35 °C and −0.7, −2.8, − 7.0 and −9.8 MPa on wheat and barley based media. Induction of TRI5 expression was detected between 25 and 35 °C and −0.7 and − 2.8 MPa, with maximum values at 35 °C and −2.8 MPa being higher in barley than in wheat medium. These results appeared to be consistent with a population well adapted to the present climatic conditions and predicted scenarios for Southern Europe and suggested some differences depending on the cereal considered. These are also discussed in relation to other Fusarium species co-occurring in cereals grown in this region and to their significance for prediction and control strategies of toxigenic risk in future scenarios of climate change for this region.

Effect of solute and matric potential on growth rate of fungal species isolated from cheese

The effect of water potential ( J w ) on the growth of 15 fungal species isolated from cheeses was analysed. The species, identi fi ed mainly by analysis of DNA sequences, belonged to genera Penicillium, Geotrichum, Mucor , Aspergillus , Microascus and Talaromyces . Particularly, the effect of matric potential ( J m ), and ionic (NaCl) and non-ionic (glycerol) solute potentials ( J s ) on growth rate was studied. The response of strains was highly dependent on the type of J w . For J s, clear profiles for optimal, permissive and marginal conditions for growth were obtained, and differences in growth rate were achieved comparing NaCl and glycerol for most of the species. Conversely, a sustained growth was obtained for J m in all the strains, with the exception of Aspergillus pseudoglaucus, whose growth increased proportionally to the level of water stress. Our results might help to understand the impact of environmental factors on the ecophysiology and dynamics of fungal populations associated to cheeses.

Efecto de la infección por virus persistentes y no persistentes sobre el comportamiento alimenticio, la preferencia, tasa de aterrizaje y asentamiento y la eficacia biológica de Aphis gossypii Glover

