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Author: David B. Dusenbery
Publisher: Harvard University Press
ISBN: 0674060210
Category : Science
Languages : en
Pages : 449
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Book Description
Kermit the Frog famously said that it isnÕt easy being green, and in Living at Micro Scale David Dusenbery shows that it isnÕt easy being smallÑexisting at the size of, say, a rotifer, a tiny multicellular animal just at the boundary between the visible and the microscopic. ÒImagine,Ó he writes, Òstepping off a curb and waiting a week for your foot to hit the ground.Ó At that scale, we would be small enough to swim inside the letter O in the word Òrotifer.Ó What are the physical consequences of life at this scale? How do such organisms move, identify prey and predators and (if theyÕre so inclined) mates, signal to one another, and orient themselves? In clear and engaging prose, Dusenbery uses straightforward physics to demonstrate the constraints on the size, shape, and behavior of tiny organisms. While recounting the historical development of the basic concepts, he unearths a corner of microbiology rich in history, and full of lessons about how science does or does not progress. Marshalling findings from different fields to show why tiny organisms have some of the properties they are found to have, Dusenbery shows a science that doesnÕt always move triumphantly forward, and is dependent to a great extent on accident and contingency.
Author: David B. Dusenbery
Publisher: Harvard University Press
ISBN: 0674060210
Category : Science
Languages : en
Pages : 449
Get Book Here
Book Description
Kermit the Frog famously said that it isnÕt easy being green, and in Living at Micro Scale David Dusenbery shows that it isnÕt easy being smallÑexisting at the size of, say, a rotifer, a tiny multicellular animal just at the boundary between the visible and the microscopic. ÒImagine,Ó he writes, Òstepping off a curb and waiting a week for your foot to hit the ground.Ó At that scale, we would be small enough to swim inside the letter O in the word Òrotifer.Ó What are the physical consequences of life at this scale? How do such organisms move, identify prey and predators and (if theyÕre so inclined) mates, signal to one another, and orient themselves? In clear and engaging prose, Dusenbery uses straightforward physics to demonstrate the constraints on the size, shape, and behavior of tiny organisms. While recounting the historical development of the basic concepts, he unearths a corner of microbiology rich in history, and full of lessons about how science does or does not progress. Marshalling findings from different fields to show why tiny organisms have some of the properties they are found to have, Dusenbery shows a science that doesnÕt always move triumphantly forward, and is dependent to a great extent on accident and contingency.
Author: David B. Dusenbery
Publisher: Harvard University Press
ISBN: 9780674031166
Category : Science
Languages : en
Pages : 0
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Book Description
Kermit the Frog famously said that it isn’t easy being green, and in Living at Micro Scale David Dusenbery shows that it isn’t easy being small—existing at the size of, say, a rotifer, a tiny multicellular animal just at the boundary between the visible and the microscopic. “Imagine,” he writes, “stepping off a curb and waiting a week for your foot to hit the ground.” At that scale, we would be small enough to swim inside the letter O in the word “rotifer.” What are the physical consequences of life at this scale? How do such organisms move, identify prey and predators and (if they’re so inclined) mates, signal to one another, and orient themselves? In clear and engaging prose, Dusenbery uses straightforward physics to demonstrate the constraints on the size, shape, and behavior of tiny organisms. While recounting the historical development of the basic concepts, he unearths a corner of microbiology rich in history, and full of lessons about how science does or does not progress. Marshalling findings from different fields to show why tiny organisms have some of the properties they are found to have, Dusenbery shows a science that doesn’t always move triumphantly forward, and is dependent to a great extent on accident and contingency.
Author: David B. Dusenbery
Publisher: Harvard University Press
ISBN: 0674261682
Category : Science
Languages : en
Pages : 449
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Book Description
Discusses the constraints on the size, shape, and behavior of tiny organisms using findings from different fields to show why microorganisms have some of the properties they have.
Author: John L. Ingraham
Publisher: Harvard University Press
ISBN: 0674054032
Category : Medical
Languages : en
Pages : 337
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Book Description
A Choice Outstanding Academic Title Renowned microbiologist John Ingraham rescues the supremely important and ubiquitous microorganisms from their unwonted obscurity by showing us how we can, in fact, see and appreciate them.
Author: John L. Ingraham
Publisher: Harvard University Press
ISBN: 0674979265
Category : Science
Languages : en
Pages : 171
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Book Description
Since Darwin, people have speculated about the evolutionary relationships among dissimilar species, including our connections to the diverse life forms known as microbes. In the 1970s biologists discovered a way to establish these kinships. This new era of exploration began with Linus Pauling’s finding that every protein in every cell contains a huge reservoir of evolutionary history. His discovery opened a research path that has changed the way biologists and others think about the living world. In Kin John L. Ingraham tells the story of these remarkable breakthroughs. His original, accessible history explains how we came to understand our microbe inheritance and the relatedness of all organisms on Earth. Among the most revolutionary scientific achievements was Carl Woese’s discovery that a large group of organisms previously lumped together with bacteria were in fact a totally distinct form of life, now called the archaea. But the crowning accomplishment has been to construct the Tree of Life—an evolutionary project Darwin dreamed about over a century ago. Today, we know that the Tree’s three main stems are dominated by microbes. The nonmicrobes—plants and animals, including humans—constitute only a small upper branch in one stem. Knowing the Tree’s structure has given biologists the ability to characterize the complex array of microbial populations that live in us and on us, and investigate how they contribute to health and disease. This knowledge also moves us closer to answering the tantalizing question of how the Tree of Life began, over 3.5 billion years ago.
