The Impact of Gender and Academic Degrees on the Performance of Transversal Competencies in Higher Education Students

[EN] There is some consensus among academics and employers that transversal competencies are one of the key aspects in training people to adapt to the demands of today's world. Universities make a great effort in the design of training programs, in preparing their teachers in training methodologies and in the evaluation systems to guarantee that their graduates acquire an adequate level of these skills. However, there are few studies that address the impact of gender and academic degrees on the performance of transversal competencies. This study aims to assess whether gender and degree have any impact on the level of transversal competencies obtained at the end of their higher education studies. To this end, we have evaluated 1,614 final year students from 11 higher education centers using a standardized questionnaire on the competencies of Communication, Leadership, Teamwork, Adaptation to change, Initiative, Problem solving, Decision-making, Planning and Organization. We have carried out a Multivariate Variance Analysis to analyze the effect of gender, degree and the interaction between both factors on the students' competence profile. The results show that men perform better in Leadership, Initiative and Decision-making, whereas women score better in Planning and Teamwork skills. Students of Social Sciences degrees have a poorer performance in the competencies than students of Health Sciences and Technical Education. In Planning, women perform better, regardless of the degree, compared to men.S

Carbon sequestration potential from large-scale reforestation and sugarcane expansion on abandoned agricultural lands in Brazil

Since 1850, over 145 ± 16 PgC (μ ± 1σ) has been emitted worldwide due to land-use change and deforestation. Besides industrial carbon capture and storage (CCS), storing carbon in forestry products and in regenerated forest has been recognized as a cost-effective carbon sequestration option, with an estimated worldwide sink potential of about 50–100 PgC (15–36 PgC from tropical forest alone). This paper proposes the expansion of a Brazilian integrated assessment model (MUSE-Brazil) by integrating a non-spatial biomass-growth model. The aim is to account for carbon sequestration potential from either reforestation or sugarcane expansion in abandoned agricultural lands. Modelling outputs suggest that Brazil has the potential to liberate up to 32.3 Mha of agricultural land by 2035, reaching 68.4 Mha by mid-century. If a sugarcane expansion policy is promoted, by 2050, the largest sequestration rates would come from above and below ground biomass pools; gradually releasing to the atmosphere around 1.6 PgC or 1.2% of the current Brazilian land carbon stock due to lower SOC carbon pools when turning agricultural lands into sugarcane crops. On the other hand, a reforestation-only scenario projects that by 2035 the baseline year carbon stock could be recovered and by 2050 the country’s carbon stock would have been increased by 3.2 PgC, reaching annual net sequestration rates of 0.1 PgC y−1, mainly supported by natural vegetation regeneration in the Cerrado biome

X chromosome inactivation during grasshopper spermatogenesis

Regulation of transcriptional activity during meiosis depends on the interrelated processes of recombination and synapsis. In eutherian mammal spermatocytes, transcription levels change during prophase-I, being low at the onset of meiosis but highly increased from pachytene up to the end of diplotene. However, X and Y chromosomes, which usually present unsynapsed regions throughout prophase-I in male meiosis, undergo a specific pattern of transcriptional inactivation. The interdependence of synapsis and transcription has mainly been studied in mammals, basically in mouse, but our knowledge in other unrelated phylogenetically species is more limited. To gain new insights on this issue, here we analyzed the relationship between synapsis and transcription in spermatocytes of the grasshopper Eyprepocnemis plorans. Autosomal chromosomes of this species achieve complete synapsis; however, the single X sex chromosome remains always unsynapsed and behaves as a univalent. We studied transcription in meiosis by immunolabeling with RNA polymerase II phosphorylated at serine 2 and found that whereas autosomes are active from leptotene up to diakinesis, the X chromosome is inactive throughout meiosis. This inactivation is accompanied by the accumulation of, at least, two repressive epigenetic modifications: H3 methylated at lysine 9 and H2AX phosphorylated at serine 139. Furthermore, we identified that X chromosome inactivation occurs in premeiotic spermatogonia. Overall, our results indicate: (i) transcription regulation in E. plorans spermatogenesis differs from the canonical pattern found in mammals and (ii) X chromosome inactivation is likely preceded by a process of heterochromatinization before the initiation of meiosi

