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We’ve all heard stories of people who’ve experienced seemingly miraculous recoveries from illness, but can the same thing happen for our world? According to pioneering biologist Bruce H. Lipton, it’s not only possible, it’s already occurring. In Spontaneous Evolution, this world-renowned expert in the emerging science of epigenetics reveals how our changing understanding of biology will help us navigate this turbulent period in our planet’s history and how each of us can participate in this global shift. In collaboration with political philosopher Steve Bhaerman, Dr. Lipton invites readers to reconsider the "unquestionable" pillars of biology, including: · random evolution, survival of the fittest, and the role of DNA; · the relationship between mind and matter; · how our beliefs about nature and human nature shape our politics, culture, and individual lives; and · how each of us can become planetary "stem cells" supporting the health and growth of our world. By questioning the old beliefs that got us to where we are today and keep us stuck in the status quo, we can trigger the spontaneous evolution of our species that will usher in a brighter future.
We’ve all heard stories of people who’ve experienced seemingly miraculous recoveries from illness, but can the same thing happen for our world? According to pioneering biologist Bruce H. Lipton, it’s not only possible, it’s already occurring. In Spontaneous Evolution, this world-renowned expert in the emerging science of epigenetics reveals how our changing understanding of biology will help us navigate this turbulent period in our planet’s history and how each of us can participate in this global shift. In collaboration with political philosopher Steve Bhaerman, Dr. Lipton invites readers to reconsider: •the "unquestionable" pillars of biology, including random evolution, survival of the fittest, and the role of DNA; •the relationship between mind and matter; •how our beliefs about nature and human nature shape our politics, culture, and individual lives; and •how each of us can become planetary "stem cells" supporting the health and growth of our world.By questioning the old beliefs that got us to where we are today and keep us stuck in the status quo, we can trigger the spontaneous evolution of our species that will usher in a brighter future. .
We've all heard stories of people who've experienced seemingly miraculous recoveries from illness, but can the same thing happen for our world? According to pioneering biologist Bruce H. Lipton, it's not only possible, it's already occurring. In Spontaneous Evolution, this world-renowned expert in the emerging science of epigenetics reveals how our changing understanding of biology will help us navigate this turbulent period in our planet's history and how each of us can participate in this global shift. In collaboration with political philosopher Steve Bhaerman, Dr. Lipton invites readers to reconsider: the ''unquestionable'' pillars of biology, including random evolution, survival of the fittest, and the role of DNA; the relationship between mind and matter; how our beliefs about nature and human nature shape our politics, culture, and individual lives; and how each of us can become planetary ''stem cells'' supporting the health and growth of our world. By questioning the old beliefs that got us to where we are today and keep us stuck in the status quo, we can trigger the spontaneous evolution of our species that will usher in a brighter future.
How, asks James E. Strick, could spontaneous generation--the idea that living things can suddenly arise from nonliving materials--come to take root for a time (even a brief one) in so thoroughly unsuitable a field as British natural theology? No less an authority than Aristotle claimed that cases of spontaneous generation were to be observed in nature, and the idea held sway for centuries. Beginning around the time of the Scientific Revolution, however, the doctrine was increasingly challenged; attempts to prove or disprove it led to important breakthroughs in experimental design and laboratory techniques, most notably sterilization methods, that became the cornerstones of modern microbiology and sped the ascendancy of the germ theory of disease. The Victorian debates, Strick shows, were entwined with the public controversy over Darwin's theory of evolution. While other histories of the debates between 1860 and 1880 have focused largely on the experiments of John Tyndall, Henry Charlton Bastian, and others, Sparks of Life emphasizes previously understudied changes in the theories that underlay the debates. Strick argues that the disputes cannot be understood without full knowledge of the factional infighting among Darwinians themselves, as they struggled to create a socially and scientifically viable form of Darwinian science. He shows that even the terms of the debate, such as biogenesis, usually but incorrectly attributed to Huxley, were intensely contested.
From the bestselling author of The Biology of Belief Discover the secret to manifesting and maintaining the Honeymoon Effect—a state of bliss, passion, energy, and health in the early stages of a great love—throughout your entire life Think back on the most spectacular love affair of your life—the Big One that toppled you head over heels. For most, it was a time of heartfelt bliss, robust health, and abundant energy. Life was so beautiful that you couldn’t wait to bound out of bed in the morning to experience more Heaven on Earth. It was the Honeymoon Effect that was to last forever. Unfortunately for most, the Honeymoon Effect is frequently short lived. Imagine what your planetary experience would be like if you could maintain the Honeymoon Effect throughout your whole life. Bruce H. Lipton, Ph.D., best-selling author of The Biology of Belief, describes how the Honeymoon Effect was not a chance event or a coincidence, but a personal creation. This book reveals how we manifest the Honeymoon Effect and the reasons why we lose it. This knowledge empowers readers to create the honeymoon experience again, this time in a way that ensures a happily-ever-after relationship that even a Hollywood producer would love. With authority, eloquence, and an easy-to-read style, Lipton covers the influence of quantum physics (good vibrations), biochemistry (love potions), and psychology (the conscious and subconscious minds) in creating and sustaining juicy loving relationships. He also asserts that if we use the fifty trillion cells that live harmoniously in every healthy human body as a model, we can create not just honeymoon relationships for couples but also a “super organism” called humanity that can heal our planet.