En el complejo de plagas que atacan a los principales cultivos hortícolas protegidos, destacan principalmente los Hemípteros, y dentro de estos los pulgones, dada su importancia como vectores de virus que provocan considerables daños y pérdidas económicas. Debido a que la dispersión de la mayoría de los virus de plantas puede ser eficaz con densidades bajas de vectores y su control es muy complicado al no existir métodos curativos para su control, es necesario generar nuevos conocimientos sobre las interacciones virus-vector con el fin de desarrollar nuevas y eficaces estrategias de control. Por ello, el objetivo general de esta Tesis ha sido conocer el efecto de la infección viral (directo-mediado por la presencia del virus en el vector- e indirecto-mediado por las alteraciones físico-químicas que se originan en la planta como consecuencia de la infección viral-) sobre el comportamiento y eficacia biológica del vector Aphis gossypii Glover y sus posibles repercusiones en la epidemiología de virosis de transmisión no persistente (Cucumber mosaic virus, CMV, Cucumovirus) y persistente (Cucurbit aphid-borne yellows virus, CABYV, Polerovirus). El primer objetivo de esta Tesis Doctoral, se centró en el estudio del efecto indirecto del virus de transmisión no persistente CMV sobre el comportamiento alimenticio y la preferencia del pulgón A. gossypii en el cultivo de pepino. Los ensayos de despegue y aterrizaje mostraron que los pulgones que fueron liberados en las plantas de pepino infectadas con CMV tuvieron una mayor propensión en migrar hacia las plantas no infectadas (60, 120 y 180 minutos después de la liberación) que aquellos que fueron sometidos al tratamiento contrario (planta no infectada hacia planta infectada con CMV). El estudio de preferencia y asentamiento mostró que el vector A. gossypii prefiere asentarse en plantas infectadas con CMV en una etapa temprana de evaluación (30 minutos después de la liberación). Sin embargo, este comportamiento se revirtió en una etapa posterior (4 y 48 horas después de la liberación), donde los pulgones se asentaron más en las plantas no infectadas. A través de la técnica de Gráficos de Penetración Eléctrica (EPG) se observó un efecto indirecto del virus CMV, revelado por un cambio brusco en el comportamiento de prueba del pulgón a lo largo del tiempo, cuando éstos fueron expuestos a las plantas infectadas con CMV. Los primeros 15 minutos de registro EPG mostraron que los pulgones hicieron un número mayor de punciones intracelulares (potencial drops - pds) y pruebas en las plantas infectadas con CMV que en las plantas no infectadas. Por otra parte, la duración de la primera prueba fue más corta y la duración total de las pds por insecto fue mucho más larga en las plantas infectadas con CMV. Se observaron diferencias significativas en el tiempo transcurrido desde el final de la última pd hasta el final de la prueba, siendo ese tiempo más corto para los pulgones que estaban alimentándose en plantas infectadas con CMV. En la segunda hora de registro los pulgones rechazaron las plantas infectadas con CMV como fuente de alimento, permaneciendo menos tiempo en las fases de prueba en floema (fase de salivación – E1 y fase de ingestión del floema – E2). El comportamiento alimenticio observado sobre las plantas infectadas con CMV favorece la adquisición y posterior transmisión de los virus de transmisión no persistente, los cuales son adquiridos e inoculados durante la realización de pruebas intracelulares en las primeras pruebas de corta duración. En el segundo objetivo de la Tesis se evaluó el efecto directo e indirecto del virus de transmisión persistente CABYV en el comportamiento alimenticio y preferencia del pulgón A. gossypii en cultivo de pepino, especie susceptible al virus, y algodón, especie inmune al virus. No se observó un efecto directo del virus relevante en el comportamiento alimenticio del vector, ya que los resultados obtenidos a nivel floemático en plantas de pepino no se observaron en plantas de algodón, inmune al virus CABYV. Esto sugiere que los resultados obtenidos en pepino, pueden deberse a un “posible efecto indirecto” originado por la infección de las plantas susceptibles al virus durante la realización del ensayo, lo que indirectamente puede modificar el comportamiento del pulgón durante la fase de evaluación. Sin embargo, el virus CABYV modificó indirectamente el comportamiento alimenticio de su vector a través de cambios en la planta infectada. Los pulgones tardaron menos tiempo en llegar al floema, realizaron un mayor número de pruebas floemáticas y permanecieron durante más tiempo en actividades floemáticas en plantas infectadas con CABYV. El comportamiento observado sobre las plantas infectadas con CABYV favorece la adquisición de virus persistentes, los cuales son adquiridos durante la alimentación sostenida en floema. El estudio de preferencia y asentamiento de A. gossypii mostró que los pulgones virulíferos prefieren asentarse en plantas no infectadas a corto y largo plazo de evaluación (2, 4 y 48 horas después de la liberación). Los ensayos de despegue y aterrizaje mostraron que los pulgones virulíferos que fueron liberados en las plantas de pepino infectadas con CABYV tuvieron una mayor propensión en migrar hacia las plantas no infectadas (3, 6, 24 y 48 horas después de la liberación) que aquellos que fueron sometidos al tratamiento contrario (planta no infectada hacia planta infectada con CABYV). Sin embargo, los pulgones no virulíferos no mostraron preferencia por plantas de pepino no infectadas o infectadas con CABYV en ninguno de los ensayos (preferencia o despegue) o periodos evaluados (corto y largo plazo). Los resultados indican que el virus CABYV es capaz de modificar indirectamente el comportamiento alimenticio de su vector a través de cambios en la planta infectada, favoreciendo su adquisición por su principal vector, A. gossypii. Una vez que los pulgones tienen capacidad de transmitir el virus (virulíferos) se produce un cambio en su comportamiento prefiriendo asentarse sobre plantas no infectadas optimizándose así la dispersión viral. El tercer objetivo de la Tesis, fue evaluar los efectos directos e indirectos del virus CABYV así como los efectos indirectos del virus CMV en la eficacia biológica del vector A. gossypii. Los