By the tenth century CE, Mount Wutai had become a major pilgrimage site within the emerging culture of a distinctively Chinese Buddhism. Famous as the abode of the bodhisattva Ma�ju r (known for his habit of riding around the mountain on a lion), the site in northeastern China�s Shanxi Province was transformed from a wild area, long believed by Daoists to be sacred, into an elaborate complex of Buddhist monasteries. In Building a Sacred Mountain, Wei-Cheng Lin traces the confluence of factors that produced this transformation and argues that monastic architecture, more than texts, icons, relics, or pilgrimages, was the key to Mount Wutai�s emergence as a sacred site. Departing from traditional architectural scholarship, Lin�s interdisciplinary approach goes beyond the analysis of forms and structures to show how the built environment can work in tandem with practices and discourses to provide a space for encountering the divine. For more information: http://arthistorypi.org/books/building-a-sacred-mountain
Lin Feng, who sold small pancakes, got a miraculous stone and menu by accident. Afterwards, the already famous pancake stand in the University City became filled with more customers. Relying on the magical power of the stone and the menu, Lin Feng first subdued the bullies that often bullied people around the Higher Education Mega Centre, then completed his own little dream and set up a small restaurant with his dependent sister, Lin Xin. Afterwards, he obtained a mystical system that continuously completed all the quests given by the system, ranging from catching chickens to making pancakes to winning the Master Chef Competition. In between, Lin Feng got to know many good partners. Finally, with the help of the system and with enough effort from Lin Feng himself, Lin Feng overcame many threats and difficulties, harvesting smiles and tears, friendship and love, his career and family, he reached the pinnacle of his life!
Lin Feng, who sold small pancakes, got a miraculous stone and menu by accident. Afterwards, the already famous pancake stand in the University City became filled with more customers. Relying on the magical power of the stone and the menu, Lin Feng first subdued the bullies that often bullied people around the Higher Education Mega Centre, then completed his own little dream and set up a small restaurant with his dependent sister, Lin Xin. Afterwards, he obtained a mystical system that continuously completed all the quests given by the system, ranging from catching chickens to making pancakes to winning the Master Chef Competition. In between, Lin Feng got to know many good partners. Finally, with the help of the system and with enough effort from Lin Feng himself, Lin Feng overcame many threats and difficulties, harvesting smiles and tears, friendship and love, his career and family, he reached the pinnacle of his life!
Lin Feng, who sold small pancakes, got a miraculous stone and menu by accident. Afterwards, the already famous pancake stand in the University City became filled with more customers. Relying on the magical power of the stone and the menu, Lin Feng first subdued the bullies that often bullied people around the Higher Education Mega Centre, then completed his own little dream and set up a small restaurant with his dependent sister, Lin Xin. Afterwards, he obtained a mystical system that continuously completed all the quests given by the system, ranging from catching chickens to making pancakes to winning the Master Chef Competition. In between, Lin Feng got to know many good partners. Finally, with the help of the system and with enough effort from Lin Feng himself, Lin Feng overcame many threats and difficulties, harvesting smiles and tears, friendship and love, his career and family, he reached the pinnacle of his life!
Set in central Angola during the final stages of the country's thirty-year civil war, No One Can Stop the Rain is the true story of two ordinary M(r)decins Sans Fronti res volunteers OCo a surgeon and his wife, leaving behind their comfortable lives in mid-career. In doing so they are confronted by both the best and worst aspects of humanity. Based on correspondence and diary entries, the book chronicles the couple's journey to Kuito, deep in the heart of Angola. The remnants of this provincial capital had the unenviable reputation of being one of the world's most heavily landmined cities. The events witnessed by Moorhouse and Cheng as they worked alongside civilians OCo victims of landmines, the malnourished, and the displaced OCo provide a unique insight into life in this vast humanitarian citadel. Through the couple's eyes, the reader not only experiences something of the expected, the trauma of war, but also gains a rich insight into the less expected, the ordinary life of both local residents and field volunteers.
Many behaviors in poultry can be modified by genetic selection. Selection of laying hens for maximum egg production had the unfortunate side effect of increased rates of beak inflicted damage on other birds. Selective breeding has eliminated broodiness and has either increased or decreased other behaviors, such as hysteria, fearfulness, appetite in broilers, social dominance, ability and damage to other birds. Genetic selection can be used to reduce behaviors that cause welfare problems. However, it must be approached with caution to avoid unintended consequences that would be detrimental to welfare. A calm, docile bird that appears behaviorally calm, may take longer for its heart rate to return to normal after it is frightened. The use of group selection instead of single-bird selection can be effectively used to reduce undesirable behaviors such as feather pecking and to maintain high egg production. An entire group of birds is selected instead of selecting individuals.
The main focus of this book is the transport mechanics of sediment particles coated with microbial biofilm, which is called bio-sediment. The book also addresses the question of how to measure and simulate the considerable variation in the properties of natural sediment associated with microbial biofilm, ranging from the micro-scale surface morphology to the macro-scale sediment transport. Nowadays most studies to elucidate the mechanisms of sediment transport have concentrated on physical-chemical sediment properties, little work explicitly coupled sediment dynamics and the environmental effects under the influence of micro-ecosystem, thus leaving a serious gap in water and sediment sciences as well as water ecological research. With respect to physical-chemical sediment properties, this book has been undertaken to evaluate and quantify the effect of biological factors - biofilm on sediment transport mechanics. The chapters cover topics including development of bio-sediment and its properties; model of biofilm growth on sediment substratum; bedform and flow resistance of bio-sediment bed; incipient velocity and settling velocity of bio-sediment; bedload and suspended load transport for bio-sediment; numerical simulation of bio-sediment transport. Besides, the measurement technology, analysis method and expression approach introduced in this book combine the characteristics of hydraulic, environmental and microbial research, having more immediate innovation. This book will be of interest to researchers, managers, practitioners, policy and decision makers, international institutions, governmental and non-governmental organizations, educators, as well as graduate and undergraduate students in the field of hydraulics and river dynamics. It will help to understand the relevance of sediment transport and biofilm growth under the role of aqueous micro-ecosystem, to introduce better tools for the simulation and prediction of bio-sediment transport, and to provide a scientific basis and application foundation for the research of interaction between sediment particles and ecological and environmental factors.
Microfluidics for Biological Applications provides researchers and scientists in the biotechnology, pharmaceutical, and life science industries with an introduction to the basics of microfluidics and also discusses how to link these technologies to various biological applications at the industrial and academic level. Readers will gain insight into a wide variety of biological applications for microfluidics. The material presented here is divided into four parts, Part I gives perspective on the history and development of microfluidic technologies, Part II presents overviews on how microfluidic systems have been used to study and manipulate specific classes of components, Part III focuses on specific biological applications of microfluidics: biodefense, diagnostics, high throughput screening, and tissue engineering and finally Part IV concludes with a discussion of emerging trends in the microfluidics field and the current challenges to the growth and continuing success of the field.
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