Audisee® eBooks with Audio combine professional narration and text highlighting to engage reluctant readers! Captivating photos of animals accompany simple, engaging text to explain dormancy in nature. This highly curricular book teaches young readers about different kinds of dormancy and which animals do what. Featuring creatures like ladybugs, chickadees, squirrels, and even alligators, this book won't put curious kids to sleep!
An overlooked security flaw in smart phone and tablet assembly allows a Chinese cult leader, a tormented victim of the Rape of Nanjing, to implant killer Trojan chips. A young engineer with the NTSB uncovers the cyber terrorist's attack method and becomes a target of the cult's assassin. The Chinese, U.S., and Middle East governments are pulled into a momentous battle toward an unpredictable yet credible shift in global strata.
An ideal starting point for anyone wanting to learn about next generation wireless networks Gives important insights into the design of wireless IP networks Illustrates the standards and network architectures defined by leading standards bodies (including MWIF, 3GPP and 3GPP2) Discusses protocols in four key areas: signaling, mobility, quality of service, and security The authors have a good deal of experience in this field, and have many patents pending in the area of wireless networking
Dormancy and Developmental Arrest: Experimental Analysis in Plants and Animals discusses the experimentation on states of suspended animation of living organisms. The book presents the range and complexity of interconnected processes involving structural, physiological, and molecular alterations in the organism. The text describes the physiological responses of animals and plants to environmental signals. It discusses the activities of nucleic acid and protein synthesis prior to dormancy state. The text also describes plant embryo development and the regulation of body temperature in dormant states. The book will provide valuable insights for biologists, zoologists, botanists, students, and researchers in the field of biology.
Many organisms have evolved the ability to enter into and revive from a dormant state. They can survive for long periods in this state (often even months to years), yet can become responsive again within minutes or hours. This is often, but not necessarily, associated with desiccation. Preserving one’s body and reviving it in future generations is a dream of mankind. To date, however, we have failed to learn how cells, tissues or entire organisms can be made dormant or be effectively revived at ambient temperatures. In this book studies on organisms, ranging from aquatic cyanobacteria that produce akinetes to hibernating mammals, are presented, and reveal common but also divergent physiological and molecular pathways for surviving in a dormant form or for tolerating harsh environments. Attempting to learn the functions associated with dormancy and how they are regulated is one of the great future challenges. Its relevance to the preservation of cells and tissues is one of the key concerns of this book.
This volume is based on the Workshop on Systems Biology of Tumor Dormancy meeting, held July 25th to July 28th, 2011. The first annual CCSB workshop brought together biologists, clinicians, mathematicians, and computer scientists to discuss various aspects of tumor dormancy and develop novel mathematical/computational models with the keynote speakers. Specific topics included the angiogenic switch, immune system interactions, cancer stem cells and signaling.
This volume will be the first to provide a comprehensive description of tumor dormancy. It will define the clinical and biological aspects of this phenomenon, as well as the cellular and molecular mechanisms associated with tumor dormancy. Chapters will be authored by world-renewed experts who are conducting cutting-edge research in the field. A unique feature will be a conclusive paragraph detailing future development and foreseeable clinical applications at the end of each chapter. The volume will serve as a fundamental instrument for every researcher and clinician interested in the field of tumor dormancy as well as a means of disseminating stimulating concepts and prompting the development of innovative technological solutions.
Pre-harvest sprouting (PHS) and late-maturity alpha-amylase (LMA) are two of the biggest grain quality defects that grain growers encounter. About 50 percent of the global wheat crop is affected by pre-harvest sprouting to various degrees. Pre-harvest sprouting is a genetically-based quality defect and results in the presence of alpha-amylase in otherwise sound mature grain. It can range from perhaps undetectable to severe damage on grain and is measured by the falling numbers or alpha-amylase activity. This is an international issue, with sprouting damage lowering the value of crops to growers, seed and grain merchants, millers, maltsters, bakers, other processors, and ultimately the consumer. As such it has attracted attention from researchers in many biological and non-biological disciplines. The 13th International Symposium on Pre-Harvest Sprouting in Cereals was held 18-20 September, 2016 in Perth to discuss current findings of grain physiology, genetic pathways, trait expression and screening methods related to pre-harvest sprouting and LMA. This event followed the previous symposium in 2012 in Canada.
