The invention of milking and milk use created a new mode of subsistence called pastoralism. On rangelands across Eurasia, pastoralists subsist by extensive animal husbandry and by processing their animals’ milk. Based on the author’s fieldwork over more than two decades, this book details the processing systems and uses of milk observed in pastoralist and farm households in West Asia, South Asia, North Asia, Central Asia, the Tibetan Plateau, and Europe and the Caucasus. Milk culture in each region is characterized by its processing technology and use of milk, and characteristics common to wider geographical spheres are identified. Inclusion of case studies from the literature expands the continent-wide perspective and provides further indications of how milk culture developed and diffused historically. The inferences drawn are expressed in the author’s monogenesis–bipolarization hypothesis of Eurasian milk culture, that milking and milk processing had a single center of origin in West Asia, and that the technology involved the spread from there across the continent, developing distinct characteristics in northern and southern spheres. Finally, because milk culture underpins pastoralism as a mode of subsistence, the typology and theory of pastoralism are re-examined from the standpoint of milk culture.
The invention of milking and milk use created a new mode of subsistence called pastoralism. On rangelands across Eurasia, pastoralists subsist by extensive animal husbandry and by processing their animals' milk. Based on the author's fieldwork over more than two decades, this book details the processing systems and uses of milk observed in pastoralist and farm households in West Asia, South Asia, North Asia, Central Asia, the Tibetan Plateau, and Europe and the Caucasus. Milk culture in each region is characterized by its processing technology and use of milk, and characteristics common to wider geographical spheres are identified. Inclusion of case studies from the literature expands the continent-wide perspective and provides further indications of how milk culture developed and diffused historically. The inferences drawn are expressed in the author's monogenesisƯ-bipolarization hypothesis of Eurasian milk culture, that milking and milk processing had a single center of origin in West Asia, and that the technology involved the spread from there across the continent, developing distinct characteristics in northern and southern spheres. Finally, because milk culture underpins pastoralism as a mode of subsistence, the typology and theory of pastoralism are re-examined from the standpoint of milk culture.
The invention of milking and milk use created a new mode of subsistence called pastoralism. On rangelands across Eurasia, pastoralists subsist by extensive animal husbandry and by processing their animals’ milk. Based on the author’s fieldwork over more than two decades, this book details the processing systems and uses of milk observed in pastoralist and farm households in West Asia, South Asia, North Asia, Central Asia, the Tibetan Plateau, and Europe and the Caucasus. Milk culture in each region is characterized by its processing technology and use of milk, and characteristics common to wider geographical spheres are identified. Inclusion of case studies from the literature expands the continent-wide perspective and provides further indications of how milk culture developed and diffused historically. The inferences drawn are expressed in the author’s monogenesis–bipolarization hypothesis of Eurasian milk culture, that milking and milk processing had a single center of origin in West Asia, and that the technology involved the spread from there across the continent, developing distinct characteristics in northern and southern spheres. Finally, because milk culture underpins pastoralism as a mode of subsistence, the typology and theory of pastoralism are re-examined from the standpoint of milk culture.
This book presents a new view of the mechanism of functional expression of ATP-driven motors (proteins or protein complexes). It is substantially different from the prevailing idea that the motor converts chemical energy to mechanical work. To facilitate understanding, the differences between the new and prevailing views are explained using many illustrations. The book is of interest to those who are not convinced of the notion of chemo–mechanical coupling. The claims presented are the following: The system, which comprises not only the motor but also water, does no mechanical work during the ATP hydrolysis cycle; a protein is moved or a protein in the complex is rotated by the entropic force generated by water. The highlight of the explanation in the book is that the mechanism of unidirectional rotation of the central shaft in F1-ATPase is discussed in detail on the basis of this new view. The hydration entropy of each β subunit to which a specific chemical compound (ATP, ADP and Pi, Pi, or nothing) is bound, the hydration entropy of the α3β3 complex, and the dependence of the hydration entropy of F1-ATPase on the orientation of the γ subunit play essential roles.
