Physical Activity in Elementary School Girls: Implementation and Theory-Based Evaluation of Girls on the Run

Rates of obesity in children are rising at an alarming rate, particularly among girls and ethnic minorities. Engaging in regular physical activity can help reduce this risk. Little is known about factors associated with physical activity (PA) in preadolescent populations, an age when intervention is ideal. Guided by Social Cognitive Theory, this study used a repeated-measures design to examine PA and its correlates, including PA self-efficacy, outcome expectations, and social influences (from parents and peers). Among participants (N = 57) in Girls on the Run, an innovative PA intervention for elementary school girls. Participants (M age = 9.4) predominately include girls from ethnic groups at highest risk for obesity, with 74% African American and 18% Hispanic. Multiple regressions indicated that, at baseline, girls with higher self-efficacy were significantly more likely to report greater intentions to be physically active (ß =.40, p ps p \u3e .05). Overall, findings suggest the importance of targeting physical activity self-efficacy and fostering high levels of peer and parental support for physical activity to help girls meet recommended guidelines. Implications for future interventions are discussed

Long-range forecasting of intermittent streamflow

Long-range forecasting of intermittent streamflow in semi-arid Australia poses a number of major challenges. One of the challenges relates to modelling zero, skewed, non-stationary, and non-linear data. To address this, a statistical model to forecast streamflow up to 12 months ahead is applied to five semi-arid catchments in South Western Queensland. The model uses logistic regression through Generalised Additive Models for Location, Scale and Shape (GAMLSS) to determine the probability of flow occurring in any of the systems. We then use the same regression framework in combination with a right-skewed distribution, the Box-Cox t distribution, to model the intensity (depth) of the non-zero streamflows. Time, seasonality and climate indices, describing the Pacific and Indian Ocean sea surface temperatures, are tested as covariates in the GAMLSS model to make probabilistic 6 and 12-month forecasts of the occurrence and intensity of streamflow. The output reveals that in the study region the occurrence and variability of flow is driven by sea surface temperatures and therefore forecasts can be made with some skill

LEARNING AQUAPONICS POST COVID-19 THROUGH START-UP INDUSTRY PARTNERSHIPS

PROBLEM Pre-COVID-19 lockdowns (2019), we usually organise for our students to visit a commercial aquaponics facility, Green Camel1, which is a start-up company located within The University of Sydney’s Cobbitty campus. Green Camel produces both barramundi (fish) and pesticide-free organic vegetables, such as tomatoes and basil. Effluent from the barramundi is passed through a bioreactor which converts ammonium to nitrate, which is then utilised by the vegetables in a closed-loop system. During the COVID-19 pandemic (2020-21), we had to live-stream and video field visits to remotely located students and international students who are unable to travel to Australia to experience the field visits. We were not very happy with video recording field practicals, since the students did not get a hands-on experience with aquaponics. PLAN After the lifting of the COVID-19 restrictions, the first author partnered with start-up company, Farmwall2, in its STEM Pilot Program. In this Program, Farmwall provided students with an aquaponic ecosystem classroom kit including a fish tank, plant trays, plants, seeds, gravel and micro-organisms for converting ammonium to nitrate, as well as a separate hydroponics kit. An online education platform was also provided with detailed instructions for setting up the aquaponics kit, as well as step by step video instructions on how to maintain the fish tank and grow the vegetables including microgreens. Teachers and students were able to engage with the step-by-step process of setting up the aquaponics system as well as monitoring the health of the system (e.g., pH, ammonium, nitrate and nitrite levels). ACTION Farmwall provided the students with an aquaponic classroom kit so that they can engage in setting up and maintaining a model aquaponics unit. One of the students also contributed biological filtration, white cloud mountain minnows (Tanichthys micagemmae; fish) and aquatic plants. During the lab practicals, students harvested and tasted the snow pea microgreens grown using the aquaponic classroom unit. Some students were also inspired to convert their home fish tanks into home mini-aquaponic systems. REFLECTION In addition to visiting or watching videos of field visits, students learnt to set up and maintain an aquaponics unit to produce vegetables such as microgreens, which is a life skill that they can use in the post-COVID-19 world. Live-streamed and in person practicals provided useful information on how students could set up and produce vegetables including microgreens, becoming potentially self-sufficient. In addition to learning the theory of aquaponic production, students gained the life skills of a close-loop system to produce their own organic vegetables at home. 1https://greencamel.com.au/ 2https://farmwall.com

