Modeling low-flow bedrock springs providing ecological habitats with climate change scenarios

Groundwater discharge areas, including low-flow bedrock aquifer springs, are ecologically important and can be impacted by climate change. The development of and results from a groundwater modeling study simulating fractured bedrock spring flow are presented. This was conducted to produce hydrological data for an ecohydrological study of an endangered species, Allegheny Mountain Dusky Salamanders (Desmognathus ochrophaeus), in southern Quebec, Canada. The groundwater modeling approach in terms of scale and complexity was strongly driven by the need to produce hydrological data for the related ecohydrological modeling. Flows at four springs at different elevations were simulated for recent past conditions (2006–2010) and for reference (1971–2000) and future (2041–2070) periods using precipitation and temperature data from ten climate scenarios. Statistical analyses of spring flow parameters including activity periods and duration of flow were conducted. Flow rates for the four simulated springs, located at different elevations, are predicted to increase between 2% and 46% and will be active (flowing) 1–2% longer in the future. A significant change (predominantly an increase) looking at the seasonality of the number of active days occurs in the winter (2–4.9%) and spring seasons (−0.6–6.5%). Greatest flow rates were produced from springs at elevations where sub-horizontal fractures intersect the ground surface. These results suggest an intensification of the spring activity at the study site in context of climate change by 2050, which provides a positive habitat outlook for the endangered salamanders residing in the springs for the future

Pseudomonas aeruginosa isolates from dental units waterlines can be divided in two distinct groups, including one displaying phenotypes similar to isolates from cystic fibrosis patients.

Pseudomonas aeruginosa displays broad genetic diversity, giving it an astonishing capacity to adapt to a variety of environments and to infect a wide range of hosts. While many P. aeruginosa isolates of various origins have been analyzed, isolates from cystic fibrosis (CF) patients have received the most attention. Less is known about the genetic and phenotypic diversity of P. aeruginosa isolates that colonize other environments where flourishing biofilms can be found. In the present study, 29 P. aeruginosa isolates from dental unit waterlines and CF patients were collected and their genetic and phenotypes profiles were compared to determine whether environmental and clinical isolates are related. The isolates were first classified using the random amplified polymorphic DNA method. This made it possible to distribute the isolates into one clinical cluster and two environmental clusters. The isolates in the environmental cluster that were genetically closer to the clinical cluster also displayed phenotypes similar to the clinical isolates. The isolates from the second environmental cluster displayed opposite phenotypes, particularly an increased capacity to form biofilms. The isolates in this cluster were also the only ones harboring genes that encoded specific epimerases involved in the synthesis of lipopolysaccharides, which could explain their increased ability to form biofilms. In conclusion, the isolates from the dental unit waterlines could be distributed into two clusters, with some of the environmental isolates resembled the clinical isolates. Keywords: Pseudomonas aeruginosa, cluster, RAPD, elastase, biofilm, Dictyostelium discoideum, cell lysi

A Feasibility Study of a Program Integrating Mindfulness, Yoga, Positive Psychology, and Emotional Intelligence in Tertiary‑Level Student Musicians

Objectives Higher education student musicians face high physical, psychological, and emotional demands affecting their well-being and academic experience. This study examined the feasibility and preliminary effectiveness of the so-called CRAFT program, based on mindfulness, yoga, positive psychology, and emotional intelligence, to improve psychological well-being, psychological distress, emotional regulation, and physical flexibility amongst tertiary education student musicians. Methods Using a single-arm pre-post study design, student musicians (n = 25) at a royal conservatory of music in Spain followed a 25-week CRAFT program that was curricularly implemented during the academic year 2018/2019, once a week for 50 min. The outcome measures included were the Five Facet Mindfulness Questionnaire (FFMQ), the Subjective Psychological Well-Being Subscale (SPWS), the Emotional Regulation Questionnaire (ERQ), the Depression Anxiety and Stress Scale (DASS-21), and the Sit and Reach Test (SRT). Results Paired samples t-test and practical significance analyses revealed significant improvements for the total scale of the FFMQ (g = 0.28), the Observe (g = 0.44) and Describe (g = 0.38) subscales of the FFMQ, the SPWS (g = 0.32), the Reappraisal subscale of the ERQ (g = 0.43), and the SRT (g = 0.39). A similar pattern of results was observed in a filtered sample (n = 15) when excluding participants simultaneously engaged in yoga/meditation activities other than the CRAFT program. Conclusions These results indicated that the CRAFT program is a promising intervention for improving mindfulness skills and health and well-being states and abilities amongst higher education student musicians. Further research is needed to substantiate these findings and extend them to similar settings and populations with complex psychophysical concerns.Junta de Andalucia PIV-052/1

An essential role for Ran GTPase in epithelial ovarian cancer cell survival

<p>Abstract</p> <p>Background</p> <p>We previously identified that Ran protein, a member of the Ras GTPase family, is highly expressed in high grade and high stage serous epithelial ovarian cancers, and that its overexpression is associated with a poor prognosis. Ran is known to contribute to both nucleocytoplasmic transport and cell cycle progression, but its role in ovarian cancer is not well defined.</p> <p>Results</p> <p>Using a lentivirus-based tetracycline-inducible shRNA approach, we show that downregulation of Ran expression in aggressive ovarian cancer cell lines affects cellular proliferation by inducing a caspase-3 associated apoptosis. Using a xenograft tumor assay, we demonstrate that depletion of Ran results in decreased tumorigenesis, and eventual tumor formation is associated with tumor cells that express Ran protein.</p> <p>Conclusion</p> <p>Our results suggest a role for Ran in ovarian cancer cell survival and tumorigenicity and suggest that this critical GTPase may be suitable as a therapeutic target.</p

Principles and Operational Parameters to Optimize Poison Removal with Extracorporeal Treatments

A role for nephrologists in the management of a poisoned patient involves evaluating the indications for, and methods of, enhancing the elimination of a poison. Nephrologists are familiar with the various extracorporeal treatments ( ECTR s) used in the management of impaired kidney function, and their respective advantages and disadvantages. However, these same skills and knowledge may not always be considered, or applicable, when prescribing ECTR for the treatment of a poisoned patient. Maximizing solute elimination is a key aim of such treatments, perhaps more so than in the treatment of uremia, because ECTR has the potential to reverse clinical toxicity and shorten the duration of poisoning. This manuscript reviews the various principles that govern poison elimination by ECTR (diffusion, convection, adsorption, and centrifugation) and how components of the ECTR can be adjusted to maximize clearance. Data supporting these recommendations will be presented, whenever available.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/108055/1/sdi12247.pd