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| Author | : Andrew Huaien Lee |
| Publisher | : |
| Total Pages | : 458 |
| Release | : 2007 |
| Genre | : |
| ISBN | : |
| Author | : |
| Publisher | : |
| Total Pages | : 850 |
| Release | : 2008 |
| Genre | : Dissertations, Academic |
| ISBN | : |
| Author | : Anusuya Chinsamy-Turan |
| Publisher | : John Wiley & Sons |
| Total Pages | : 236 |
| Release | : 2005-07-15 |
| Genre | : Nature |
| ISBN | : 9780801881206 |
Drawing from sources across the field of bone histology, Chinsamy-Turan paints a holistic view of the current state of the science and presents a fresh perspective on the relevance of the field to understanding the Dinosauria.
| Author | : Vivian de Buffrénil |
| Publisher | : CRC Press |
| Total Pages | : 838 |
| Release | : 2021-06-24 |
| Genre | : Medical |
| ISBN | : 1351189581 |
Vertebrate Skeletal Histology and Paleohistology summarizes decades of research into the biology and biological meaning of hard tissues, in both living and extinct vertebrates. In addition to outlining anatomical diversity, it provides fundamental phylogenetic and evolutionary contexts for interpretation. An international team of leading authorities review the impact of ontogeny, mechanics, and environment in relation to bone and dental tissues. Synthesizing current advances in the biological problems of growth, metabolism, evolution, ecology, and behavior, this comprehensive and authoritative volume is built upon a foundation of concepts and technology generated over the past fifty years.
| Author | : Kevin Padian |
| Publisher | : Univ of California Press |
| Total Pages | : 298 |
| Release | : 2013-03-19 |
| Genre | : Science |
| ISBN | : 0520955110 |
The microscopic examination of fossilized bone tissue is a sophisticated and increasingly important analytical tool for understanding the life history of ancient organisms. This book provides an essential primer and manual for using fossil bone histology to investigate the biology of extinct tetrapods. Twelve experts summarize advances in the field over the past three decades, reviewing fundamental basics of bone microanatomy and physiology. Research specimen selection, thin-section preparation, and data analysis are addressed in detail. The authors also outline methods and issues in bone growth rate calculation and chronological age determination, as well as how to examine broader questions of behavior, ecology, and evolution by studying the microstructure of bone.
| Author | : Brian K. Hall |
| Publisher | : Academic Press |
| Total Pages | : 911 |
| Release | : 2014-12-23 |
| Genre | : Science |
| ISBN | : 0124166857 |
Bones and Cartilage provides the most in-depth review and synthesis assembled on the topic, across all vertebrates. It examines the function, development and evolution of bone and cartilage as tissues, organs and skeletal systems. It describes how bone and cartilage develop in embryos and are maintained in adults, how bone is repaired when we break a leg, or regenerates when a newt grows a new limb, or a lizard a new tail. The second edition of Bones and Cartilage includes the most recent knowledge of molecular, cellular, developmental and evolutionary processes, which are integrated to outline a unified discipline of developmental and evolutionary skeletal biology. Additionally, coverage includes how the molecular and cellular aspects of bones and cartilage differ in different skeletal systems and across species, along with the latest studies and hypotheses of relationships between skeletal cells and the most recent information on coupling between osteocytes and osteoclasts All chapters have been revised and updated to include the latest research. Offers complete coverage of every aspect of bone and cartilage, with updated references and extensive illustrations Integrates development and evolution of the skeleton, as well a synthesis of differentiation, growth and patterning Treats all levels from molecular to clinical, embryos to evolution, and covers all vertebrates as well as invertebrate cartilages Includes new chapters on evolutionary skeletal biology that highlight normal variation and variability, and variation outside the norm (neomorphs, atavisms) Updates hypotheses on the origination of cartilage using new phylogenetic, cellular and genetic data Covers stem cells in embryos and adults, including mesenchymal stem cells and their use in genetic engineering of cartilage, and the concept of the stem cell niche
| Author | : Eric J. Sargis |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 453 |
| Release | : 2008-05-21 |
| Genre | : Science |
| ISBN | : 1402069979 |
This book celebrates the contributions of Dr. Frederick S. Szalay to the field of Mammalian Evolutionary Morphology. Professor Szalay is a strong advocate for biologically and evolutionarily meaningful character analysis. He has published about 200 articles, six monographs, and six books on this subject. This book features subjects such as the evolution and adaptation of mammals and provides up-to-date articles on the evolutionary morphology of a wide range of mammalian groups.
