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    National fish, wildlife and plants climate adaptation strategy

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    The purpose of the National Fish, Wildlife and Plants Climate Adaptation Strategy is to inspire and enable natural resource administrators, elected officials, and other decision makers to take action to adapt to a changing climate. Adaptation actions are vital to sustaining the nation’s ecosystems and natural resources— as well as the human uses and values that the natural world provides.http://www.wildlifeadaptationstrategy.gov/pdf/NFWPCAS-Final.pdfNational Fish, Wildlife and Plants Climate Adaptation Strategy Recommended citationNational Fish, Wildlife and Plants Climate Adaptation Partnership. 2012. National Fish, Wildlife and Plants Climate Adaptation Strategy.Association of Fish and Wildlife Agencies, Council on Environmental Quality, Great Lakes Indian Fish and Wildlife Commission, National Oceanic and Atmospheric Administration, and U.S. Fish and Wildlife Service. Washington, DC. Cover credits: Children in woods, Steve Hillebrand. Horse-eye jacks, National Oceanic and Atmospheric Administration. Painted Hills, Jane Pellicciotto. Pelican, George Andrejko/ Arizona Game and Fish Department. Design and layout: Jane Pellicciotto/ Allegro DesignThis publication is printed on FSC-certified paper in the United States. ISBN: 978-1-938956-00-3 DOI : 10.3996/082012-FWSReport-1 wildlifeadaptationstrategy.gov about this report This report was produced by an inter- governmental working group of federal, state, and tribal agency representatives at the request of the U.S. Government. Therefore, the report is in the public domain. Some materials used in the report are copyrighted and permission was granted to the U.S. Government for their publication in this report. For subsequent uses that include such copyrighted materials, permission for reproduction must be sought from the copyright holder. In all cases, credit must be given for copyrighted materials. For more information, contact:Mark Shaff er U.S. Fish and Wildlife Service [email protected] 703-358-2603 Roger Griff is National Oceanic and Atmospheric Administration [email protected] 301-427-8134 ARPITA ITA CHOUDHURY Association of Fish and Wildlife Agencies [email protected] 202-624-5853 DI SCLAIME R This Strategy is not a final agency action subject to judicial review, nor is it considered a rule. Nothing in this report is meant to affect the substantive or legal rights of third parties or bind government agencies. Photo cr editscover: Children in woods , Steve Hill ebr and. Horse-eye jac ks, National Oc eanic and Atmosph eric Administration. Painted Hills, Jane Pell icc iotto. Pelican , Georg e Andrejko/Ar izona Game and Fish Department acknowl edgement This Strategy was produced by an intergovernmental working group of federal, state and tribal agency professionals whose expertise, knowledge and dedication brought the report to completion (see Appendix E). The Strategy would not have been possible without the research, monitoring and assessment activities of the nation’s scientific community on natural resource conservation in a changing climate. The Strategy also benefited greatly from input from a variety of non-governmental organizations and the public.National Fish, Wildlife and Plants Climate Adaptation Strategy authors National Fish, Wildlife, and Plants Climate Adaptation Partnershipii | National Fish, Wildlife & Plants Climate Adaptation Strategy Inside Preface 1 Executive Summary 2 CH.1 About the 7 Strategy 1.1 A Broad National Effort 7 1.2 Origins and Development 8 1.3 The Case for Action 9 1.3.1 The Climate is Changing 9 1.3.2 Impacts to Fish, Wildlife, 11 and Plants 1.3.3 Ecosystem Services 12 1.3.4 Adaptation to Climate Change 14 1.4 Purpose, Vision, and 17 Guiding Principles 1.5 Risk and Uncertainty 18 CH.2 Impacts of 19 Climate Change & Ocean Acidification 2.1 GHG-induced Changes 19 to the Climate and Ocean 2.2 Existing Stressors on Fish, 21 Wildlife, and Plants 2.3 Climate Change Impacts 25 on Fish, Wildlife, and Plants 2.3.1 Forest Ecosystems 31 2.3.2 Shrubland Ecosystems 33 2.3.3 Grassland Ecosystems 33 2.3.4 Desert Ecosystems 34 2.3.5 Arctic Tundra Ecosystems 36 2.3.6 Inland Water Ecosystems 39 2.3.7 Coastal Ecosystems 42 2.3.8 Marine Ecosystems 47 2.4 Impacts on Ecosystem 51 ServicesThe purpose of the National Fish, Wildlife and Plants Climate Adaptation Strategy is to inspire and enable natural resource administrators, elected officials, and other decision makers to take action to adapt to a changing climate. Adaptation actions are vital to sustaining the nation’s ecosystems and natural resources — as well as the human uses and values that the natural world provides.g a ryry w i s e g a ryry w i s e noaa Paul S u nd b e rgInside the Strategy | iii Resources 93 Literature Cited 93 Appendix A: 103 Supporting