For senior undergraduate courses and first year graduate courses in Project Management found in engineering and business departments. Centering on theory and practice, this text presents tools and techniques most suited for modern project management. The authors show the relationship between project planning and implementation, from budgeting to scheduling and control. Intended for undergraduate and graduate students in engineering or business, this text is also a thorough reference for practitioners, managers, engineers and technology experts.

Evolution is the single unifying principle of biology and core to everything in the life sciences. More than a century of work by scientists from across the biological spectrum has produced a detailed history of life across the phyla and explained the mechanisms by which new species form. This textbook covers both this history and the mechanisms of speciation; it also aims to provide students with the background needed to read the research literature on evolution. Students will therefore learn about cladistics, molecular phylogenies, the molecular-genetical basis of evolutionary change including the important role of protein networks, symbionts and holobionts, together with the core principles of developmental biology. The book also includes introductory appendices that provide background knowledge on, for example, the diversity of life today, fossils, the geology of Earth and the history of evolutionary thought. Key Features Summarizes the origins of life and the evolution of the eukaryotic cell and of Urbilateria, the last common ancestor of invertebrates and vertebrates. Reviews the history of life across the phyla based on the fossil record and computational phylogenetics. Explains evo-devo and the generation of anatomical novelties. Illustrates the roles of small populations, genetic drift, mutation and selection in speciation. Documents human evolution using the fossil record and evidence of dispersal across the world leading to the emergence of modern humans.

Evolution is the single unifying principle of biology and core to everything in the life sciences. More than a century of work by scientists from across the biological spectrum has produced a detailed history of life across the phyla and explained the mechanisms by which new species form. This textbook covers both this history and the mechanisms of speciation; it also aims to provide students with the background needed to read the research literature on evolution. Students will therefore learn about cladistics, molecular phylogenies, the molecular-genetical basis of evolutionary change including the important role of protein networks, symbionts and holobionts, together with the core principles of developmental biology. The book also includes introductory appendices that provide background knowledge on, for example, the diversity of life today, fossils, the geology of Earth and the history of evolutionary thought. Key Features Summarizes the origins of life and the evolution of the eukaryotic cell and of Urbilateria, the last common ancestor of invertebrates and vertebrates. Reviews the history of life across the phyla based on the fossil record and computational phylogenetics. Explains evo-devo and the generation of anatomical novelties. Illustrates the roles of small populations, genetic drift, mutation and selection in speciation. Documents human evolution using the fossil record and evidence of dispersal across the world leading to the emergence of modern humans.

Morphogenesis, the set of processes that generate shape and form in the embryo, remains a central area in developmental biology. This book, first published in 1990, provides an overview of the events and mechanisms of morphogenesis, reviewing the major molecular and cellular mechanisms underlying morphogenetic change and describing how these processes are integrated during normal development. Most of the major embryological systems, both vertebrate and invertebrate, are discussed, with extensive coverage of the molecular mechanisms of morphogenesis involving the extracellular matrix, the membrane and the cytoskeleton. The major focus of the book, however, is on those properties of mesenchymal and epithelial cells responsible for organogenesis, while the extensive reference cover of the historical and contemporary literature (more than 500 titles) provides a useful research tool in this very wide field. This book is aimed at both scholars in the field of embryology, and postgraduate and final-year students in development and anatomy.

This timely account provides a comprehensive contemporary analysis of morphogenetic processes in vertebrate and invertebrate embryos. Morphogenesis, the generation of tissue organization in embryos, is an increasingly important subject. This is partly because the techniques for investigating many morphogenetic mechanisms have only recently become available and partly because studying the genomic basis of embryogenesis requires an understanding of the developmental phenotype. Following an introduction covering case studies and historical and technical approaches, the book reviews the mechanistic roles of extracellular matrices, cell membranes and the cytoskeleton in morphogenesis. A detailed discussion of how mesenchymal and epithelial cells cooperate to build a wide range of tissues is also included. The book concludes with a dynamical analysis of the subject. With its extensive literature review (more than 500 titles), this book will interest developmental biologists and will also serve as an advanced textbook for postgraduate and final year students.

Kaufman's Atlas of Mouse Development: With Coronal Sections continues the stellar reputation of the original Atlas by providing updated, in-depth anatomical content and morphological views of organ systems.The publication offers written descriptions of the developmental origins of the organ systems alongside high-resolution images for needed visualization of developmental processes. Matt Kaufman himself has annotated the coronal images in the same clear, meticulous style of the original Atlas. Kaufman's Atlas of Mouse Development: With Coronal Sections follows the original Atlas as a continuation of the standard in the field for developmental biologists and researchers across biological and biomedical sciences studying mouse development.

Principles of Evolution covers all aspects of the subject. Following an introductory section that provides necessary background, it has chapters on the evidence for evolution that cover the fossil record, DNA-sequence homologies, and protein homologies (evo-devo). It also includes a full history of life from the first universal common ancestor, through the rise of the eukaryote and on to the major groups of phyla. This section is followed by one on the mechanism of evolution with chapters on variation, selection and speciation. The main part of the book ends with a chapter on human evolution and this is followed by appendices that expand on the making of fossils, the history of the subject and creationism. What marks this book as different from others on evolution is its systems-biology perspective. This new area focuses on the role of protein networks and on multi-level complexity, and is used in three contexts. First, most biological activity is driven by such networks and this has direct implications for understanding evo-devo and for seeing how variation is initiated, mainly during embryogenesis. Second, it provides the natural language for discussing phylogenetics. Third, evolutionary change involves events at levels ranging from the genome to the ecosystem and systems biology provides a context for integrating material of this complexity. The book assumes a basic grounding in biology but little mathematics as the difficult subject of evolutionary population genetics is mainly covered qualitatively, with major results being discussed and used rather than derived. Principles of Evolution will be an interesting and thought-provoking text for undergraduates and graduates across the biological sciences.