Climate change adaptation in disaster-prone communities in Cambodia and Fiji

This article examines how rural communities living in flood-prone river basins of Cambodia and Fiji have responded to increasing variability of floods and other natural hazards under the influence of climate change and other risk factors. Particular emphasis is placed on risk perceptions and adaptive strategies of households and communities with regard to regular and catastrophic floods and how the livelihoods of vulnerable groups are affected by floods and other climate-induced disasters. Our research approach integrates the food, water and energy security nexus with the rural livelihood framework. The study aims at identifying the spatial extent and dynamics of flood events and determining the factors that enhance adaptive capacities of flood-affected communities and households. Our study finds that access to resources as well as local socio-cultural contexts are important determinants of coping and adaptation practices at the community and household level in the two countries. Findings also suggest that research participants had a profound understanding of flood flows, extent and impacts that complements knowledge gained from hydrological and remote sensing methods. We conclude that blending local and scientific knowledge is a promising approach to enhancing adaptive capacity and resilience

Presence of tobramycin in blood and urine during selective decontamination of the digestive tract in critically ill patients, a prospective cohort study

Tobramycin is one of the components used for selective decontamination of the digestive tract (SDD), applied to prevent colonization and subsequent infections in critically ill patients. Tobramycin is administered in the oropharynx and gastrointestinal tract and is normally not absorbed. However, critical illness may convey gut barrier failure. The aim of the study was to assess the prevalence and amount of tobramycin leakage from the gut into the blood, to quantify tobramycin excretion in urine, and to determine the association of tobramycin leakage with markers of circulation, kidney function and other organ failure. This was a prospective observational cohort study. The setting was the 20-bed closed format-mixed ICU of a teaching hospital. The study population was critically ill patients with an expected stay of more than two days, receiving SDD with tobramycin, polymyxin-E and amphotericin-B four times daily in the oropharynx and stomach. Tobramycin concentration was measured in serum (sensitive high performance liquid chromatography - mass spectrometry/mass spectrometry (HLPC-MS/MS) assay) and 24-hour urine (conventional immunoassay), in 34 patients, 24 hours after ICU admission, and in 71 patients, once daily for 7 days. Tobramycin leakage was defined as tobramycin detected in serum at least once (> 0.05 mg/L). Ototoxicity was not monitored. Of the 100 patients with available blood samples, 83 had tobramycin leakage. Median highest serum concentration for each patient was 0.12 mg/L; 99% of the patients had at least one positive urinary sample (> 0.5 mg/L), 49% had a urinary concentration ≥ 1 mg/L. The highest tobramycin serum concentration was significantly associated with vasopressor support, renal and hepatic dysfunction, and C-reactive protein. At binary logistic regression analysis, high dopamine dose and low urinary output on Day 1 were the significant predictors of tobramycin leakage. Nephrotoxicity could not be shown. The majority of acute critically ill patients treated with enteral tobramycin as a component of SDD had traces of tobramycin in the blood, especially those with severe shock, inflammation and subsequent acute kidney injury, suggesting loss of gut barrier and decreased renal removal. Unexpectedly, urinary tobramycin was above the therapeutic trough level in half of the patients. Nephrotoxicity could not be demonstrated

