Foundations of Wildlife Diseases is a comprehensive overview of the basic principles that govern the study of wildlife diseases. The authors integrate theoretical foundations with a thorough examination of the factors that can affect the health and fitness of animals. They include specific information on a wide array of infectious agents such as bacteria, viruses, arthropods, fungi, protista, and helminths, as well as immunity to these agents. Also provided is a foundation for the study of noninfectious diseases, cancers, and prion diseases that affect wildlife. Supporting students, faculty, and researchers in areas related to wildlife management, biology, and veterinary sciences, this volume fills an important gap in wildlife disease resources, focusing on mammalian and avian wildlife while also considering reptiles and amphibians. Foundations of Wildlife Diseases provides students with a structure for thinking about and understanding infective agents and their interactions with wildlife. Each chapter includes an outline, select definitions and concepts, an overview and summary, and literature cited.
The new edition meets the needs of today's ecologically- and environmentally-oriented students, emphasizing the ecological aspects of forest soils. * Includes elements from Dr. Binkley's 1986 Wiley book, Forest Nutrition Management. * Reflects the change in emphasis from production forestry to ecology and environmental concerns. * Unites two strong publishing areas--forestry and soil science.
Originally published in 1984. This major text covers the whole discipline of geomorphology, presenting a clear and comprehensive overview of the field, drawing on the full range of modern research. Landforms and their formative processes are treated on a broad spectrum of spatial scales, and examples are drawn from the major geological, climatic and biotic environments. The book is divided conveniently into some 170 clearly defined sections to allow readers to make the most efficient use of those parts of the text relevant to their particular needs. After introducing the basic concepts such as systems analysis, morphologic and cascading systems, the historical-evolutionary approach and process-response geomorphology, the book moves on to the geological background to geomorphology and then the extensive third part deals with the geomorphic processes and responding landforms. Part four examines climatic geomorphology and the appendix touches on applied geomorphology, especially fluvial processes.
Failure to comply with state licensing laws could derail a construction, engineering or architecture project and even put licenses and payments in jeopardy. Don't take the risk. Turn To The resource that provides comprehensive guidance on the architecture, engineering and contractor license laws for all 50 states And The District of Columbia. State by State Guide to Architect, Engineer and Contractor Licensing gathers all of the vital information you need in one convenient source to help you develop a cost-effective compliance strategy. With State-by-State Guide to Architect, Engineer, and Contractor Licensing, practitioners will be prepared to handle virtually any state licensing question including Is a license required For The design or construction work that is going to be performed Is a license required before the bid or proposal is submitted? What are the special licensing requirements for partnerships? for corporations? Is a seal for stamping drawings required of design professionals? If so, which design documents must be stamped? Is a license necessary when bidding for work? Who in the organization must stamp these documents? What are the penalties if the license is not received on time? If an agent is managing the construction for an owner, must he obtain a license?
A central goal of transportation is the delivery of safe and efficient services with minimal environmental impact. In practice, though, human mobility has flourished while nature has suffered. Awareness of the environmental impacts of roads is increasing, yet information remains scarce for those interested in studying, understanding, or minimizing the ecological effects of roads and vehicles. Road Ecology addresses that shortcoming by elevating previously localized and fragmented knowledge into a broad and inclusive framework for understanding and developing solutions. The book brings together fourteen leading ecologists and transportation experts to articulate state-of-the-science road ecology principles, and presents specific examples that demonstrate the application of those principles. Diverse theories, concepts, and models in the new field of road ecology are integrated to establish a coherent framework for transportation policy, planning, and projects. Topics examined include: foundations of road ecology roads, vehicles, and transportation planning vegetation and roadsides wildlife populations and mitigation water, sediment, and chemical flows aquatic ecosystems wind, noise, and atmospheric effects road networks and landscape fragmentation Road Ecology links ecological theories and concepts with transportation planning, engineering, and travel behavior. With more than 100 illustrations and examples from around the world, it is an indispensable and pioneering work for anyone involved with transportation, including practitioners and planners in state and province transportation departments, federal agencies, and nongovernmental organizations. The book also opens up an important new research frontier for ecologists.
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