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Enrolling over 30 million acres, the U.S. Conservation Reserve Program (CRP) is the largest conservation program in the United States. Under the guidelines of the CRP, the federal government pays farmers to stop farming their land in the hopes of achieving a variety of conservation goals, including the reduction of soil erosion, improvement of water quality, and creation of wildlife habitat. In Conserving Data, James T. Hamilton explores the role of information in the policy cycle as it relates to the CRP. The author asks how the creation and distribution of information about what is going on across these millions of enrolled acres has influenced the development of the program itself. Of the many CRP stakeholders, each accesses a different set of information about the CRP‘s operations. Regulators have developed the Environmental Benefits Index as a rough indicator of a fields conservation benefits and adopted that measure as a way to determine which lands should be granted conservation contracts. NGOs have used publicly available data from these contracts to show how CRP monies are allocated. Members of Congress have used oversight hearings and GAO reports to monitor the Farm Service Agency‘s conservation policy decisions. Reporters have localized the impact of the CRP by writing stories about increases in wildlife and hunting on CRP fields in their areas. Conserving Data brings together and analyzes these various streams of information, drawing upon original interviews with regulators, new data from Freedom of Information Act requests, and regulatory filings. Using the CRP as a launch point, Hamilton explores the role of information, including 'hidden information,' in the design and implementation of regulatory policy.
Sea otters are good indicators of ocean health. In addition, they are a keystone species, offering a stabilizing effect on ecosystem, controlling sea urchin populations that would otherwise inflict damage to kelp forest ecosystems. The kelp forest ecosystem is crucial for marine organisms and contains coastal erosion. With the concerns about the imperiled status of sea otter populations in California, Aleutian Archipelago and coastal areas of Russia and Japan, the last several years have shown growth of interest culturally and politically in the status and preservation of sea otter populations. Sea Otter Conservation brings together the vast knowledge of well-respected leaders in the field, offering insight into the more than 100 years of conservation and research that have resulted in recovery from near extinction. This publication assesses the issues influencing prospects for continued conservation and recovery of the sea otter populations and provides insight into how to handle future global changes. - Covers scientific, cultural, economic and political components of sea otter conservation - Provides guidance on how to manage threats to the sea otter populations in the face of future global changes - Highlights the effects that interactions of coastal animals have with the marine ecosystem
Synonymized Checklist of the Vascular Flora of the United States, Canada, and Greenland
IUCN's Protected Areas Management Categories, which classify protected areas according to their management objectives, are today accepted as the benchmark for defining, recording, and classifying protected areas. They are recognized by international bodies such as the United Nations as well as many national governments. As a result, they are increasingly being incorporated into government legislation. These guidelines provide as much clarity as possible regarding the meaning and application of the Categories. They describe the definition of the Categories and discuss application in particular biomes and management approaches.
Systematic Conservation Planning provides a clear, comprehensive guide to the process of deriving a conservation area network for regions, which will best represent the biodiversity of regions in the most cost-effective way. The measurement of biodiversity, design of field sampling strategies, alongside different data treatment methods are detailed helping to provide a conceptual framework for identifying conservation area networks, underpinned by the concept of complementarity. Setting conservation targets and then multi-criteria analyses, using complementarity but bringing in other criteria reflecting competing uses of land or water, to show how conservation area networks can achieve conservation targets in ways that also allow for the production of food, fiber and shelter are also discussed. Providing a clear procedure for identifying conservation priority areas underpinned by cutting edge science, this book will be of interest to graduate students, academics, planners and decision makers dealing with natural resource use and exploitation, alongside conservation NGOs.