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This Open Access textbook provides students and researchers in the life sciences with essential practical information on how to quantitatively analyze data images. It refrains from focusing on theory, and instead uses practical examples and step-by step protocols to familiarize readers with the most commonly used image processing and analysis platforms such as ImageJ, MatLab and Python. Besides gaining knowhow on algorithm usage, readers will learn how to create an analysis pipeline by scripting language; these skills are important in order to document reproducible image analysis workflows. The textbook is chiefly intended for advanced undergraduates in the life sciences and biomedicine without a theoretical background in data analysis, as well as for postdocs, staff scientists and faculty members who need to perform regular quantitative analyses of microscopy images.
A history of Toxic Shock Syndrome In 1978, doctors in Denver, Colorado observed several healthy children who suddenly and mysteriously developed a serious, life-threatening illness with no visible source. Their condition, which doctors dubbed ‘toxic shock syndrome’ (TSS) was rare, but observed with increasing frequency over the next few years in young women, and was soon learned to be associated with a bacterium and the use of high-absorbency tampons that had only recently gone on the market. In 1980, the Centers for Disease Control identified Rely tampons, produced by Procter & Gamble, as having the greatest association with TSS over every other tampon, and the company withdrew them from the market. To this day, however, women are frequently warned about contracting TSS through tampon use, even though very few cases are diagnosed each year. Historian Sharra Vostral’s Toxic Shock is the first and definitive history of TSS. Vostral shows how commercial interests negatively affected women’s health outcomes; the insufficient testing of the first super-absorbency tampon; how TSS became a ‘women’s disease,’ for which women must constantly monitor their own bodies. Further, Vostral discusses the awkward, veiled and vague ways public health officials and the media discussed the risks of contracting TSS through tampon use because of social taboos around discussing menstruation, and how this has hampered regulatory actions and health communication around TSS, tampon use, and product safety. A study at the intersection of public health and social history, Toxic Shock brings to light the complexities behind a stigmatized and under-discussed issue in women’s reproductive health. Importantly, Vostral warns that as we move forward with more and more joint replacements, implants, and internal medical devices, we must understand the relationship of technology to bacteria and recognize that both can be active agents within the human body. In other words, unexpected consequences and risks of bacteria and technology interacting with each other remain.
China is one of the largest countries in the world, covering 7% of the earth's land surface, and encompassing a hugely diverse range of habitats. As a result it boasts a rich and diverse avifauna, including some of the most spectacular and fascinating birds to be found anywhere in the world. This is the first truly comprehensive, taxonomically modern, and fully illustrated field guide to the Chinese birds. Over 1300 species are illustrated in 128 colour paintings, and fully described in the text. Colour distribution maps are provided for all illustrated species. The authors have both lived and worked in the region for many years, and have extensive experience of writing and illustrating bird guides. This important book will be a landmark in field guide publishing.
Bio-optical Modeling and Remote Sensing of Inland Waters presents the latest developments, state-of-the-art, and future perspectives of bio-optical modeling for each optically active component of inland waters, providing a broad range of applications of water quality monitoring using remote sensing. Rather than discussing optical radiometry theories, the authors explore the applications of these theories to inland aquatic environments. The book not only covers applications, but also discusses new possibilities, making the bio-optical theories operational, a concept that is of great interest to both government and private sector organizations. In addition, it addresses not only the physical theory that makes bio-optical modeling possible, but also the implementation and applications of bio-optical modeling in inland waters. Early chapters introduce the concepts of bio-optical modeling and the classification of bio-optical models and satellite capabilities both in existence and in development. Later chapters target specific optically active components (OACs) for inland waters and present the current status and future direction of bio-optical modeling for the OACs. Concluding sections provide an overview of a governance strategy for global monitoring of inland waters based on earth observation and bio-optical modeling. - Presents comprehensive chapters that each target a different optically active component of inland waters - Contains contributions from respected and active professionals in the field - Presents applications of bio-optical modeling theories that are applicable to researchers, professionals, and government agencies
Celebrate the 50th anniversary of the metaphorical butterfly effect, born from Edward Lorenz's 1963 work on initial condition sensitivity. In 1972, it became a metaphor for illustrating how minor changes could yield an organized system. Lorenz Models: Chaos & Regime Changes Explore Lorenz models' 1960-2008 evolution, chaos theory, and attractors. Unraveling High-dimensional Instability Challenge norms in "Butterfly Effect without Chaos?" as non-chaotic elements contribute uniquely. Modeling Atmospheric Dynamics Delve into atmospheric dynamics via "Storm Sensitivity Study." Navigating Data Assimilation Explore data assimilation's dance in chaotic and nonchaotic settings via the observability Gramian. Chaos, Instability, Sensitivities Explore chaos, instability, and sensitivities with Lorenz 1963 & 1969 models. Unraveling Tropical Mysteries Investigate tropical atmospheric instability, uncovering oscillation origins and cloud-radiation interactions. Chaos and Order Enter atmospheric regimes, exploring attractor coexistence and predictability. The Art of Prediction Peer into predictability realms, tracing the "butterfly effect's" impact on predictions. Navigating Typhoons Journey through typhoons, exploring rainfall and typhoon trajectory prediction. Analyzing Sea Surface Temperature Examine nonlinear analysis for classification. Computational Fluid Dynamics Immerse in geophysical fluid dynamics progress, simulating atmospheric phenomena.
There is evidence that the global COVID-19 crisis is exacerbating existing inequalities and marginalization of vulnerable groups, including exceptional learners, stateless, street, migrant, and refugee children and youths, and the limited use of frameworks of emergency planning with and for marginalized and at-risk individuals. These challenges are multi-sectoral and intersecting, and they require multi- and interdisciplinary interventions to inform inclusive responses. These issues include being at a greater risk of excluding vulnerable learners from gaining access to equitable education (online/remote and blended education). Intersecting forms of discrimination such as gender, socioeconomic and legal status further exacerbate the problem. This has alerted us to examine the living conditions of marginalized and vulnerable populations around the globe, and to reveal their experiences, problems, and needs from an educational perspective, thus bringing insights into their vulnerabilities during the pandemic.