resultados obtenidos en los ensayos realizados con el virus persistente CABYV indican que el virus parece no modificar directamente ni indirectamente la eficacia biológica del vector en plantas de pepino o algodón, no observándose diferencias estadísticas en ninguno de los parámetros poblacionales evaluados (tiempo de desarrollo, tasa intrínseca de crecimiento, tiempo generacional medio, tasa media de crecimiento relativo y ninfas totales). En cuanto a los ensayos realizados con el virus no persistente, CMV, los resultados muestran un efecto indirecto del virus sobre la biología del vector. Así resultó que tanto la tasa intrínseca de crecimiento natural (rm) como la tasa media de crecimiento relativo (RGR) fueron más altas para pulgones crecidos sobre plantas infectadas con CMV que sobre plantas no infectadas, favoreciendo la reproducción y crecimiento poblacional del vector sobre plantas infectadas con CMV. Los resultados obtenidos en la presente Tesis, ofrecen un ejemplo de como los virus de plantas pueden manipular directa e indirectamente a su vector, maximizando así su dispersión entre las plantas. Esos nuevos conocimientos generados tienen implicaciones importantes en la transmisión, dispersión y en la epidemiología de los virus y deben ser considerados para diseñar o ajustar los modelos de simulación existentes y patrones de dispersión que describen las epidemias de estos virus. ABSTRACT The main objective of this Thesis has been to understand the effect of the viral infection (direct-mediated by the presence of the virus in the vector and indirect mediated by the chemical and physical changes originated in the plant as a consequence of the viral infection) on the behaviour and biological efficacy of the vector Aphis gossypii Glover and its consequences in the epidemiology of two viral diseases, one with non-persistent transmission (Cucumber mosaic virus, CMV, Cucumovirus) and another with persistent transmission (Cucurbit aphid-borne yellows virus, CABYV, Polerovirus). The first objective of this Thesis was the study of the indirect effect of the nonpersistent virus CMV on the feeding behaviour and preference of the aphid A. gossypii in cucumber plants. The results of the alighting and settling behaviour studies showed that aphids exhibited no preference to migrate from CMV-infected to mock-inoculated plants at short time intervals (1, 10 and 30 min after release), but showed a clear shift in preference to migrate from CMV-infected to mock-inoculated plants 60 min after release. Our free-choice preference assays showed that A. gossypii alates preferred CMV-infected over mockinoculated plants at an early stage (30 min), but this behaviour was reverted at a later stage and aphids preferred to settle and reproduce on mock-inoculated plants. The electrical penetration graph (EPG) technique revealed a sharp change in aphid probing behaviour over time when exposed to CMV-infected plants. At the beginning (first 15 min) aphid vectors dramatically increased the number of short superficial probes and intracellular punctures when exposed to CMV-infected plants. At a later stage (second hour of recording) aphids diminished their feeding on CMV-infected plants as indicated by much less time spent in phloem salivation and ingestion (E1 and E2). This particular probing behaviour including an early increase in the number of short superficial probes and intracellular punctures followed by a phloem feeding deterrence is known to enhance the transmission efficiency of viruses transmitted in a NP manner. We conclude that CMV induces specific changes in a plant host that modify the alighting, settling and probing behaviour of its main vector A. gossypii, leading to optimum transmission and spread of the virus. The second objective of this work was to evaluate the effects that the persistently aphid transmitted Cucurbit aphid-borne yellows virus (CABYV) can induce directly and indirectly on the alighting, settling and probing behaviour activities of the cotton aphid A. gossypii. Only minor direct changes on aphid feeding behaviour was observed due to CABYV when viruliferous aphids fed on mock-inoculated plants. However, the feeding behaviour of non-viruliferous aphids was very different on CABYV-infected than on mockinoculated plants. Non-viruliferous aphids spent longer time feeding from the phloem when plants were infected by CABYV than on mock-inoculated plants, suggesting that CABYV indirectly manipulates aphid feeding behaviour through its shared host plant in order to favour viral acquisition. The vector alighting and settling preference was compared between nonviruliferous and viruliferous aphids. Viruliferous aphids showed a clear preference for mockinoculated over CABYV-infected plants at short and long time, while such behaviour was not observed for non-viruliferous aphids. Overall, our results indicate that CABYV induces changes in its host plant that modifies aphid feeding behaviour in a way that virus acquisition from infected plants is enhanced. Once the aphids become viruliferous they prefer to settle on healthy plants, leading to optimize the transmission and spread of the virus. The third objective was to evaluate the direct and indirect effects of CABYV and indirect effects of the CMV on the A. gossypii fitness. Obtained results for the persistent virus CABYV showed that the virus did not modify the vector fitness in cucumber or cotton plants. None of the evaluated variables was statistically significant (development time (d), intrinsic growth rate (rm), mean relative growth rate (RGR) and total number of nymphs). On the other hand, data obtained for the non-persistent virus (CMV) showed an indirect effect of the virus on the vector fitness. Thus, the rm and RGR were higher for aphids grown on CMV-infected plants compared to aphids grown on mock-inoculated plants. Overall, the obtained results are clear examples of how plant viruses could manipulate directly and indirectly vector behaviour to optimize its own dispersion. These results are important for a better understanding of transmission, dispersion and epidemiology of plant viruses transmitted by vectors. This information could be also considered to design or adjust simulation models and dispersion patterns that describe plant virus epidemics.

