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Hot Playgrounds and Children's Health: A Multiscale Analysis of Surface Temperatures in Arizona, USA
Objectives: To provide novel quantification and advanced measurements of surface temperatures (Ts) in playgrounds, employing multiple scales of data, and provide insight into hot-hazard mitigation techniques and designs for improved environmental and public health.
Methods: We conduct an analysis of Ts in two Metro-Phoenix playgrounds at three scales: neighborhood (1 km resolution), microscale (6.8 m resolution), and touch-scale (1 cm resolution). Data were derived from two sources: airborne remote sensing (neighborhood and microscale) and in situ (playground site) infrared Ts (touch-scale). Metrics of surface-to-air temperature deltas (Ts–a) and scale offsets (errors) are introduced.
Results: Select in situ Ts in direct sunlight are shown to approach or surpass values likely to result in burns to children at touch-scales much finer than Ts resolved by airborne remote sensing. Scale offsets based on neighbourhood and microscale ground observations are 3.8 ◦C and 7.3 ◦C less than the Ts–a at the 1 cm touch-scale, respectively, and 6.6 ◦C and 10.1 ◦C lower than touch-scale playground equipment Ts, respectively. Hence, the coarser scales underestimate high Ts within playgrounds. Both natural (tree) and artificial (shade sail) shade types are associated with significant reductions in Ts.
Conclusions: A scale mismatch exists based on differing methods of urban Ts measurement. The sub-meter touch-scale is the spatial scale at which data must be collected and policies of urban landscape design and health must be executed in order to mitigate high Ts in high-contact environments such as playgrounds. Shade implementation is the most promising mitigation technique to reduce child burns, increase park usability, and mitigate urban heating.
An increase in population and need to protect the planet has created many initiatives and research goals in developing alternatives methods of fueling. Federal and state policies have provided a push for industries to find ways to of reducing their impact on the environment while maintaining competitiveness. In the sector of alternative fuels, large policies such as the Renewable Fuel Standards (RFS) in the United States are making goals to reduce vehicular fuel from coal and oil, and focus on alternative fuels such as ethanol and biodiesel. Along with the RFS and other federal policies, states are introducing independent initiatives to promote the use of alternative fuels.
Research has shown that other crops besides corn can feasibly be used to produce ethanol for fuel use. One of the major crops of interest currently is switchgrass (Panicum Virgatum L.) because of its ability to grow under a variety of weather conditions and soil types. Switchgrass does not require as much maintenance as corn and is a perennial grass that can have high yielding fields for up to 9 years.
This report focuses on the impacts from using switchgrass-derived ethanol to meet the state of Arizona’s policy to have government fleet vehicles operating on alternative fuels. The study uses a life cycle assessment (LCA) approach to evaluate 22 million gallons of ethanol produced in Arizona and stored at fueling stations for use. Impacts in land use, global warming, and water quality are evaluated using software tools and databases in Ecoinvent and Simapro.
The results of the study indicate that the cultivation and harvest phase of the process will contribute the most to negative environmental impacts. According to the study, application of heavy nutrient fertilizer and the machinery needed for the additional agriculture have the potential to contribute over 36 million moles of hydrogen and 89 million CTU eq. to the air, soil, and water.
Describes the LIHEAP benefits distributed to electric utilities companies in Arizona for fiscal year 2019.
This project is creating a non-profit green building organization called AZ Build Green Coalition. There is currently no statewide neutral organization for knowledge sharing about various green building initiatives throughout Arizona. Multiple municipalities in the state are now interested in and starting to execute green building initiatives through varied processes. Yet, each municipality is remaking the wheel and select green building champions in each city usually lead these efforts without a lot of funding or capacity. A central source for knowledge sharing and education would be instrumental in facilitating faster and more efficient movements with green building initiatives and codes. For example, the city of Scottsdale is in the process of being the first municipality in the nation to adopt the newest version of the International Green Construction Code (IgCC). This project has been involved in and aided in that initiative. The city of Tempe has initiated three IgCC 2018 pilot projects. Other municipalities in the state are interested in the IgCC and several have previously adopted it on a voluntary basis. Sharing resources and code approval barriers through a central forum would be beneficial for faster progress and also navigating the political barriers more effectively. The non-profit aims to assist with this collaboration and future high performance building initiatives through tools such as: public presentations, a central sharable document repository, an online presence, and other collaborative tools.
The purpose of this project was to evaluate the utilization of a smartphone application for diabetes self-management education (DSME) into a family practice office. Cochrane review of technological options for DSME identified the smartphone as the most effective option. All patients with diabetes presenting in a family practice office for appointments with the clinical pharmacist or the physician were asked if they would participate in the project if they met the inclusion criteria including the diagnosis of diabetes, owning a smart-phone, and over 18 years old. Exclusion criteria were pregnancy, end-stage kidney disease, or use of an insulin pump.
The goal was to enroll at least 10 patients and have them utilize the smartphone application Care4life for education and blood glucose tracking. HbA1c, heart rate, blood pressure, weight, and body mass index were collected at the initiation of the trial in addition to a demographic survey. A survey was obtained at the end of the trial. Ten patients were enrolled in the project; 50% women. One patient discontinued participation after enrollment. Six patients returned their surveys.
The feedback was primarily positive with individuals liking the text messaging reminders and ability to track their matrix (blood pressure, blood glucose, weight, medication adherence, exercise). Continued utilization of the smartphone application within the practice is likely for those patients who enjoy the technology as a reminder. Further opportunities for implementation would be in a hospital setting where patients face a delay post discharge for an appointment with a diabetes educator. Additionally, due to the complexity of the disease this application could be used to educate caregivers.
Aim: The purpose of this project was to determine if educating elementary school personnel would improve their knowledge and self-efficacy in caring for students with Cystic Fibrosis (CF) and improve the health and educational outcomes of students with this disease.
Background: Evidence suggests that teachers play a big role in the management of students with chronic illnesses. However, current literature indicates that teachers lack basic knowledge about childhood chronic illnesses and how to manage students with chronic illnesses. Synthesis of evidence indicated that an online CF educational intervention would improve knowledge and self-efficacy among school personnel, thereby improving the health and educational outcomes of students with CF.
Methods: Elementary school personnel in Southern Arizona were asked to do an online pre-survey to evaluate knowledge and self-efficacy, view a short presentation on cystic fibrosis, and complete a post-survey. Parents of students with CF were asked to track 504 plan use and CF related absences. Frequencies were used to evaluate participant demographic data and survey data. The McNemar and Wilcoxon Signed Test were used to analyze survey data.
Results: Analysis showed a statistically significant improvement in perceived knowledge (p = .024) and self-efficacy scores (p = .034). Although survey scores showed an average score improvement between pre-survey and post-survey total scores (p = .212), it was not statistically significant.
Conclusion: Results showed an overall improvement in CF knowledge and self-efficacy among elementary school personnel. These results may provide an opportunity for CF healthcare providers and schools to promote the health and education of students with CF.