| Author | : John D. Currey |
| Publisher | : Princeton University Press |
| Total Pages | : 453 |
| Release | : 2013-10-31 |
| Genre | : Science |
| ISBN | : 1400849500 |
This is a comprehensive and accessible overview of what is known about the structure and mechanics of bone, bones, and teeth. In it, John Currey incorporates critical new concepts and findings from the two decades of research since the publication of his highly regarded The Mechanical Adaptations of Bones. Crucially, Currey shows how bone structure and bone's mechanical properties are intimately bound up with each other and how the mechanical properties of the material interact with the structure of whole bones to produce an adapted structure. For bone tissue, the book discusses stiffness, strength, viscoelasticity, fatigue, and fracture mechanics properties. For whole bones, subjects dealt with include buckling, the optimum hollowness of long bones, impact fracture, and properties of cancellous bone. The effects of mineralization on stiffness and toughness and the role of microcracking in the fracture process receive particular attention. As a zoologist, Currey views bone and bones as solutions to the design problems that vertebrates have faced during their evolution and throughout the book considers what bones have been adapted to do. He covers the full range of bones and bony tissues, as well as dentin and enamel, and uses both human and non-human examples. Copiously illustrated, engagingly written, and assuming little in the way of prior knowledge or mathematical background, Bones is both an ideal introduction to the field and also a reference sure to be frequently consulted by practicing researchers.
| Author | : Sarah Anne Werning |
| Publisher | : |
| Total Pages | : 453 |
| Release | : 2013 |
| Genre | : |
| ISBN | : |
Histological studies have established relationships between the microstructural features of bone, the growth rates of primary cortical bone, and whole-body growth rates of the animal. For animals of a given body size, the density and connectivity of vascular canals and the disorganization of collagen fibers increase with the rate of bone deposition, and osteocyte density is positively correlated with metabolic rate. I first review and refine several methods to improve the quantification of growth-related patterns in fossil bone tissue, focusing on specific microstructural characters known to correlate with growth and metabolic rates in living tetrapods. The most critical histological indicator of growth, the rate of bone deposition, is rarely reported in fossil studies. However, zonal area and average zonal width directly measure annual deposition, and can be used to bracket daily deposition rates. Estimating bone tissue growth based on vascularization pattern ("Amprino's Rule") likely confounds three separate vascular signals: density, connectivity, and orientation/patterning. I discuss ways to measure these separately, using qualitative and quantitative means. Collagen fiber orientation, a sensitive indicator of bone deposition rate that may resolve seasonal shifts, is sometimes obscured in fossils by diagenetic alteration. Patterns of osteocyte organization and orientation, more than cell shape, are highly associated with fiber orientation and may be more appropriate proxies. Osteocyte and canal density, not typically reported in paleohistological studies, are easily measured using digital boxplots along radial transects through the cortex. These measures suggest the possibility of more useful quantification of osteohistological indicators as proxies for growth and metabolic rates in extinct and extant vertebrates. I next investigate the origins of avian growth rates. Birds grow much faster than other extant reptiles, a trait that is reflected in the appearance of their bone microstructure. However, some of these traits are shared by their dinosaurian ancestors, and it is not known when this condition first evolved. I expand the histological database of archosaurs and their ancestors to include early archosauromorphs, pseudosuchians, and dinosauromorphs. By sampling through deep time and in taxa whose character states are not represented among living animals, I show that the avian histological features associated with faster growth and higher metabolic rates evolved not among birds or dinosaurs, but earlier than the common ancestor of birds and crocodylians. Most of these character changes accumulated in a short segment of the archosauriform tree before the end of the Triassic. Finally, I examine histological patterns of growth in marsupial mammals. Among extant mammals, the bone tissue of placentals has been fairly well characterized, and is known to vary with size and ecology. Comparative data on marsupials, however, are lacking. I sampled the mid-diaphyseal femora of more than 50 extant and extinct marsupial species, as well as some afrotherian, xenarthran, and laurasiatherian placentals. My marsupial sample encompasses all extant orders, spans a 10 g-2500 kg size range, and comprises mainly wild-caught animals. The main factors influencing marsupial bone microstructure are life history and body size. The histological differences resulting from body size are subtle, occur gradually, and hold across six of the seven extant orders. The uniformity of marsupial bone histology reflects uniformity of their life history, especially related to the ontogeny of growth rates. Across all body sizes, marsupials share a common ontogeny: they are extremely altricial, experience their time of fastest growth at or just prior to weaning, and then continue to grow at lower rates for an extended period relative to their lifespan. Among placental mammals, histological variability likely reflects greater diversity in the ontogeny of growth rates. It is likely that sampling biases have obscured both size and phylogenetic signals in the distribution of mammalian bone growth patterns. By incorporating natural history and life history, the fossil record and the modern record, the study of bone microstructure can facilitate a much richer understanding of growth at the organismal level, and the evolution of growth strategies at higher levels.
| Author | : |
| Publisher | : |
| Total Pages | : 656 |
| Release | : 2007 |
| Genre | : Zoology |
| ISBN | : |