Detecting the impact of land cover change on observed rainfall

Analysis of observational data to pinpoint impact of land cover change on local rainfall is difficult due to multiple environmental factors that cannot be strictly controlled. In this study we use a statistical approach to identify the relationship between removal of tree cover and rainfall with data from best available sources for two large areas in Australia. Gridded rainfall data between 1979 and 2015 was used for the areas, while large scale (exogenous) effects were represented by mean rainfall across a much larger area and climatic indicators, such as Southern Oscillation Index and Indian Ocean Dipole. Both generalised additive modelling and step trend tests were used for the analysis. For a region in south central Queensland, the reported change in tree clearing between 2002–2005 did not result in strong statistically significant precipitation changes. On the other hand, results from a bushfire affected region on the border of New South Wales and Victoria suggest significant changes in the rainfall due to changes in tree cover. This indicates the method works better when an abrupt change in the data can be clearly identified. The results from the step trend test also mainly identified a positive relationship between the tree cover and the rainfall at p < 0.1 at the NSW/Victoria region. High rainfall variability and possible regrowth could have impacted the results in the Queensland region

Environmental Livelihood Security in Southeast Asia and Oceania: A Water-Energy-Food-Livelihoods Nexus Approach for Spatially Assessing Change

This document addresses the need for explicit inclusion of livelihoods within the environment nexus (water-energy-food security), not only responding to literature gaps but also addressing emerging dialogue from existing nexus consortia. We present the first conceptualization of ‘environmental livelihood security’, which combines the nexus perspective with sustainable livelihoods. The geographical focus of this paper is Southeast Asia and Oceania, a region currently wrought by the impacts of a changing climate. Climate change is the primary external forcing mechanism on the environmental livelihood security of communities in Southeast Asia and Oceania which, therefore, forms the applied crux of this paper. Finally, we provide a primer for using geospatial information to develop a spatial framework to enable geographical assessment of environmental livelihood security across the region. We conclude by linking the value of this research to ongoing sustainable development discussions, and for influencing policy agenda

Sustainable development and the water–energy–food nexus: A perspective on livelihoods

AbstractThe water–energy–food nexus is being promoted as a conceptual tool for achieving sustainable development. Frameworks for implementing nexus thinking, however, have failed to explicitly or adequately incorporate sustainable livelihoods perspectives. This is counterintuitive given that livelihoods are key to achieving sustainable development. In this paper we present a critical review of nexus approaches and identify potential linkages with sustainable livelihoods theory and practice, to deepen our understanding of the interrelated dynamics between human populations and the natural environment. Building upon this review, we explore the concept of ‘environmental livelihood security’ – which encompasses a balance between natural resource supply and human demand on the environment to promote sustainability – and develop an integrated nexus-livelihoods framework for examining the environmental livelihood security of a system. The outcome is an integrated framework with the capacity to measure and monitor environmental livelihood security of whole systems by accounting for the water, energy and food requisites for livelihoods at multiple spatial scales and institutional levels. We anticipate this holistic approach will not only provide a significant contribution to achieving national and regional sustainable development targets, but will also be effective for promoting equity amongst individuals and communities in local and global development agendas

Climate Change Adaptation in Post-Disaster Recovery Processes: Flood-Affected Communities in Cambodia and Fiji

By adopting an integrated and participatory action-research approach, this project explores how rural communities living in flood-prone river basins of Cambodia and Fiji respond to increasing variability of flood incidences and other natural hazards under the influence of climate change and other risk factors, such as hydro-electric power development, forest conversion and environmental degradation. Particular emphasis is placed on risk perceptions and adaptive strategies of individuals, families and social groups with regard to regular and catastrophic floods and how the livelihoods of vulnerable groups are affected by floods and other disasters. Our research approach integrates the food, water and energy security nexus with the rural livelihood framework. The objectives of the project are to (1) identify the spatial extent and dynamics of flood hazards as a result of multiple risk factors; (2) determine the various factors that can enhance resilience and adaptive capacities of flood-affected communities in a changing environment, and (3) provide examples of successful community-based flood management and climate change adaptation that can serve as best-practice models for other flood affected communities in the Asia-Pacific region