Experiencias de carrera dual y salud mental en estudiantes deportistas de alto rendimiento / Dual career experiences and mental health in high-performance student athletes / Experiências de dupla carreira e saúde mental em atletas estudantes de alto desempenho

RESUMEN Estudiantes deportistas de alto rendimiento enfrentan demandas en distintas áreas de su vida al realizar una Carrera Dual (CD). En este estudio exploramos la relación entre experiencias de CD y Salud Mental (SM). Un total de 128 estudiantes deportistas de alto rendimiento respondieron los cuestionarios DCES, MHLS-12, y MHC-SF. Los resultados muestran que las experiencias de CD y alfabetización en SM influyen positivamente en el estado de SM de los estudiantes deportistas. Estos resultados subrayan la importancia de potenciar la interacción investigación-aplicación, involucrando al entorno para fortalecer la SM a través de experiencias positivas y alfabetización.

ABSTRACT High-performance student athletes face demands in different areas of their lives when pursuing a dual career (DC). We explored the relationship between DC experiences and mental health (MH). A total of 128 high-performance student athletes completed questionnaires (DCES, MHLS-12, MHC-SF). The results show that DC experiences and MH literacy contribute to MH status. These results reinforce the need to continue to strengthen the research-application relationship by engaging the entourage to enhance MH through positive experiences and literacy.

RESUMO Estudantes-atletas experimentam diferentes demandas em suas vidas para equilibrar a condição de dupla carreira (DC). Neste estudo, exploramos a relação entre essas experiências e a saúde mental (SM) dos estudantes-atletas. Aplicamos questionários (DCES, MHLS-12, MHC-SF) e obtivemos 128 respostas do público-alvo. Os resultados mostraram que o equilíbrio na DC e saber sobre SM contribuem ao estado de SM dos estudantes-atletas. Por fim, reforçamos a necessidade de fortalecer a pesquisa aplicada, visando o envolvimento do ambiente social do estudante-atleta nas suas experiências positivas na DC, auxiliando-o no seu bem-estar de SM.

Global predictions for the risk of establishment of Pierce's disease of grapevines.

The vector-borne bacterium Xylella fastidiosa is responsible for Pierce's disease (PD), a lethal grapevine disease that originated in the Americas. The international plant trade is expanding the geographic range of this pathogen, posing a new threat to viticulture worldwide. To assess the potential incidence of PD, we have built a dynamic epidemiological model based on the response of 36 grapevine varieties to the pathogen in inoculation assays and on the vectors' distribution when this information is available. Key temperature-driven epidemiological processes, such as PD symptom development and recovery, are mechanistically modelled. Integrating into the model high-resolution spatiotemporal climatic data from 1981 onward and different infectivity (R0) scenarios, we show how the main wine-producing areas thrive mostly in non-risk, transient, or epidemic-risk zones with potentially low growth rates in PD incidence. Epidemic-risk zones with moderate to high growth rates are currently marginal outside the US. However, a global expansion of epidemic-risk zones coupled with small increments in the disease growth rate is projected for 2050. Our study globally downscales the risk of PD establishment while highlighting the importance of considering climate variability, vector distribution, and an invasive criterion as factors to obtain better PD risk maps.

Long transient response of vegetation dynamics after four millennia of anthropogenic impacts in an island ecosystem.

