Using Heat to Characterize Streambed Water Flux Variability in Four Stream Reaches

Estimates of streambed water fl ux are needed for the interpretation of streambed chemistry and reactions. Continuous temperature and head monitoring in stream reaches within four agricultural watersheds (Leary Weber Ditch, IN; Maple Creek, NE; DR2 Drain, WA; and Merced River, CA) allowed heat to be used as a tracer to study the temporal and spatial variability of fluxes through the streambed. Synoptic methods (seepage meter and differential discharge measurements) were compared with estimates obtained by using heat as a tracer. Water flux was estimated by modeling one-dimensional vertical flow of water and heat using the model VS2DH. Flux was influenced by physical heterogeneity of the stream channel and temporal variability in stream and ground-water levels. During most of the study period (April–December 2004), flux was upward through the streambeds. At the IN, NE, and CA sites, high-stage events resulted in rapid reversal of flow direction inducing short-term surface-water flow into the streambed. During late summer at the IN site, regional ground-water levels dropped, leading to surface-water loss to ground water that resulted in drying of the ditch. Synoptic measurements of flux generally supported the model flux estimates. Water flow through the streambed was roughly an order of magnitude larger in the humid basins (IN and NE) than in the arid basins (WA and CA). Downward flux, in response to sudden high streamflows, and seasonal variability in flux was most pronounced in the humid basins and in high conductivity zones in the streambed

The Interpretation and application of the law with a gender perspective in Spain: challenges and outstanding issues

This work, situated within the Spanish legal context, presents a reflection upon the need to apply and interpret the law bearing in mind the mandate of the gender perspective contained in national and international legislation. In spite of the significant advances, in questions of gender equality, evidenced by the Spanish legal system in recent decades, these have not led to real, effective equality. In the spheres of both private and public law, this task should be prioritised and undertaken in transversal fashion by all legal operators, judges in particular. Without this commitment, the guarantee of women’s human rights will continue to be hindered by the shortcomings of an androcentric legal culture that perpetuates structural discrimination against women

Acoustic identification of Mexican bats based on taxonomic and ecological constraints on call design

1. Monitoring global biodiversity is critical for understanding responses to anthropogenic change, but biodiversity monitoring is often biased away from tropical, megadiverse areas that are experiencing more rapid environmental change. Acoustic surveys are increasingly used to monitor biodiversity change, especially for bats as they are important indicator species and most use sound to detect, localise and classify objects. However, using bat acoustic surveys for monitoring poses several challenges, particularly in mega-diverse regions. Many species lack reference recordings, some species have high call similarity or differ in call detectability, and quantitative classification tools, such as machine learning algorithms, have rarely been applied to data from these areas. 2. Here, we collate a reference call library for bat species that occur in a megadiverse country, Mexico. We use 4,685 search-phase calls from 1,378 individual sequences of 59 bat species to create automatic species identification tools generated by machine learning algorithms (Random Forest). We evaluate the improvement in species-level classification rates gained by using hierarchical classifications, reflecting either taxonomic or ecological constraints (guilds) on call design, and examine how classification rate accuracy changes at different hierarchical levels (family, genus, and guild). 3. Species-level classification of calls had a mean accuracy of 66% and the use of hierarchies improved mean species-level classification accuracy by up to 6% (species within families 72%, species within genera 71.2% and species within guilds 69.1%). Classification accuracy to family, genus and guild-level was 91.7%, 77.8% and 82.5%, respectively. 4. The bioacoustic identification tools we have developed are accurate for rapid biodiversity assessments in a megadiverse region and can also be used effectively to classify species at broader taxonomic or ecological levels. This flexibility increases their usefulness when there are incomplete species reference recordings and also offers the opportunity to characterise and track changes in bat community structure. Our results show that bat bioacoustic surveys in megadiverse countries have more potential than previously thought to monitor biodiversity changes and can be used to direct further developments of bioacoustic monitoring programs in Mexico

