A practical, multiplatform app for climate stress to aid animal producers and science education

Project Leaders: Michael McKean: Reynolds Journalism Institute (RJI)/Missouri School of Journalism; Dale Musser: Director of the IT Program in the College of Engineering; Ray Massey and Pat Guinan: Commercial Agriculture Program; Ben Gallup: 4-H Center for Youth Development; David Kemp: Future Farmers of America; John Travlos: Electronic Bulletin Board (AgEBB); Stacey Hamilton, Southwest Center, College of Agriculture, Food & Natural Resources"Climate variability is a concern in a number of sectors, particularly in the Agriculture industry. The National Climatic Data Center for the US announced on September 9, 2011 that last summer was the hottest in 75 years, with the greatest impact in Texas and neighboring states of Oklahoma, Kansas, Arkansas and Missouri. The result was daily appearance of news stories regarding losses of livestock and productivity, which during a normal year amount to $897, 369, and 299 million for dairy, beef, and swine industries, respectively. Thermal stress indices have existed for years for these groups, but are underutilized because they require elaborate combinations of environmental (e.g., weather) and physiological (e.g., body temperature) data. There is also increased concern that student interest in science, at both high school and college levels, is declining, and that the United States could be at a disadvantage in solving complex problems of the future such as climate variability due to a lack of qualified scientists. It has been suggested, that the traditional read, recite, regurgitate models for teaching science are ineffective ways to motivate students to learn science, and help them understand and retain science concepts. D.A. Kolb noted that an experiential approach increases interest of youth in science. Experiential learning in the sciences includes gathering the facts surrounding a problem, reflecting on the findings, formulating ideas, and finally testing them, and generating new knowledge. A mechanism to facilitate this process using advanced instructional technologies that are more engaging to a technology-oriented generation of learners will stimulate interest in and learning of science. Our proposal is to develop a native smart phone app (Apple and Android) that combines weather information (both current and projected) with individual animal information to aid the producer in the decision-making process to reduce heat strain and improve animal welfare. At the same time, the app will be a learning device that attracts and stimulates student interest in climate and environmental stress related to themselves and their production animals. Our approach will use students in the "Team-Based Mobile Application Development" course (College of Engineering, IT Program, and School of Journalism) together with CAFNR undergraduate students trained in environmental physiology to develop the prototype. The educational component will require input from a select group of high school/college students in 4-H and FFA (and related agricultural youth organizations), with backgrounds in animal science and a strong interest in using technology to improve animal production and welfare. These students will collaborate with others in the app design and evaluation course for a truly multidisciplinary learning experience. This product will then be promoted, displayed, and tested in select venues, such as CAFNR field days and at the Missouri State Fair." --DescriptionMU Interdisciplinary Innovations Fun

A new Scanning Transmission X-ray Microscope at the ALS for operation up to 2500eV

We report on the design and construction of a higher energy Scanning Transmission X-ray Microscope on a new bend magnet beam line at the Advanced Light Source. Previously we have operated such an instrument on a bend magnet for C, N and O 1s NEXAFS spectroscopy. The new instrument will have similar performance at higher energies up to and including the S 1s edge at 2472eV. A new microscope configuration is planned. A more open geometry will allow a fluorescence detector to count emitted photons from the front surface of the sample. There will be a capability for zone plate scanning in addition to the more conventional sample scanning mode. This will add the capability for imaging a massive sample at high resolution over a limited field of view, so that heavy reaction cells may be used to study processes in-situ, exploiting the longer photon attenuation length and the longer zone plate working distances available at higher photon energy. The energy range will extend down to include the C1s edge at 300eV, to allow high energy NEXAFS microscopic studies to correlate with the imaging of organics in the same sample region of interest

Recent Advances in Systems and Network Medicine: Meeting Report from the First International Conference in Systems and Network Medicine.

The First International Conference in Systems and Network Medicine gathered together 200 global thought leaders, scientists, clinicians, academicians, industry and government experts, medical and graduate students, postdoctoral scholars and policymakers. Held at Georgetown University Conference Center in Washington D.C. on September 11-13, 2019, the event featured a day of pre-conference lectures and hands-on bioinformatic computational workshops followed by two days of deep and diverse scientific talks, panel discussions with eminent thought leaders, and scientific poster presentations. Topics ranged from: Systems and Network Medicine in Clinical Practice; the role of -omics technologies in Health Care; the role of Education and Ethics in Clinical Practice, Systems Thinking, and Rare Diseases; and the role of Artificial Intelligence in Medicine. The conference served as a unique nexus for interdisciplinary discovery and dialogue and fostered formation of new insights and possibilities for health care systems advances

Recent Advances in Systems and Network Medicine: Meeting Report from the First International Conference in Systems and Network Medicine

The First International Conference in Systems and Network Medicine gathered together 200 global thought leaders, scientists, clinicians, academicians, industry and government experts, medical and graduate students, postdoctoral scholars and policymakers. Held at Georgetown University Conference Center in Washington D.C. on September 11-13, 2019, the event featured a day of pre-conference lectures and hands-on bioinformatic computational workshops followed by two days of deep and diverse scientific talks, panel discussions with eminent thought leaders, and scientific poster presentations. Topics ranged from: Systems and Network Medicine in Clinical Practice; the role of -omics technologies in Health Care; the role of Education and Ethics in Clinical Practice, Systems Thinking, and Rare Diseases; and the role of Artificial Intelligence in Medicine. The conference served as a unique nexus for interdisciplinary discovery and dialogue and fostered formation of new insights and possibilities for health care systems advances