Indirect cyclopexy for treatment of a chronic traumatic cyclodialysis cleft with hypotony

Cyclodialysis cleft is a rare clinical finding and therefore, reports on surgical repair techniques in the literature are limited. Additionally, hypotony can make repair technically challenging. We share a novel, simple surgical approach to management of a case of chronic traumatic cyclodialysis cleft with a successful outcome

Leaf tensile strength, "in vitro" digestibility, and fiber component relationships in tall fescue

Em um programa de melhoramento de forrageiras, a identificação de plantas com elevado valor nutritivo, é um dos fatores importantes para melhorar o desempenho animal. Interrelações significativas entre características físicas e químicas talvez possam ser utilizadas como um critério para a seleção de novas cultivares de festuca-alta de maior valor nutritivo. Os objetivos deste experimento foram: a. avaliar a tensão foliar (TF) e a digestibilidade in vitro da matéria seca (DIVMS) e dos constituintes da parede celular; b. analisar as associações entre essas características com a TF e c. determinar a eficiência da TF como uma técnica para a seleção de novos germoplasmas de festuca-alta, com forragem de melhor qualidade. Setenta e um genótipos de festuca alta foram avaliados neste experimento. Foi encontrada uma variabilidade genética significativa para TF nesta população de festuca-alta. Geralmente, as correlações de TF com DIVMS e componentes da parede celular não foram significativas, enquanto que as correlações de DIVMS com os componentes da parede celular foram altamente significativas e negativas. Conforme esperado, houve baixa repetibilidade de correlações de caracteres nos dois anos. A "análise de coeficientes de trilha" demonstrou que a celulose e a lignina foram os caracteres com os maiores efeitos diretos na TF e na DIVMS.In a forage breeding program it is necessary to identify germplasms with high forage quality, able to positively influence animal performance. The interrelationships between leaf tensile strength (LTS) and chemical composition parameters may provide a useful criterion for screening tall fescue (Festuca arundinacea Schreb.) for herbage quality in a breeding program. Seventy-one genetically diverse genotypes of tall fescue were randomly selected from a broad-based population to evaluate LTS (leaf tensile strength), in vitro dry matter digestibility (IVDMD), acid detergent fiber (ADF), neutral detergent fiber (NDF), cellulose (CELL), lignin (ADL), hemicellulose (HEMI), ADL/ADF and ASH, to determine the associations among these traits with LTS, and the importance of LTS as a technique for screening tall fescue for herbage quality. Significant genetic variation was found in this gene pool for LTS. The majority of the correlations of LTS with IVDMD and with fiber components were not significantly different from zero while correlations of IVDMD with fiber components were highly significant and negative. As expected, character correlation repeatabilities between years were usually low. Path coefficient analysis showed that CELL and ADL were two important components with large direct effects on LTS and on IVDMD

Leaf tensile strength, "in vitro" digestibility, and fiber component relationships in tall fescue

Em um programa de melhoramento de forrageiras, a identificação de plantas com elevado valor nutritivo, é um dos fatores importantes para melhorar o desempenho animal. Interrelações significativas entre características físicas e químicas talvez possam ser utilizadas como um critério para a seleção de novas cultivares de festuca-alta de maior valor nutritivo. Os objetivos deste experimento foram: a. avaliar a tensão foliar (TF) e a digestibilidade in vitro da matéria seca (DIVMS) e dos constituintes da parede celular; b. analisar as associações entre essas características com a TF e c. determinar a eficiência da TF como uma técnica para a seleção de novos germoplasmas de festuca-alta, com forragem de melhor qualidade. Setenta e um genótipos de festuca alta foram avaliados neste experimento. Foi encontrada uma variabilidade genética significativa para TF nesta população de festuca-alta. Geralmente, as correlações de TF com DIVMS e componentes da parede celular não foram significativas, enquanto que as correlações de DIVMS com os componentes da parede celular foram altamente significativas e negativas. Conforme esperado, houve baixa repetibilidade de correlações de caracteres nos dois anos. A "análise de coeficientes de trilha" demonstrou que a celulose e a lignina foram os caracteres com os maiores efeitos diretos na TF e na DIVMS.In a forage breeding program it is necessary to identify germplasms with high forage quality, able to positively influence animal performance. The interrelationships between leaf tensile strength (LTS) and chemical composition parameters may provide a useful criterion for screening tall fescue (Festuca arundinacea Schreb.) for herbage quality in a breeding program. Seventy-one genetically diverse genotypes of tall fescue were randomly selected from a broad-based population to evaluate LTS (leaf tensile strength), in vitro dry matter digestibility (IVDMD), acid detergent fiber (ADF), neutral detergent fiber (NDF), cellulose (CELL), lignin (ADL), hemicellulose (HEMI), ADL/ADF and ASH, to determine the associations among these traits with LTS, and the importance of LTS as a technique for screening tall fescue for herbage quality. Significant genetic variation was found in this gene pool for LTS. The majority of the correlations of LTS with IVDMD and with fiber components were not significantly different from zero while correlations of IVDMD with fiber components were highly significant and negative. As expected, character correlation repeatabilities between years were usually low. Path coefficient analysis showed that CELL and ADL were two important components with large direct effects on LTS and on IVDMD

Does safety climate moderate the influence of staffing adequacy and work conditions on nurse injuries?

