The Long Ascent, Volume 1


Book Description

The first eleven chapters of Genesis (Adam, Eve, Noah) are to the twenty-first century what the Virgin Birth was to the nineteenth century: an impossibility. A technical scientific exegesis of Gen 1-11, however, reveals not only the lost rivers of Eden and its location, but the date of the Flood, the length of the Genesis days, and the importance of comets in the creation of the world. These were hidden in the Hebrew text, now illuminated by modern cosmology, archaeology, and biology. The internet-friendly linguistic tools described in this book make it possible to resolve the mysterious "firmament," to decipher the "bird of the air," and to find the dragonflies of chapter 1. Ancient Egyptian, Greek, Norse, Sumerian, and Sanskrit mythology are all found to support this new interpretation of Genesis. Combining science, myth, and the Genesis accounts together paints a vivid picture of the genetic causes and consequences of the greatest Flood of the human race. It also draws attention to the acute peril our present civilization faces as it follows the same path as its long-forgotten, antediluvian ancestors. Discover why Genesis has never been so possible, so relevant as it is today.




Astrobiology and Planetary Missions


Book Description

Proceedings of SPIE present the original research papers presented at SPIE conferences and other high-quality conferences in the broad-ranging fields of optics and photonics. These books provide prompt access to the latest innovations in research and technology in their respective fields. Proceedings of SPIE are among the most cited references in patent literature.




Dying Planet


Book Description

For more than a century, Mars has been at the center of debates about humanity’s place in the cosmos. Focusing on perceptions of the red planet in scientific works and science fiction, Dying Planet analyzes the ways Mars has served as a screen onto which humankind has projected both its hopes for the future and its fears of ecological devastation on Earth. Robert Markley draws on planetary astronomy, the history and cultural study of science, science fiction, literary and cultural criticism, ecology, and astrobiology to offer a cross-disciplinary investigation of the cultural and scientific dynamics that have kept Mars on front pages since the 1800s. Markley interweaves chapters on science and science fiction, enabling him to illuminate each arena and to explore the ways their concerns overlap and influence one another. He tracks all the major scientific developments, from observations through primitive telescopes in the seventeenth century to data returned by the rovers that landed on Mars in 2004. Markley describes how major science fiction writers—H. G. Wells, Kim Stanley Robinson, Philip K. Dick, Edgar Rice Burroughs, Ray Bradbury, Robert Heinlein, and Judith Merril—responded to new theories and new controversies. He also considers representations of Mars in film, on the radio, and in the popular press. In its comprehensive study of both science and science fiction, Dying Planet reveals how changing conceptions of Mars have had crucial consequences for understanding ecology on Earth.




Model Ecosystems in Extreme Environments


Book Description

Model Ecosystems in Extreme Environments, Second Edition examines ecosystems at the most extreme habitats and their interaction with the environment, providing a key element in our understanding of the role and function of microorganisms in nature. The book highlights current topics in the field, such as biodiversity and the structure of microbial communities in extreme environments, the effects of extreme environmental conditions on microbial ecosystems, and ecological and evolutionary interactions in extreme environments, among other topics. It will be a valuable text for faculty and students working with extremophiles and/or microbial ecology and researchers, including astrobiologists, biologists, evolutionary scientists, astronomers, geochemists and oceanographers. - Explores, in detail, how microbial ecosystems thrive in extreme environments - Highlights the relevance of extremophiles as model ecosystems to the study of microbial ecology - Examines how extreme ecosystems can help our search for life on other planets




Space Science


Book Description

Geology of the terrestrial planets with implications to astrobiology and mission design /Dirk Schulze-Makuch [und weitere] --Solar dynamics and solar-terrestrial influences /Katya Georgieva --Thedynamics of the plasmasphere /Viviane Pierrard --Flute and balloning modes in the inner magnetosphere of the earth : stability and influence of the ionospheric conductivity /O. K. Cheremnykh, A.S. Parnowski --Paleoshorelines and the evolution of the lithosphere of Mars /Javier Ruiz [und weitere] --Thermal properties and temperature variations in Martian soil analogues /F. Gori, S. Corasaniti --Dealing with potentially hazardous asteroids /Eric W. Elst --Effect of electromagnetic radiation on dynamics of cosmic dust particles /J. Klac̆ka, M. Kocifaj --Magnetic reconnection in the earth's magnetotail : reconstruction method and data analysis /T. Penz [und weitere] --Research on aerodynamics of large bolides /V. P. Stulov --Space weather /Juhani Huovelin.




Permafrost Response on Economic Development, Environmental Security and Natural Resources


Book Description

Unlike connotations such as greenhouse effect. global change, sea level, desertification, etc. , permafrost is definitely lacking in the everyday speech of many non-specialists. The reason is that areas of permafrost are too remote, barren and isolated. Focus on permafrost today is brought when huge environmental disasters, mainly related to pollution by oil spills, occur. Even then it is offered as




Cosmic Genetic Evolution


Book Description

Cosmic Genetic Evolution, Volume 106 in the Advances in Genetics series, highlights new advances in the field, with this new volume presenting interesting chapters on Panspermia, Cometary Panspermia and Origin of Life, The Efficient Lamarckian Spread of Life in the Cosmos, The Sociology of Science and Generality of the DNA/RNA/Protein Paradigm Throughout the Cosmos, The Mutagenic Source and Power of Our Own Evolution, Origin of New Emergent Coronavirus and Candida Fungal Diseases – Terrestrial or Cosmic?, and Future Prospects for Investigation -The Near-Earth Neighborhood and Beyond. - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in the Advances in Genetics series - Updated release includes the latest information on the Cosmic Genetic Evolution




The Ecology of Snow and Ice Environments


Book Description

Snow and ice environments support significant biological activity, yet the biological importance of some of these habitats, such as glaciers, has only recently gained appreciation. Collectively, these ecosystems form a significant part of the cryosphere, most of which is situated at high latitudes. These ice environments are important sentinels of climate change since the polar regions are presently undergoing the highest rates of climate warming, resulting in very marked changes in the extent of ice caps, glaciers, and the sea ice. Glacial systems are also regarded as an analogue for astrobiology, particularly for Mars and the moons of Jupiter (e.g. Europa), and one of the justifications for research in this area is its potential value in astrobiology. This timely and accessible volume draws together the current knowledge on life in snow and ice environments. It describes these often complex and often productive ecosystems, their physical and chemical conditions, and the nature and activity of the organisms that have colonised them. The cryosphere is the domain of extremophiles, organisms able to adapt to the physiological and biochemical challenges of harsh cold conditions where liquid water may only be present for relatively short periods each year. The majority of extremophiles in ice and snow are microorganisms. The Ecology of Snow and Ice Environments is intended for the non-specialist, enabling environmental scientists to understand the biological functioning of extreme cold environments and for biologists to gain knowledge of the nature of the cryosphere.