This volume addresses and challenges issues which question the core values of the science and practice of restoration ecology. It analyzes the paradox arising from the desire to produce ecological restorations that fit within an historical ecological context, produce positive environmental benefits and also result in landscapes with social meaning.
Ecological Restoration and Environmental Change presents an introduction to the practice of renewing and restoring degraded, damaged, or destroyed ecosystems and habitats in the environment. The book addresses and challenges key issues which question the core values of the science and practice of restoration ecology. The author explains that the process of restoration has always been defined by human choices and examines the development of restoration practice, to describe different models of restoration with respect to balancing ecological benefit and cultural value. He develops ways to balance more actively these differing areas of concern while planning restorations. This new edition has been fully revised and updated to reflect changes in the field and the new challenges posed to restoration ecology in the face of the rapid pace of climate change. With strong coverage of North and South American, Europe, and Australia, this new edition has been expanded to also address indigenous perspectives and restoration projects in Africa, the Pacific Islands, and Asia. It places special emphasis on the need for restorationists to appreciate and understand the intricacies of planning and managing restorations in novel ecosystems. Lastly, it provides a critique of the new restoration standards published by the Society for Ecological Restoration in 2019. This book is essential reading for students on restoration ecology and conservation courses, as well as professionals and practitioners working on restoration projects.
Cartilage plays diverse roles as a definitive supporting tissue in some organs, the basis of low friction surfaces in joints, and a transient morphogenetic template during embryogenesis and repair of the skeleton. The versatility of cartilage is derived from the remarkable material properties of its extracellular matrix, the wide spectrum of regulatory systems that influence the synthesis and degradation of the unique molecular constituents of this matrix, and the development and growth of the cells that produce it. This book touches on each of these areas and provides the first comprehensive reviews of the molecular biology of the genes specifying the collagenous and noncollagenous proteins of the cartilage matrix, as well as the biophysical-chemical properties of the matrix that suits it to the various functions it performs. Up-to-date critical reviews of the mineralization and degradation of cartilage matrix, the roles of polypeptide growth and inducing factors, of ions, in the regulation of cartilage growth and development, and the unique requirements of the energy metabolism of cartilage as a nonvascular tissue, make this volume a useful source for concepts and results for the multiple disciplines that play a part in modern cartilage research.
Reporting on the latest advances made in treating multiple sclerosis (MS) and continuing the high standards set by earlier editions, the Handbook of Multiple Sclerosis, Third Edition examines a wide range of topics from etiology to treatment options. Analyzes recent developments in the natural history, immunopathology, lesion evolution, and
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