Periodontal Disease and Nuclear and Oxidative DNA Damage

Oral health is an important aspect of the overall health status of an individual. DNA damage has been associated with oral health and dental factors due to the increased of oxidative stress (OxS). DNA damage can produce a wide range of effects on human health. These effects could appear immediately, but others do not become evident much later. Chronic diseases have been study to understand their mechanisms, clinical implications, and the development of secondary disease such as cancer. Periodontitis is one of the most common oral diseases. It is an inflammatory chronic infectious disease, which is characterized by the loss of supporting tissues and tooth loss caused by periodontopathogens and long-term release of reactive oxygen species (ROS); thus, oxidative stress is increased during periodontitis. Oxidative stress can produce DNA damage, including the oxidation of nucleosides, which could cause DNA strand break. This oxidative damage leads the formation of micronuclei (MN) a marker of nuclear damage. Also, oxidative stress increased 8-hydroxy-2′-deoxyguanosine levels which are the most common stable product of oxidative DNA damage

Autophagy is Involved in Cardiac Remodeling in Response to Environmental Temperature Change

Objectives: To study the reversibility of cold-induced cardiac hypertrophy and the role of autophagy in this process. Background: Chronic exposure to cold is known to cause cardiac hypertrophy independent of blood pressure elevation. The reversibility of this process and the molecular mechanisms involved are unknown. Methods: Studies were performed in two-month-old mice exposed to cold (4°C) for 24 h or 10 days. After exposure, the animals were returned to room temperature (21°C) for 24 h or 1 week. Results: We found that chronic cold exposure significantly increased the heart weight/tibia length (HW/TL) ratio, the mean area of cardiomyocytes, and the expression of hypertrophy markers, but significantly decreased the expression of genes involved in fatty acid oxidation. Echocardiographic measurements confirmed hypertrophy development after chronic cold exposure. One week of deacclimation for cold-exposed mice fully reverted the morphological, functional, and gene expression indicators of cardiac hypertrophy. Experiments involving injection of leupeptin at 1 h before sacrifice (to block autophagic flux) indicated that cardiac autophagy was repressed under cold exposure and re-activated during the first 24 h after mice were returned to room temperature. Pharmacological blockage of autophagy for 1 week using chloroquine in mice subjected to deacclimation from cold significantly inhibited the reversion of cardiac hypertrophy. Conclusion: Our data indicate that mice exposed to cold develop a marked cardiac hypertrophy that is reversed after 1 week of deacclimation. We propose that autophagy is a major mechanism underlying the heart remodeling seen in response to cold exposure and its posterior reversion after deacclimation

Comisión de plan de estudios de la titulación de Ingeniería Técnica de Telecomunicaciones, especialidad en Sonido e Imagen de la EPS

La red docente de la Comisión de plan de estudios de la titulación de Ingeniería Técnica de Telecomunicación, especialidad en Sonido e Imagen de la EPS ha realizado durante el curso 2007/08 un estudio de los objetivos y competencias del futuro título de grado, así como el análisis y diseño de la posible estructura en bloques y asignaturas obligatorias en la que se podría distribuir dicho título. El estudio toma como base los resultados obtenidos en redes de cursos anteriores (ver memoria de redes 2005/06 y 2006/07), las cuales estaban orientadas al diseño curricular dentro del marco de los créditos ECTS para la convergencia al Espacio Europeo de Educación Superior, y sobre todo, se basa en la experiencia de los propios participantes en trabajos o redes previas. El objetivo principal de este proyecto es el diseño curricular del futuro título de grado en Ingeniería de Telecomunicación en Sonido e Imagen, directamente relacionada con la actual Ingeniería Técnica de Telecomunicación, especialidad en Sonido e Imagen, que se imparte en la Universidad de Alicante. Para ello se han seguido las pautas generales establecidas por el Real Decreto de ordenación de Enseñanzas Universitarias Oficiales (BOE, 30 de octubre de 2007), así como otros documentos elaborados por el Colegio Oficial de Ingenieros Técnicos de Telecomunicación y la Comisión de Universidades de Ingeniería Técnica de Telecomunicación

ALL-268 genetic classification of B-Cell precursor adult acute lymphoblastic leukemia patients enrolled in LAL19 trial from the pethema group: response to treatment and survival

