(tentative) What bring about biodiversity are not always genes. As is the case with humans, cultural diversity of non-human animals has also been found. Most of well-known examples of animal cultures are those of food acquisition behaviors, such as sweet-potato-washing by Japanese macaques and nut-cracking by chimpanzees. First author, Naofumi Nakagawa, introduces cultural diversity of social behaviors in wild Japanese macaques, such as the embracing behaviors between adult females in a wild group in each population of Yakushima, Kinkazan, and Shimokita. The subtle local difference in embracing can be identified as the first evidence for social customs in wild Japanese macaques. The next author, Michael A. Huffman, introduces the self-medicative behavior in non-human primates, which is a relatively new study in primatology. Parasites cause a variety of diseases that affect the behavior and reproductive fitness of an individual. He classifies health maintenance and self-medicative behaviors observed in non-human primates into four levels. Not only humans but also apes and monkeys are maintaining their health. The third authors, Hiroo Imai, Masaki Tomonaga, and Yasuhiro Go, are promoting comparative cognitive sciences of primates including human and chimpanzees. Recently, human personal genome projects progresses as related to the phenotypes including cognition, while there was no similar project for non-human primates. They started personal genome and transcriptome projects of chimpanzees in Primate Research Institute, Kyoto University, years ago. They introduce recent progresses of the project and related results based on the primate genome sciences.
Encephalitises are a group of inflammatory human and animal diseases of brain caused essentially by different pathogens. In spite of evident success in approaches for prevention, diagnostics and treatment during the last decades, the encephalitises of different etiology still constitute a menace for thousands of people all around the world. In this book the different aspects of encephalitises of different etiology are discussed such as diagnostics, treatment and clinical management of patients. Also, the data on epidemiology, monitoring, pathology and diagnostics of different viral causative agents are discussed.
(tentative) What bring about biodiversity are not always genes. As is the case with humans, cultural diversity of non-human animals has also been found. Most of well-known examples of animal cultures are those of food acquisition behaviors, such as sweet-potato-washing by Japanese macaques and nut-cracking by chimpanzees. First author, Naofumi Nakagawa, introduces cultural diversity of social behaviors in wild Japanese macaques, such as the embracing behaviors between adult females in a wild group in each population of Yakushima, Kinkazan, and Shimokita. The subtle local difference in embracing can be identified as the first evidence for social customs in wild Japanese macaques. The next author, Michael A. Huffman, introduces the self-medicative behavior in non-human primates, which is a relatively new study in primatology. Parasites cause a variety of diseases that affect the behavior and reproductive fitness of an individual. He classifies health maintenance and self-medicative behaviors observed in non-human primates into four levels. Not only humans but also apes and monkeys are maintaining their health. The third authors, Hiroo Imai, Masaki Tomonaga, and Yasuhiro Go, are promoting comparative cognitive sciences of primates including human and chimpanzees. Recently, human personal genome projects progresses as related to the phenotypes including cognition, while there was no similar project for non-human primates. They started personal genome and transcriptome projects of chimpanzees in Primate Research Institute, Kyoto University, years ago. They introduce recent progresses of the project and related results based on the primate genome sciences.
This work is concerned with combinatorial aspects arising in the theory of exactly solvable models and representation theory. Developments in integrable models reveal an unexpected link between representation theory and statistical mechanics through combinatorics. For example, Young tableaux, which describe the basis of irreducible representations, appear in the Bethe Ansatz method in quantum spin chains as labels for the eigenstates of Hamiltonians. this text presents results and ideas from three viewpoints: representation theory; integrable models; and combinatorics.
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