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Köp båda 2 för 825 krFrom the reviews: "On May 18, 1980, Mount St. Helens in Washington state erupted violently . In 20 chapters written by 48 contributors, this book provides an overview of the ecological and geological setting before the 1980 eruption and the geophysical environment created afterward. A major contribution to disturbance ecology, this book belongs on every ecologists bookshelf. Summing Up: Highly recommended. Lower-level undergraduates through faculty/researchers." (R. L. Smith, CHOICE, November, 2005) "The eruption of Mt. St. Helens in 1980 was one of the most significant events of recent times. It allowed us to haven an almost unprecedented chance to examine ecological processes . This is a fascinating book. It provides one of the very few detailed accounts of change. It follows that for those interested in this study, this is a crucial text. Mt. St. Helens makes a superb case study: this text makes the work accessible for those outside the immediate research community." (TENews, August, 2005) "The eruption of the Mount St. Helens in May 1980 was the most spectacular eruption since that of Krakatau in 1880 . Due to the great progress in science, it was possible to organize immediately systematic and very complex research, results of which are comprehensively presented in the book published for 25th anniversary of the eruption. The book is relevant not only for ecological theory, but also for practical restoration of disturbed sties. Moreover, one can read the book as a thrilling story." (Karel Prach, Folia Geobotanica, Vol. 41 (4), 2006)
Virginia Dale is a Corporate Fellow in the Environmental Sciences Division at Oak Ridge National Laboratory. She is also an adjunct faculty member in the Department of Ecology and Evolutionary Biology at the University of Tennessee. Fred Swanson is a Research Geologist at the USDA Forest Service Pacific NW Research Station in Corvallis, OR. Charles Crisafulli is an Ecologist at the USDA Forest Service Pacific Northwest Research station in Olympia, WA.
Disturbance, Survival, and Succession: Understanding Ecological Responses to the 1980 Eruption of Mount St. Helens.- Geological and Ecological Settings of Mount St. Helens Before May 18, 1980.- Physical Events, Environments, and GeologicalEcological Interactions at Mount St. Helens: March 19802004.- Survival and Establishment of Plant Communities.- Plant Responses in Forests of the Tephra-Fall Zone.- Plant Succession on the Mount St. Helens Debris-Avalanche Deposit.- Geomorphic Change and Vegetation Development on the Muddy River Mudflow Deposit.- Proximity, Microsites, and Biotic Interactions During Early Succession.- Remote Sensing of Vegetation Responses During the First 20 Years Following the 1980 Eruption of Mount St. Helens: A Spatially and Temporally Stratified Analysis.- Survival and Establishment of Animal Communities.- Arthropods as Pioneers in the Regeneration of Life on the Pyroclastic-Flow Deposits of Mount St. Helens.- Posteruption Arthropod Succession on the Mount St. Helens Volcano: The Ground-Dwelling Beetle Fauna (Coleoptera).- Causes and Consequences of Herbivory on Prairie Lupine (Lupinus lepidus) in Early Primary Succession.- Responses of Fish to the 1980 Eruption of Mount St. Helens.- Amphibian Responses to the 1980 Eruption of Mount St. Helens.- Small-Mammal Survival and Colonization on the Mount St. Helens Volcano: 19802002.- Responses of Ecosystem Processes.- Mycorrhizae and Mount St. Helens:Story of a Symbiosis.- Patterns of Decomposition and Nutrient Cycling Across a Volcanic Disturbance Gradient: A Case Study Using Rodent Carcasses.- Lupine Effects on Soil Development and Function During Early Primary Succession at Mount St. Helens.- Response and Recovery of Lakes.- Lessons Learned.- Ecological Perspectives on Management of the MountSt. Helens Landscape.- Overview of Ecological Responses to the Eruption of Mount St. Helens: 19802005.