Hospital nurses have one of the highest work-related injury rates in the United States. Yet, approaches to improving employee safety have generally focused on attempts to modify individual behavior through enforced compliance with safety rules and mandatory participation in safety training. We examined a theoretical model that investigated the impact on nurse injuries (back injuries and needlesticks) of critical structural variables (staffing adequacy, work engagement, and work conditions) and further tested whether safety climate moderated these effects. A longitudinal, non-experimental, organizational study, conducted in 281 medical-surgical units in 143 general acute care hospitals in the United States. Work engagement and work conditions were positively related to safety climate, but not directly to nurse back injuries or needlesticks. Safety climate moderated the relationship between work engagement and needlesticks, while safety climate moderated the effect of work conditions on both needlesticks and back injuries, although in unexpected ways. DISCUSSION AND IMPACT ON INDUSTRY: Our findings suggest that positive work engagement and work conditions contribute to enhanced safety climate and can reduce nurse injuries

An experimental study on the response of blanket bog vegetation and water tables to ditch blocking

We studied the effect of ditch blocking on vegetation composition and water-table depths in a blanket peatland. Measurements were made for a period of four years (water tables) and five years (vegetation) in the inter-ditch areas of three experimental treatments: (i) open ditches, (ii) ditches blocked with closely-spaced dams and (iii) ditches partially infilled with peat and blocked with dams. It is often assumed that ditch blocking will lead to an increase in the abundance of Sphagnum and, potentially, a reduction in the abundance of sedges, particularly the cotton grasses. However, our data show no treatment effects on the abundance of either group. We did find an effect of time, with the abundance of both sedges and Sphagnum spp. varying significantly between some years. For the sedges there was no systematic change over time, while for the Sphagnum spp. abundance tended to increase through the study period. This systematic change was not related to a measure of the vigour of the sedges, although vigour was lower towards the end of the study compared to the beginning. Our vegetation data are consistent with our water-table data. As with plant type abundance, we did not find any statistically significant differences in water-table depths between treatments, both for annual averages and summer averages. We comment on why ditch blocking does not seem to have affected water tables and vegetation composition at our study site

Aspects of microbial communities in peatland carbon cycling under changing climate and land use pressures

This is the final version. Available on open access from the Finnish Peatland Society via the DOI in this record. Globally, major efforts are being made to restore peatlands to maximise their resilience to anthropogenic climate change, which puts continuous pressure on peatland ecosystems and modifies the geography of the environmental envelope that underpins peatland functioning. A probable effect of climate change is reduction in the waterlogged conditions that are key to peatland formation and continued accumulation of carbon (C) in peat. C sequestration in peatlands arises from a delicate imbalance between primary production and decomposition, and microbial processes are potentially pivotal in regulating feedbacks between environmental change and the peatland C cycle. Increased soil temperature, caused by climate warming or disturbance of the natural vegetation cover and drainage, may result in reductions of long-term C storage via changes in microbial community composition and metabolic rates. Moreover, changes in water table depth alter the redox state and hence have broad consequences for microbial functions, including effects on fungal and bacterial communities especially methanogens and methanotrophs. This article is a perspective review of the effects of climate change and ecosystem restoration on peatland microbial communities and the implications for C sequestration and climate regulation. It is authored by peatland scientists, microbial ecologists, land managers and non-governmental organisations who were attendees at a series of three workshops held at The University of Manchester (UK) in 2019–2020. Our review suggests that the increase in methane flux sometimes observed when water tables are restored is predicated on the availability of labile carbon from vegetation and the absence of alternative terminal electron acceptors. Peatland microbial communities respond relatively rapidly to shifts in vegetation induced by climate change and subsequent changes in the quantity and quality of below-ground C substrate inputs. Other consequences of climate change that affect peatland microbial communities and C cycling include alterations in snow cover and permafrost thaw. In the face of rapid climate change, restoration of a resilient microbiome is essential to sustaining the climate regulation functions of peatland systems. Technological developments enabling faster characterisation of microbial communities and functions support progress towards this goal, which will require a strongly interdisciplinary approach.Natural Environment Research Council (NERC

Buenos Aires

watercolor.https://hsrc.himmelfarb.gwu.edu/artshow_gallery_2016/1015/thumbnail.jp