MaterialsEcosystem-Specific Background Papers 103 Related Resources, Reports, and 103 Materials Appendix B: Glossary 105 Appendix C: Acronyms 108 Appendix D: Scientific Names 109 Appendix E: Team Members 110 CH.3 Climate 53 Adaptation Goals, Strategies & Actions GOAL 1: Conserve habitat to support 55 healthy fish, wildlife, and plant populations and ecosystem functions in a changing climate. GOAL 2: Manage species and habitats 60 to protect ecosystem functions and provide sustainable cultural, subsistence, recreational, and commercial use in a changing climate. GOAL 3: Enhance capacity for effective 63 management in a changing climate. GOAL 4: Support adaptive 67 management in a changing climate through integrated observation and monitoring and use of decision support tools. GOAL 5: Increase knowledge and 71 information on impacts and responses of fish, wildlife, and plants to a changing climate. GOAL 6: Increase awareness and 74 motivate action to safeguard fish, wildlife, and plants in a changing climate. GOAL 7: Reduce non-climate stressors 76 to help fish, wildlife, plants, and ecosystems adapt to a changing climate. CH.4 Opportunities 79 for Multiple Sectors 4.1 Agriculture 81 4.2 Energy 83 4.3 Housing and Urbanization 84 4.4 Transportation and 86 Infrastructure 4.5 Water Resources 86 CH.5 Integration & 88 Implementation 5.1 Strategy Integration 88 5.2 Strategy Implementation 90 usfws USFWS/Jo shu a Win e usfws ni gh t s k y : O k l a h oma D e p a r tment o f Wi l d l i f e Con s e r vation6 | National Fish, Wildlife & Plants Climate Adaptation Strategy Our climate is changing, and these changes are already impacting the nation’svaluable natural resources and the people, communities, and economies that depend on them. PrefacePreface | 1 that can be taken, or at least initiated, over the next !ve to ten years in the context of the changes to our climate that are already occurring, and those that are projected by the end of the century. It is designed to be a key part of the nation’s larger response to a changing climate, and to guide responsible actions by natural resource managers, conservation partners, and other decision makers at all levels. "e Strategy was produced by federal, state, and tribal representatives and has been coordinated with a variety of other climate change adaptation e#orts at national, state, and tribal levels. The overarching goal of the Strategy is a simple one: to inspire, enable, and increase meaningful action that helps safeguard the nation’s natural resources in a changing climate. "e overarching goal of the Strategy is a simple one: to inspire, enable, and increase meaningful action that helps safeguard the nation’s natural resources in a changing climate. Admittedly, the task ahead is a daunting one, especially if the world fails to make serious e#orts to reduce emissions of GHGs. But we can make a di#erence. To do that, we must begin now to prepare for a future unlike the recent past. The observed changes in climate have been attributed to the increasing levels of carbon dioxide (CO2) and other greenhouse gases (GHGs) in the atmo-sphere, which have set in motion a series of changes in the planet’s climate system. Far greater changes are inevitable not only because emissions will continue, but also because CO2 stays in the atmosphere for a long time. Even if further GHG emissions were halted today, alterations already underway in the Earth’s climate will last for hundreds or thousands of years. If GHG emissions continue, as is currently more likely, the planet’s average temperature is projected to rise by 2.0 to 11.5 degrees Fahrenheit by the end of the century, with accompanying major changes in extreme weather events, variable and/or inconsistent weather patterns, sea level rise, and changing ocean conditions including increased acidi!cation. Safeguarding our valuable living resources in a changing climate for current and future generations is a serious and urgent problem. Addressing the problem requires action now to understand current impacts, assess future risks, and prepare for and adapt to a changing climate. "is National Fish, Wildlife and Plants Climate Adaptation Strategy (herea$er Strategy) is a call to action–a framework for e#ective steps These impacts are expected to increase with continued changes in the planet’s climate system, putting many of the nation’s valuable natural resources at risk. Action is needed now to reduce these impacts (including reducing the drivers of climate change) and help sustain the natural resources and services the nation depends on. Because the development of this adapta-tion Strategy will only be worthwhile if it leads to meaningful action, it is directly aimed at several key groups: natural resource management agency leaders and sta# (federal, state, and tribal); elected o%cials in both executive and legisla-tive government branches (federal, state, local, and