Yuri Tynianov was a key figure of Russian Formalism, an intellectual movement in early 20th century Russia that also included Viktor Shklovsky and Roman Jakobson. Tynianov developed a groundbreaking conceptualization of literature as a system within—and in constant interaction with—other cultural and social systems. His essays on Russian literary classics, like Pushkin’s Eugene Onegin and works by Dostoevsky and Gogol, as well as on the emerging art form of filmmaking, provide insight into the ways art and literature evolve and adapt new forms of expression. Although Tynianov was first a scholar of Russian literature, his ideas transcend the boundaries of any one genre or national tradition. Permanent Evolution gathers together for the first time Tynianov’s seminal articles on literary theory and film, including several articles never before translated into English.
Evolution, Order and Complexity reflects topical interest in the relationship between the social and natural worlds. It represents the cutting edge of current thinking which challenges the natural/social dichotomy thesis by showing how the application of ideas which derive from biology can be applied and offer insight into the social realm. This is done by introducing the general system theory to the methodological debate on the relation of human and natural sciences.
Every conscious person on the earth is curious to know how the species of human beings along with other living systems as well as the whole universe came into existence. The theory of Darwin which ignited the imaginations of many generations of thinking people all over the world even to this day is no more than a hypothesis, except for the concept of speciation which can be a working principle to understand about minor changes that a species undergoes over a period of time. In this new theory of evolution, in what can be called as a syncretism of the ideas of the East and the West, the author takes a convincing turn from the realm of external attributes or the form of an organism to the realm of internal attributes or the life of an organism to unfurl a new hypothesis which can give more logical answers to the mysteries of evolution.
Pillars of Evolution provides a fresh and provocative perspective on adaptive evolution. Readers new to the study of evolution will find a refreshing new insight that establishes evolutionary biology as a rigorous and predictive science, whilst practicing biologists will discover a provocative book that challenges traditional approaches. The book begins by leading readers through the mechanics of heredity, reproduction, movement, survival, and development. With that framework in place, it then explores the numerous ways that traits emerge from the interactions between genetics, development, and the environment. The key message is that adaptive changes in traits (and their underlying allelic frequencies) evolve through the traits' functions and their connection with fitness. The complex mappings from genes-to-traits-to-fitness are characterized in the structure of evolution. A single "structure matrix" describes why individuals vary in the values of adaptive traits, their ability to perform the function of those traits, and in the fitness they accrue. Fitness depends on how organisms interact with and perceive their environment in time and space. These relationships are made explicit in spatial, temporal, and organizational scale that also sets the stage for the crucially important role that ecology always plays in evolution. The ecological hallmarks of density- and frequency-dependent interactions allow the authors to explore new and exciting insights into evolution's dynamics. The theories and principles are then brought together in a final synthesis on adaptation. The book's unique approach unites genetic, development, and environmental influences into a single comprehensive treatment of the eco-evolutionary process.
Biodiversity and Evolution includes chapters devoted to the evolution and biodiversity of organisms at the molecular level, based on the study of natural collections from the Museum of Natural History. The book starts with an epistemological and historical introduction and ends with a critical overview of the Anthropocene epoch. - Explores the study of natural collections of the Museum of Natural History - Examines evolution and biodiversity at the molecular level - Features an introduction focusing on epistemology and history - Provides a critical overview
John Dewey was the first philosopher to recognize that Darwin's thesis about natural selection not only required us to change how we think about ourselves and the life forms around us, but also required a markedly different approach to philosophy. Evolution's First Philosopher shows how Dewey's arguments arose from his recognition of the continuity of natural selection and mindedness, from which he developed his concept of growth. Growth, for Dewey, has no end beyond itself and forms the basis of a naturalized theory of ethics. While other philosophers gave some attention to evolutionary theory, it was Dewey alone who saw that Darwinism provides the basis for a naturalized theory of meaning. This, in turn, portends a new account of knowledge, ethics, and democracy. To clarify evolution's conception of natural selection, Jerome A. Popp looks at brain science and examines the relationship between the genome and experience in terms of the contemporary concepts of preparedness and plasticity. This research shows how comprehensive and penetrating Dewey's thought was in terms of further consequences for the philosophical method entailed by Darwin's thesis. Dewey's foresight is further legitimated when Popp places his work within the context of the current thought of Daniel Dennett.
Combined modularized therapies for metastatic cancer are pointing to central problems of communication among ‘systems participators’. A communication theory explains 'social engineering', endogenously induced or by implementing non-normative boundary conditions. Evolution-adjusted tumor pathophysiology is borne by an evolution theory, which contrasts narrative evolution histories. The tool of rationalizations constituting the tumor's normativity (inflammation, immune response etc.) represents the non-genomic counterpart of the tumor genome and should be additionally assessed during tumor staging. Evolution-adjusted tumor pathophysiology allows implementing applied systems biology, a novel clinical and pharmaceutical technology for bioengineering tumor response and personalizing tumor therapy. Combined modularized therapy, evolution-adjusted tumor pathophysiology, and ‘universal’ biomarkers concertedly address genetically based tumor heterogeneity.
Haller (history, medical humanities, Southern Illinois U.) examines the scientific "proof" of racial inferiority in the US during the period between the 1859 publication of Darwin's Origin of Species and the discovery in 1900 of Gregor Mendel's experiments with genetics, in this reprint of a work first published in 1971 by University of Illinois Press. He shows how scientists sought to apply evolutionary ideas to morality, health, and the physiognomy of nonwhite races, and looks at the relationship between scientific theories and public policy. Includes bandw illustrations. Annotation copyright by Book News, Inc., Portland, OR
Written for non-experts, this volume introduces the mechanisms that underlie reticulate evolution. Chapters are either accompanied with glossaries that explain new terminology or timelines that position pioneering scholars and their major discoveries in their historical contexts. The contributing authors outline the history and original context of discovery of symbiosis, symbiogenesis, lateral gene transfer, hybridization or divergence with gene flow and infectious heredity. By applying key insights from the areas of molecular (phylo)genetics, microbiology, virology, ecology, systematics, immunology, epidemiology and computational science, they demonstrate how reticulate evolution impacts successful survival, fitness and speciation. Reticulate evolution brings forth a challenge to the standard Neo-Darwinian framework, which defines life as the outcome of bifurcation and ramification patterns brought forth by the vertical mechanism of natural selection. Reticulate evolution puts forward a pattern in the tree of life that is characterized by horizontal mergings and lineage crossings induced by symbiosis, symbiogenesis, lateral gene transfer, hybridization or divergence with gene flow and infective heredity, making the “tree of life” look more like a “web of life.” On an epistemological level, the various means by which hereditary material can be transferred horizontally challenges our classic notions of units and levels of evolution, fitness, modes of transmission, linearity, communities and biological individuality. The case studies presented examine topics including the origin of the eukaryotic cell and its organelles through symbiogenesis; the origin of algae through primary and secondary symbiosis and dinoflagellates through tertiary symbiosis; the superorganism and holobiont as units of evolution; how endosymbiosis induces speciation in multicellular life forms; transferrable and non-transferrable plasmids and how they symbiotically interact with their host; the means by which pro- and eukaryotic organisms transfer genes laterally (bacterial transformation, transduction and conjugation as well as transposons and other mobile genetic elements); hybridization and divergence with gene flow in sexually-reproducing individuals; current (human) microbiome and viriome studies that impact our knowledge concerning the evolution of organismal health and acquired immunity; and how symbiosis and symbiogenesis can be modelled in computational evolution.