Agents of global change commonly have a higher impact on island ecosystem dynamics. In the Mediterranean region, those dynamics have historically been influenced by anthropogenic impacts, for example, the introduction of invasive species and overharvesting of resources. Here, we analysed the spatio-temporal dynamics of vegetation in sa Dragonera island, which experienced a large environmental change ca. 4000 years ago by the arrival of humans. Anthropogenic impacts, such as herbivory by goats and over-logging, ended in the 1970s, while in 2011 the site became the largest Mediterranean island where rats were eradicated. Invasive rats and goats played the ecological role of two endemic species, the cave goat and the giant dormouse, which inhabited the island for more than 5 million years and were rapidly extinct by humans. We used Landsat imagery to explore NDVI as a proxy of vegetation productivity over the years 1984-2021, orthophotos to assess changes in land and vegetation covers and historical plant inventories to study the dynamics in plant diversity. Results showed that those indicators steadily increased both in spring and in summer, while the noise around the trends was partially explained by climate variability. The regime shifts in the temporal dynamics of vegetation productivity suggested a transient from a perturbed to a non-perturbed stable state. Trends in successional dynamics, spatial self-organization and plant diversity also showed the same type of transient dynamics. Historical perturbations related to harvesting (mainly the synergies between goat browsing, burning and forest over-logging) were more important than rat eradication or the influence of climate to explain the vegetation dynamics. Our study shows the transient nature of this small island ecosystem after 4000 years of perturbations and its current path towards vegetation dynamics more controlled by ecological interactions lacking large herbivores and omnivores, drought dynamics and the carrying capacity of the island.

Los agentes del cambio global suelen tener un mayor impacto en la dinámica de los ecosistemas insulares. En la región Mediterránea, esas dinámicas se han visto influenciadas históricamente por impactos antropogénicos, e.g. la introducción de especies invasoras y la sobreexplotación de los recursos. Analizamos aquí la dinámica espacio-temporal de la vegetación en la isla de sa Dragonera, que experimentó un gran cambio ambiental hace unos 4000 años por la llegada de los humanos. Los impactos antropogénicos, como la herbivoría de las cabras y la tala excesiva, terminaron en la década de 1970, mientras que en 2011 se convirtió en la isla mediterránea más grande donde se erradicaron las ratas. Las ratas y cabras invasoras desempeñaron el papel ecológico de dos especies endémicas, el miotrago y el lirón gigante, que habitaron la isla durante más de 5 millones de años y fueron rápidamente extinguidos por los humanos. Usamos imágenes de Landsat para explorar el NDVI (indicador de la productividad de la vegetación) durante los años 1984-2021, ortofotos para evaluar los cambios en la cobertura de la tierra y la vegetación e inventarios históricos de plantas para estudiar la dinámica de su diversidad. Los resultados mostraron que esos indicadores aumentaron constantemente tanto en primavera como en verano, mientras que el ruido en torno a las tendencias se explicaba en parte por la variabilidad climática. Los cambios de régimen en la dinámica temporal de la productividad de la vegetación sugirieron un transitorio de un estado estable perturbado a uno no perturbado. Las tendencias en la dinámica sucesional, la autoorganización espacial y la diversidad de plantas también mostraron el mismo tipo de dinámica transitoria. Las perturbaciones históricas relacionadas con la recolección (principalmente las sinergias entre el pastoreo de cabras, la quema y la tala excesiva de bosques) fueron más importantes que la erradicación de ratas o la influencia del clima para explicar la dinámica de la vegetación. Nuestro estudio muestra la naturaleza transitoria de este ecosistema después de 4000 años de perturbaciones y su trayectoria actual hacia una dinámica de la vegetación más controlada por interacciones ecológicas (que carecen de grandes herbívoros y omnívoros), dinámicas de sequía y la capacidad de carga de la isla.

Assessment of marine litter through remote sensing: recent approaches and future goals.

This bibliographic review provides an overview of techniques used to detect marine litter using remote sensing. The review classified studies in terms of platform (satellite, aircrafts, drones), sensors (passive or active), spectral (visible, infrared, microwaves), spatial resolution (<1 to >30 m), type and size (macroplastics, microplastics), or classification methodology (sighting, photointerpretation, supervised). Most studies applied satellite information to address marine litter using multi- and hyper- spectral optical sensors. The correspondence analysis on analyzed variables exhibited that aircrafts with high spatial resolution (<3 m) with optical sensors (λ = 400 to 2500 nm) seem to be the most optimum combination to target marine litter, while satellites carrying Synthetic Aperture Radar (SAR) sensors (λ = 3.1 to 5.6 cm) may detect sea-slicks associated to surfactants that might contain high concentration of microplastics. Gaps indicate that future goals in marine litter detection should be addressed with platforms including optical and SAR sensors.