Context: B-cell precursor acute lymphoblastic leukemia (BCP ALL) is a genetically heterogeneous neoplasm with >20 biologic subtypes. Each subtype shows specific genetic traits that determine relapse risk and patients' survival. Objectives: To establish the genetic subtype (primary alteration) of adult BCP ALL patients enrolled in the PETHEMA LAL19 trial (NCT 04179929) and to correlate them with measurable residual disease (MRD) level and survival. Patients and Methods: In the LAL19 trial (NCT04179929), Ph-negative patients (18–65 y) with MRD≥0.01% at day+35 or high-risk genetics receive alloHSCT and MRD<0.01% patients with standard-risk genetics receive maintenance chemotherapy. The genetic analyses are centralized: FISH and NGS DNA panel (Hospital de Salamanca), RNAseq panel (Hospital 12 de Octubre), FISH panel (Hospital La Fe), and SNP array (Josep Carreras Institute/ICO-Hospital Germans Trias i Pujol). MRD determinations are centrally done by next-generation flow cytometry in the Cytometry Service, NUCLEUS, University of Salamanca. Results: The genetic subtype was identified in 54% (82/152) of patients. The most recurrent subtypes were KMT2Ar (11%), Ph-like (mostly CRLF2::IGH, 11%), low-hypodiploid (7%), PAX5 P80R (7%), high-hyperdiploid (6%), and t(1;19)/TCF3::PBX1 (6%). In addition, t(12;21)/ETV6::RUNX1, ZNF384r, and iAMP21 subtypes (1.5% each) and MEF2Dr, MYCr, IDH1 R132 subtypes (<1% each) were found. Regarding secondary alterations, NRAS (15%), TP53 (13%), PAX5 (13%), and KRAS (10%) mutations were the most frequently observed. Twelve patients were refractory (mainly low-hypodiploid, Ph-like, MYCr, and B-other/unclassified patients). Statistically significant differences were observed for day+35 MRD levels between genetic subtypes. Ph-like, low-hypodiploid, and KMT2Ar showed lower frequencies of MRD<0.01% (17%, 33%, and 57%, respectively) than patients with PAX5P80R (100%), t(1;19)/TCF3::PBX1 (83%), and high-hyperdiploid (75%) (P=0.006). Despite the short median follow-up (11 months), differences in response to treatment were reflected in patients' survival. Significant differences in survival were observed between poor-response subtypes (Ph-like, KMT2Ar, and low-hypodiploid) and good-response subtypes (PAX5 P80R, t(1;19)/TCF3::PBX1, and high-hyperdiploid). Conclusions: Knowing the genetic subtype of each ALL is crucial to better predict relapse risk and offer the best (personalized) treatment for each patient

Using Heat to Characterize Streambed Water Flux Variability in Four Stream Reaches

Estimates of streambed water fl ux are needed for the interpretation of streambed chemistry and reactions. Continuous temperature and head monitoring in stream reaches within four agricultural watersheds (Leary Weber Ditch, IN; Maple Creek, NE; DR2 Drain, WA; and Merced River, CA) allowed heat to be used as a tracer to study the temporal and spatial variability of fluxes through the streambed. Synoptic methods (seepage meter and differential discharge measurements) were compared with estimates obtained by using heat as a tracer. Water flux was estimated by modeling one-dimensional vertical flow of water and heat using the model VS2DH. Flux was influenced by physical heterogeneity of the stream channel and temporal variability in stream and ground-water levels. During most of the study period (April–December 2004), flux was upward through the streambeds. At the IN, NE, and CA sites, high-stage events resulted in rapid reversal of flow direction inducing short-term surface-water flow into the streambed. During late summer at the IN site, regional ground-water levels dropped, leading to surface-water loss to ground water that resulted in drying of the ditch. Synoptic measurements of flux generally supported the model flux estimates. Water flow through the streambed was roughly an order of magnitude larger in the humid basins (IN and NE) than in the arid basins (WA and CA). Downward flux, in response to sudden high streamflows, and seasonal variability in flux was most pronounced in the humid basins and in high conductivity zones in the streambed

Unique clinico-biological, genetic and prognostic features of adult early T-cell precursor acute lymphoblastic leukemia

Altres ajuts: this project was supported by the Asociación Española Contra el Cáncer (project ref: GC16173697BIGA), [...], and Obra Social "La Caixa"