This 1994 book was the first collection devoted to impact of natural sciences on content and form of economics in history.
Origin and Early Evolution of Life draws on evidence from molecular genetics, the structure and function of extant organisms, and geology. It covers the period from about 4 billion years ago, when life is thought to have originated, to about 600 million years ago when multicellular organisms first arose. There are significant gaps in our understanding of the earliest evolution of life forms, but an insight into the topic leads to a more profound understanding of life itself. Particular emphasis is placed on the fact that although life arose very soon after the origin of the Earth, it was represented only by simple microbial life forms for approximately 85% of this time. Increase in complexity beyond the microbial level took place only very late in the history of life.
"Darwin's book on evolution admitted that "intermediate links" were "perhaps the most obvious and serious objection to the theory" of evolution. Darwin recognized that the fossils collected by scientists prior to 1859 did not correspond with his theory of evolution, but he predicted that his theory would be confirmed as more and more fossils were found. One hundred and fifty years later, Evolution: The Grand Experiment critically examines the viability of Darwin's theory"--
These six original essays focus on a potentially important aspect of evolutionary biology, the possible causal role of phenotypic behavior in evolution. Balancing theory with actual or potential empiricism, they provide the first full examination of this topic. Plotkin's opening chapter outlines the "conceptual minefields" that the contributors attempt to negotiate: What is an adequate theory of evolution? What is behavior and is it possible to maintain a distinction between behavior and other attributes of the phenotype? is all, or only a special subset, of behavior both a cause and a consequence of evolution? And what do the theoretical issues mean in empirical terms? He concludes that any attempt to understand the causal role of behavior in evolution requires a more complicated theoretical structure than that of orthodox neoDarwinism, a conceptualization of behavior as a distinctive set of phenotypic attributes, and the accumulation of more data. David L. Hull (Northwestern University) provides an alternative account of the evolutionary process by developing a hierarchy of replicators-interactors-lineages to replace the traditional one of genes-organisms-species. Robert N. Brandon (Duke University) also posits hierarchy as an appropriate architecture for the theoretical complexity needed to support an examination of the role of behavior in evolution. F. J. Odling-Smee (Brunei University) outlines a theoretical structure to encompass the behavior of phenotypes, concentrating on the unrestricted definition of behavior (everything that an animal does). The remaining chapters are as much concerned with evidence as with theory. Plotkin concentrates on a restricted definition of behavior (behavior that is a product of choosing intelligence), reviewing our empirical knowledge of how learning might influence evolution. R.I.M. Dunbar (University College, London) uses empirical studies of vertebrate social behavior to deal with the question of how the social systems, especially of primates, might have a causal role in species evolution. A Bradford Book
Where do spontaneous thoughts come from? It may be surprising that the seemingly straightforward answers "from the mind" or "from the brain" are in fact an incredibly recent understanding of the origins of spontaneous thought. For nearly all of human history, our thoughts - especially the most sudden, insightful, and important - were almost universally ascribed to divine or other external sources. Only in the past few centuries have we truly taken responsibility for their own mental content, and finally localized thought to the central nervous system - laying the foundations for a protoscience of spontaneous thought. But enormous questions still loom: what, exactly, is spontaneous thought? Why does our brain engage in spontaneous forms of thinking, and when is this most likely to occur? And perhaps the question most interesting and accessible from a scientific perspective: how does the brain generate and evaluate its own spontaneous creations? Spontaneous thought includes our daytime fantasies and mind-wandering; the flashes of insight and inspiration familiar to the artist, scientist, and inventor; and the nighttime visions we call dreams. This Handbook brings together views from neuroscience, psychology, philosophy, phenomenology, history, education, contemplative traditions, and clinical practice to begin to address the ubiquitous but poorly understood mental phenomena that we collectively call 'spontaneous thought.' In studying such an abstruse and seemingly impractical subject, we should remember that our capacity for spontaneity, originality, and creativity defines us as a species - and as individuals. Spontaneous forms of thought enable us to transcend not only the here and now of perceptual experience, but also the bonds of our deliberately-controlled and goal-directed cognition; they allow the space for us to be other than who we are, and for our minds to think beyond the limitations of our current viewpoints and beliefs.