Author: Scott Chimileski
Publisher: Harvard University Press
ISBN: 067497591X
Category : Nature
Languages : en
Pages : 385
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Book Description
This stunning photographic essay opens a new frontier for readers to explore through words and images. Microbial studies have clarified life’s origins on Earth, explained the functioning of ecosystems, and improved both crop yields and human health. Scott Chimileski and Roberto Kolter are expert guides to an invisible world waiting in plain sight.
Author: Ruth Morrow
Publisher: Birkhäuser
ISBN: 3035625808
Category : Architecture
Languages : en
Pages : 188
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Book Description
Designing with living materials: thoughts on the paradigm shift and an overview of the state of research What is “Bioprotopia”? It is a vision of a world with buildings that grow, self-heal and create virtuous cycles where waste from one process feeds another. A vision where the spaces that we inhabit are attuned to both the human occupants and non-human microbial ecologies. This is the first book to ground the concept of biotechnology in the built environment in tangible, large-scale prototypes. With rich visuals, it presents materials and processes that bring to life the many possibilities of shaping the built environment with micro-organisms. In addition to considering scientific and technical challenges, the book also discusses the need for a shift in thinking and culture to realise this vision. First comprehensive publication on the state of research Demonstrates the use of renewable materials in design Illustrative, scientific documentation for design professions and researchers
Author: DK
Publisher: Penguin
ISBN: 0744060192
Category : Science
Languages : en
Pages : 416
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Book Description
Explore the everyday miracle of the microscopic world With spectacular macro photography and microscope images, this ebook reveals a hidden, living world full of intricate structures beyond the naked eye. Included are the tiniest insects and spiders; but looking deeper, you will discover truly microscopic creatures--even bacteria and viruses. Earth is home to more microbes, and more different types of microbes, than any other living organism. Bacteria on Earth outweigh humans by 1,100 to 1; and without them, all world ecosystems would collapse. This ebook reveals this vital, unseen realm, but it includes large life-forms too, in extreme close-up, so that you can wonder at the beauty of a pollen grain, a butterfly egg, the spore of a fungus, and the nerve cell of a human. The spectacular imagery in Micro Life exploits cutting-edge technology, such as focus-stacked macro photographs, as well as micrographs (microscope images) including scanning electron micrographs. Illustrations nearby explain the science--from the workings of an insect's eye to how a plant "breathes" through its leaves. The biology builds into a reference on how life works--and how all organisms, however small, solve the basic problems of movement, reproduction, energy, communication, and defense. Micro Life is a beautiful and surprising look at the natural world.
Author: Tony J. Prescott
Publisher: Oxford University Press
ISBN: 0191662569
Category : Medical
Languages : en
Pages : 655
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Book Description
Contemporary research in science and engineering is seeking to harness the versatility and sustainability of living organisms. By exploiting natural principles, researchers hope to create new kinds of technology that are self-repairing, adaptable, and robust, and to invent a new class of machines that are perceptive, social, emotional, perhaps even conscious. This is the realm of the 'living machine'. Living machines can be divided into two types: biomimetic systems, that harness the principles discovered in nature and embody them in new artifacts, and biohybrid systems in which biological entities are coupled with synthetic ones. Living Machines: A handbook of research in biomimetic and biohybrid systems surveys this flourishing area of research, capturing the current state of play and pointing to the opportunities ahead. Promising areas in biomimetics include self-organization, biologically inspired active materials, self-assembly and self-repair, learning, memory, control architectures and self-regulation, locomotion in air, on land or in water, perception, cognition, control, and communication. Drawing on these advances the potential of biomimetics is revealed in devices that can harvest energy, grow or reproduce, and in animal-like robots that range from synthetic slime molds, to artificial fish, to humanoids. Biohybrid systems is a relatively new field, with exciting and largely unknown potential, but one that is likely to shape the future of humanity. This book surveys progress towards new kinds of biohybrid such as robots that merge electronic neurons with biological tissue, micro-scale machines made from living cells, prosthetic limbs with a sense of touch, and brain-machine interfaces that allow robotic devices to be controlled by human thought. The handbook concludes by exploring some of the impacts that living machine technologies could have on both society and the individual, exploring questions about how we will see and understand ourselves in a world in which the line between the natural and the artificial is increasingly blurred. With contributions from leading researchers from science, engineering, and the humanities, this handbook will be of broad interest to undergraduate and postgraduate students. Researchers in the areas of computational modeling and engineering, including artificial intelligence, machine learning, artificial life, biorobotics, neurorobotics, and human-machine interfaces will find Living Machines an invaluable resource.
Author: Sid M. Becker
Publisher: Academic Press
ISBN: 9780128045954
Category : Medical
Languages : en
Pages : 0
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Book Description
Modeling of Microscale Transport in Biological Processes provides a compendium of recent advances in theoretical and computational modeling of biotransport phenomena at the microscale. The simulation strategies presented range from molecular to continuum models and consider both numerical and exact solution method approaches to coupled systems of equations. The biological processes covered in this book include digestion, molecular transport, microbial swimming, cilia mediated flow, microscale heat transfer, micro-vascular flow, vesicle dynamics, transport through bio-films and bio-membranes, and microscale growth dynamics. The book is written for an advanced academic research audience in the fields of engineering (encompassing biomedical, chemical, biological, mechanical, and electrical), biology and mathematics. Although written for, and by, expert researchers, each chapter provides a strong introductory section to ensure accessibility to readers at all levels.