Enhancement of biogas production rate from bioplastics by alkaline pretreatment

Producción CientíficaThe effect of alkali-based pretreatment on the methanization of bioplastics was investigated. The tested bioplastics included PHB [poly(3-hydroxybutyrate)], PHBH [poly(3-hydroxybutyrate-co-3-hydroxyhexanoate)], PHBV [poly(3-hydroxybutyrate-co-3-hydroxyvalerate], PLA (polylactic acid), and a PLA/PCL [poly(caprolactone)] 80/20 blend. Prior to methanization tests, the powdered polymers (500–1000 μm) at a concentration of 50 g/L were subjected to alkaline pretreatment using NaOH 1 M for PLA and PLA/PCL, and NaOH 2 M for PHB-based materials. Following 7 days of pretreatment, the amount of solubilized carbon for PLA and its blend accounted for 92–98% of the total initial carbon, while lower carbon recoveries were recorded for most PHB-based materials (80–93%), as revealed by dissolved total organic carbon analysis. The pretreated bioplastics were then tested for biogas production by means of mesophilic biochemical methane potential tests. Compared to unpretreated PHBs, methanization rates of pretreated PHBs were accelerated by a factor of 2.7 to 9.1 with comparable (430 NmL CH4/g material feed) or slightly lower (15% in the case of PHBH) methane yields, despite featuring a 1.4–2.3 times longer lag phases. Both materials, PLA and the PLA/PCL blend, were only extensively digested when pretreated, yielding about 360–380 NmL CH4 per gram of material fed. Unpretreated PLA-based materials showed nearly zero methanization under the timeframe and experimental conditions tested. Overall, the results suggested that alkaline pretreatment can help to enhance the methanization kinetics of bioplastics.Ministerio de Ciencia e Innovación - AEI and European Union NextGenerationEU/PRTR (RYC2021‐034559‐I)Junta de Castilla y León - EU-FEDER (CLU 2017-09, CL-EI-2021-07 y UIC 315

Tenemos cita con el arte: Visiting art museums with people living with Alzheimer's disease and their caregivers

GIMUPAI is a research group constituted by teachers and researchers of the Faculty of Fine Arts (Complutense University of Madrid) and the Department of Social Psychology and Anthropology (Salamanca University). In answering to the growing necessity of developing museum programs for people living with Alzheimer's disease, we have designed, implemented and evaluated a set of museum visits and workshops under the name "Tenemos cita con el arte". This initiative is part of the Spanish state-funded research project entitled "Art education un museums and other cultural institutions as a tool for increasing the wellbeing of people affected with Alzheimer" (Ministerio de Educación-EDU2013-43253-R). With this program we aim at making the museum accessible to people with Alzheimer and their caregivers. In doing so, we analyze the difficulties that a group of this characteristics encounters. This text offers an in-depth view of the museum itineraries carried out during the visits to the Museo del Prado and the Museo Nacional Centro de Arte Reina Sofia in Madrid. It includes information on the specific aims, methodology, contents, challenges and difficulties encountered while accompanying a group of people suffering from Alzheimer's disease and their caregivers to a museum setting

Biodegradation of bioplastics under aerobic and anaerobic aqueous conditions: Kinetics, carbon fate and particle size effect

Producción CientíficaThe biodegradation of PHB, PHBV, PBS, PBAT, PCL, PLA, and a PLA-PCL blend was systematically compared under aerobic and anaerobic aqueous conditions assessing biodegradation kinetics, extent, carbon fate and particle size influence (in the range of 100–1000 µm). Under standard test conditions, PHB and PBHV were biodegraded anaerobically (83.9±1.3% and 81.2±1.7%, respectively) in 77 days or aerobically (83.0±1.6% and 87.4±7.5%) in 117 days, while PCL was only biodegraded (77.6±2.4%) aerobically in 177 days. Apparent biomass growth accounted for up to 30.5% of the total initial carbon depending on the bioplastic and environment. Maximum aerobic and anaerobic biodegradation rates were improved up to 331 and 405%, respectively, at the lowest particle size tested (100–250 µm). This study highlights the usefulness of a more detailed analysis of biodegradation kinetics and carbon fate to improve both the development and testing of biodegradable materials/products in the context of a circular bioeconomy.Junta de Castilla y León - Fondo Europeo de Desarrollo Regional (projects CLU 2017-09 and UIC 315