Growth response to ozone of annual species from Mediterranean pastures

Ozone (O3) phytotoxicity has been reported on a wide range of plant species. However, scarce information has been provided regarding the sensitivity of semi-natural grassland species, especially those from dehesa Mediterranean grasslands, in spite of their great biological diversity and the high O3 levels recorded in the region. A screening study was carried out in open-top chambers (OTCs) to assess the O3-sensitivity of representative therophytes of these ecosystems based on the response of selected growth-related parameters. Three O3 treatments and 3 OTCs per treatment were used. Legume species were very sensitive to O3, because 78% of the tested species showed detrimental effects on their total biomass relative growth rate (RGR) following their exposure to O3. The Trifolium genus was particularly sensitive showing O3-induced adverse effects on most of the assessed parameters. Gramineae plants were less sensitive than Leguminosae species because detrimental effects on total biomass RGR were only observed in 14% of the assessed species. No relationship was found between relative growth rates when growing in clean air and O3 susceptibility. The implications of these effects on the performance of dehesa acidic grasslands and on the definition of ozone critical levels for the protection of semi-natural vegetation are discussed.

Monte Carlo simulation of circular grain growth

Monte Carlo simulations have been carried out to study the effect of temperature on the growth kinetics of a circular grain. This work demonstrates the importance of roughening fluctuations on the growth dynamics. Since the effect of thermal fluctuations is stronger in d =2 than in d =3, as predicted by d =3 theories of domain kinetics, the circular domain shrinks linearly with time as A (t)=A(0)-αt, where A (0) and A(t) are the initial and instantaneous areas, respectively. However, in contrast to d =3, the slope α is strongly temperature dependent for T≥0.6TC. An analytical theory which considers the thermal fluctuations agrees with the T dependence of the Monte Carlo data in this regime, and this model show that these fluctuations are responsible for the strong temperature dependence of the growth rate for d =2. Our results are particularly relevant to the problem of domain growth in surface science

Effect of sugar beet pulp fibre fractions on growth performance, fecal digestibility and digestive physiology in rabbits around weaning

The present study investigated the effect of the different fibre components of sugar beet pulp (SBP) on growth performance and some digestive traits. Four semi-synthetic diets were formulated with similar NDF (33% DM) and protein (16% DM) level. Control diet was formulated to contain the lowest level of soluble fibre (3% DM) and SBP diet the highest (9%). The soluble (pectins) and insoluble fractions of SBP were studied in other two diets (Pectin and InsSBP diets). A total of 136 weanling rabbits (25 d of age) was housed individually, randomly assigned to 4 experimental groups, and fed ad libitum with the experimental diets during 10 days after weaning. The type of diet did not affect growth rate and stomach pH. Animals fed with SBP diet showed higher DM and NDF digestibility (4 and 83%, respectively), gain:feed ratio (13%), cecal and total tract weight (13 and 9%) and ileal viscosity (148%) than rabbits fed the Control diet, but lower cecal pH (9%). Pectin diet increased ileal viscosity and decreased the weight of stomach content with respect to SBP diet. Rabbits fed InsSBP diet showed similar results to SBP diet but lower ileal viscosity and cecal pH than those fed Pectin diet. In conclusion, SBP and their soluble and insoluble fractions are well digested in young rabbits. However the soluble and insoluble fibre of SBP produce different effects in the gastrointestinal tract.

Molecular dynamics modeling and simulation of void growth in two dimensions

The mechanisms of growth of a circular void by plastic deformation were studied by means of molecular dynamics in two dimensions (2D). While previous molecular dynamics (MD) simulations in three dimensions (3D) have been limited to small voids (up to ≈10 nm in radius), this strategy allows us to study the behavior of voids of up to 100 nm in radius. MD simulations showed that plastic deformation was triggered by the nucleation of dislocations at the atomic steps of the void surface in the whole range of void sizes studied. The yield stress, defined as stress necessary to nucleate stable dislocations, decreased with temperature, but the void growth rate was not very sensitive to this parameter. Simulations under uniaxial tension, uniaxial deformation and biaxial deformation showed that the void growth rate increased very rapidly with multiaxiality but it did not depend on the initial void radius. These results were compared with previous 3D MD and 2D dislocation dynamics simulations to establish a map of mechanisms and size effects for plastic void growth in crystalline solids.

A simple mathematical model that describes the growth of the area and the number of total and viable cells in yeast colonies

We propose a model, based on the Gompertz equation, to describe the growth of yeasts colonies on agar medium. This model presents several advantages: (i) one equation describes the colony growth, which previously needed two separate ones (linear increase of radius and of the squared radius); (ii) a similar equation can be applied to total and viable cells, colony area or colony radius, because the number of total cells in mature colonies is proportional to their area; and (iii) its parameters estimate the cell yield, the cell concentration that triggers growth limitation and the effect of this limitation on the specific growth rate. To elaborate the model, area, total and viable cells of 600 colonies of Saccharomyces cerevisiae, Debaryomyces fabryi, Zygosaccharomyces rouxii and Rhodotorula glutinis have been measured. With low inocula, viable cells showed an initial short exponential phase when colonies were not visible. This phase was shortened with higher inocula. In visible or mature colonies, cell growth displayed Gompertz-type kinetics. It was concluded that the cells growth in colonies is similar to liquid cultures only during the first hours, the rest of the time they grow, with near-zero specific growth rates, at least for 3 weeks.