The quark confinement mechanism is one of the most difficult problems in particle physics, and is listed as the 7 difficult mathematical problems of the new millennium. The first person who first solves this problem will be awarded a prize of US$ 1 Million by Cray Mathematics Institute. This volume is useful for the systematic understanding of quark confinement and nonperturbative aspects of quantum chromodynamics (QCD) from the wide viewpoints of mathematical physics, lattice QCD physics and quark-hadron physics. It covers the current studies of nonperturbative QCD: quark confinement mechanism; topologies in QCD (instantons, monopoles and vortices); BRS quartet mechanism for color confinement; lattice QCD calculations for quarks, gluons and hadrons; dynamical chiral symmetry breaking and hadrons.
Dialogue systems are a very appealing technology with an extraordinary future. Spoken, Multilingual and Multimodal Dialogues Systems: Development and Assessment addresses the great demand for information about the development of advanced dialogue systems combining speech with other modalities under a multilingual framework. It aims to give a systematic overview of dialogue systems and recent advances in the practical application of spoken dialogue systems. Spoken Dialogue Systems are computer-based systems developed to provide information and carry out simple tasks using speech as the interaction mode. Examples include travel information and reservation, weather forecast information, directory information and product order. Multimodal Dialogue Systems aim to overcome the limitations of spoken dialogue systems which use speech as the only communication means, while Multilingual Systems allow interaction with users that speak different languages. Presents a clear snapshot of the structure of a standard dialogue system, by addressing its key components in the context of multilingual and multimodal interaction and the assessment of spoken, multilingual and multimodal systems In addition to the fundamentals of the technologies employed, the development and evaluation of these systems are described Highlights recent advances in the practical application of spoken dialogue systems This comprehensive overview is a must for graduate students and academics in the fields of speech recognition, speech synthesis, speech processing, language, and human–computer interaction technolgy. It will also prove to be a valuable resource to system developers working in these areas.
This book analyses comparatively the creation of American and Japanese universities on the model of German universities largely in the late nineteenth century, and the reform of German and Japanese universities on the model of American universities after the end of the Second World War. The argument is that transferring educational concepts and practices from one cultural context to another involves not merely a ‘transfer’, but a ‘transformation’. How and why this transformation occurs is what this book is about. More precisely, it is suggested that transformation of educational concepts and practices during their cross-cultural movement can be understood within a theoretical perspective that is proposed and developed in the book. This book is divided into six chapters. Chapter One, as the introduction, analyses several scholars’ approaches to the aspects of educational transfer, then attempts to construct a theoretical perspective for the book on the processes of change in educational concepts and practices during their movement across cultures. Chapters Two and Three offer two narratives to investigate how German university concepts and practices were transmuted as a consequence of local actors’ efforts to import these concepts and practices into Japan and the United States. Chapters Four and Five provide another two narratives to examine how American university concepts and practices were altered as a result of American actors’ attempts to export these concepts and practices to Japan and Germany. Chapter Six, as the conclusion, through reflecting on the four narratives given in the main chapters, re-examines the ways in which the theoretical perspective of this book is useful to understand the processes of transformation of educational concepts and practices during their movement from one culture to another.
This brief discusses the mechanism of functional expression of a protein or protein complex utilizing the ATP hydrolysis cycle or proton-motive force from a unique point of view focused on the roles of water. A variety of processes are considered such as the unidirectional movement of a linear-motor protein along a filament, insertion of an unfolded protein into a chaperonin and release of the folded protein from it, transport of diverse substrates across the membrane by a transporter, and directed rotation of the central subunit within a rotatory motor protein complex. These topics are discussed in a unified manner within the same theoretical framework. The author argues that water plays imperative roles in the functional expression of these molecular machines. A pivotal factor is the entropic force or potential originating from the translational displacement of water molecules coexisting with the molecular machines in the entire system.
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