Resistant tomato restricts colonization and invasion by the pathogen Ralstonia solanacearum at four organismal levels

Ralstonia solanacearum is a devastating bacterial vascular pathogen causing bacterial wilt. In the field, resistance against this disease is quantitative and only available for breeders in tomato and eggplant. To understand the basis of resistance in tomato, we have investigated the spatio-temporal bacterial colonization dynamics using non-invasive live monitoring techniques coupled to grafting of susceptible and resistant varieties. We revealed four different restrictions to the bacterium in resistant tomato: root colonization, vertical movement from roots to shoots, circular vascular bundle invasion and radial apoplastic spread in the cortex. We also show that the radial invasion of cortical extracellular spaces occurs mostly at late disease stages but is observed throughout plant infection. This work shows that resistance is expressed both in root and shoot tissues and highlights the importance of structural constraints to bacterial spread as a resistance mechanism. It also shows that R. solanacearum is not only a vascular pathogen but spreads "out of the xylem", occupying the plant apoplast niche. Our work will help elucidate the complex genetic determinants of resistance, setting the foundations to decipher the molecular mechanisms that limit pathogen colonization, which may provide new potential precision tools to fight bacterial wilt in the field

Coherent control of stimulated Raman scattering using chirped laser pulses

A novel method for the control of stimulated Raman scattering and hot electron production in short-pulse laser-plasma interactions is proposed. It relies on the use of a linear frequency chirp in nonbandwidth limited pulses. Theoretical calculations show that a 12% bandwidth will eliminate Raman forward scattering for a plasma density that is 1% of the critical density. The predicted changes to the growth rate are confirmed in two-dimensional particle-in-cell simulations. Relevance to areas of current research is also discussed. © 2001 American Institute of Physics.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/70620/2/PHPAEN-8-8-3531-1.pd

Elaboració d'una web per facilitar la comprensió dels mecanismes biològics implicats en la reproducció humana

Els mecanismes biològics implicats, tant en la formació de gàmetes masculines i femenines com en la fecundació, són molt complexes. Per tal de facilitar la seva comprensió hem elaborat una pàgina web que inclou material bàsic, microfotografies, esquemes, representacions animades i pel·lícules. La majoria del material introduït és inèdit o propi, doncs la recerca de l'equip que ha elaborat la web s'inclou dins del camp de la Reproducció Humana.A més, per augmentar l'interès de l'alumnat, hem afegit a la web el tema de la Reproducció Assistida. Gràcies als coneixements bàsics, els nostres estudiants, podran entendre millor els fonaments i les diferents estratègies emprades actualment en la Reproducció Humana Assistida. A la vegada, també s'han inclòs temes estretament relacionats com les principals causes d'infertilitat humana, el consell genètic o el diagnòstic pre-concepcional, pre-implantacional i pre-natal. Donat l'enorme interès social del tema creiem que aquesta web serà consultada no únicament pel nostre alumnat sinó també per alumnes d'altres Facultats de la UAB i d'altres Universitats Catalanes

Collisionless Shock Acceleration of protons in a plasma slab produced in a gas jet by the collision of two laser-driven hydrodynamic shockwaves

We recently proposed a new technique of plasma tailoring by laser-driven hydrodynamic shockwaves generated on both sides of a gas jet [J.-R. Marqu\`es et al., Phys. Plasmas 28, 023103 (2021)]. In the continuation of this numerical work, we studied experimentally the influence of the tailoring on proton acceleration driven by a high-intensity picosecond-laser, in three cases: without tailoring, by tailoring only the entrance side of the ps-laser, or both sides of the gas jet. Without tailoring the acceleration is transverse to the laser axis, with a low-energy exponential spectrum, produced by Coulomb explosion. When the front side of the gas jet is tailored, a forward acceleration appears, that is significantly enhanced when both the front and back sides of the plasma are tailored. This forward acceleration produces higher energy protons, with a peaked spectrum, and is in good agreement with the mechanism of Collisionless Shock Acceleration (CSA). The spatio-temporal evolution of the plasma profile was characterized by optical shadowgraphy of a probe beam. The refraction and absorption of this beam was simulated by post-processing 3D hydrodynamic simulations of the plasma tailoring. Comparison with the experimental results allowed to estimate the thickness and near-critical density of the plasma slab produced by tailoring both sides of the gas jet. These parameters are in good agreement with those required for CSA

Anomalous Self-Generated Electrostatic Fields in Nanosecond Laser-Plasma Interaction

Electrostatic (E) fields associated with the interaction of a well-controlled, high-power, nanosecond laser pulse with an underdense plasma are diagnosed by proton radiography. Using a current 3D wave propagation code equipped with nonlinear and nonlocal hydrodynamics, we can model the measured E-fields that are driven by the laser ponderomotive force in the region where the laser undergoes filamentation. However, strong fields of up to 110 MV/m measured in the first millimeter of propagation cannot be reproduced in the simulations. This could point to the presence of unexpected strong thermal electron pressure gradients possibly linked to ion acoustic turbulence, thus emphasizing the need for the development of full kinetic collisional simulations in order to properly model laser-plasma interaction in these strongly nonlinear conditions.Comment: 12 pages, 4 figures, submitted to Physics of Plasma

Mapping Vesta: First Results from Dawn’s Survey Orbit

The geologic objectives of the Dawn Mission [1] are to derive Vesta’s shape, map the surface geology, understand the geological context and contribute to the determination of the asteroids’ origin and evolution.Geomorphology and distribution of surface features will provide evidence for impact cratering, tectonic activity, volcanism, and regolith processes. Spectral measurements of the surface will provide evidence of the compositional characteristics of geological units. Age information, as derived from crater sizefrequency distributions, provides the stratigraphic context for the structural and compositional mapping results, thus revealing the geologic history of Vesta. We present here the first results of the Dawn mission from data collected during the approach to Vesta, and its first discrete orbit phase – the Survey Orbit, which lasts 21 days after the spacecraft had established a circular polar orbit at a radius of ~3000 km with a beta angle of 10°-15°

Dynamics of nanosecond laser pulse propagation and of associated instabilities in a magnetized underdense plasma

The propagation and energy coupling of intense laser beams in plasmas are critical issues in laser-driven inertial confinement fusion. Applying magnetic fields to such a setup has been evoked to enhance fuel confinement and heating, and mitigate laser energy losses. Here we report on experimental measurements demonstrating improved transmission and increased smoothing of a high-power laser beam propagating in an underdense magnetized plasma. We also measure enhanced backscattering, which our simulations show is due to hot electrons confinement, thus leading to reduced target preheating

LP-51: Determining of a broad range of organic chemicals in seminal plasma through an innovative LC-HRMS-based methodology suitable for target and non-target analysis

In recent years, there has been a growing concern about the impact of emerging pollutants on reproductive health and semen quality in healthy men. Most studies have focused on investigating the association between human semen quality and exposure to organic contaminants in blood or urine samples. However, there is a notable lack of effective methodologies for detecting a wide range of organic chemicals in semen. To address this gap, we have developed and validated a robust LC-HRMS methodology for semen analysis. This methodology is capable of determining over 2,000 chemicals in seminal plasma and is compatible with suspect and non-target strategies, making it valuable for studies on male fertility. To demonstrate the potential of this methodology in characterizing the chemical exposome in seminal plasma, we analyzed exogenous organic chemicals and associated metabolites, such as plastic additives, PFAS, flame retardants, surfactants, and insecticides, in ten samples obtained from the LED-FERTYL general population cohort based in Catalonia, Spain.Peer reviewe