tribal); leaders in industries that depend on and can impact natural resources, such as agriculture, forestry, and recreation; and private landowners, whose role is crucial because they own more than 70 percent of the land in the United States. "e Strategy should also be useful for decision makers in sectors that a#ect natural resources (such as agriculture, energy, urban development, transporta-tion, and water resource management), for conservation partners, for educators, and for the interested public, whose input and decisions will have major impacts on safeguarding the nation’s living resources in the face of climate change. "e Strategy also should be useful to those in other countries dealing with these same issues and those dealing with the international dimensions of climate adaptation. USFWS 2 | National Fish, Wildlife & Plants Climate Adaptation Strategy Executive Summary Fish, wildlife, and plants provide jobs, food, clean water, storm protection, health benefits and many other important ecosystem services that support people, communities and economies across the nation every day. The observed changes in the climate are already impacting these valuable resources and systems. These impacts are expected to increase with continued changes in the planet’s climate system. Action is needed now to help safeguard these natural resources and the communities and economies that depend on them. Measurements unequivocally show that average surface air tempera-tures in the United States have risen two degrees Fahrenheit (°F) over the last 50 years. The science strongly supports the finding that the underlying cause of these changes is the accumulation of heat-trapping carbon dioxide (CO2) and other greenhouse gases (GHG) in the atmosphere. If GHG emissions continue unabated, the planet’s average tempera-ture is projected to rise by an additional 2.0 to 11.5 °F by the end of the century, with accompanying increases in extreme weather events, variable and/or incon-sistent weather patterns, sea levels and other factors with significant impacts on natural environments and the vital services they provide. Faced with a future climate that will be unlike that of the recent past, the nation has the opportunity to act now to reduce the impacts of climate change on its valuable natural resources and resource-dependent communities and businesses. Preparing for and addressing these changes in the near term can help increase the efficiency and effectiveness of actions to reduce negative impacts and take advantage of potential benefits from a changing climate (climate adap-tation). In 2009, Congress recognized the need for a national government- “...develop a national, government-wide strategy to address climate impacts on fish, wildlife, plants, and associated ecological processes.” —Department of the Interior, Environment, and Related Ag encies Appr opr iations Ac t, 2010g a ryry w i s e Executive Summary | 3 and other decision makers to take effective steps towards climate change adaptation over the next five to ten years. Federal, state, and tribal governments and conservation partners are encour-aged to read the Strategy in its entirety to identify intersections between the document and their mission areas and activities. The Strategy is guided by nine principles. These principles include collaborating across all levels of government, working with non-government entities such as private landowners and other sectors like agriculture and energy, and engaging the public. It is also important to use the best available science—and to identify where science and management capabilities must be improved or enhanced. When adaptation steps are taken, it is crucial to carefully monitor actual outcomes in order to adjust future actions to make them more effective, an iterative process called adaptive management. We must also link efforts within the U.S. with wide climate adaptation strategy for fish, wildlife, plants, and ecosystems, asking the Council on Environmental Quality (CEQ) and the U.S. Department of the Interior (DOI) to develop such a strategy. CEQ and DOI responded by assembling an unprecedented partnership of federal, state, and tribal fish and wildlife conser-vation agencies to draft the document. More than 90 diverse technical, scientific, and management experts from across the country participated in drafting the technical content of the document. The result is The National Fish, Wildlife and Plants Climate Adaptation Strategy (hereafter Strategy). The Strategy is the first joint effort of three levels of govern-ment (federal, state, and tribal) that have primary authority and responsibility for the living resources of the United States to identify what must be done to help these resources become more resilient, adapt to, and survive a warming climate. It is designed to inspire and enable natural resource managers, legislators, efforts internationally to build resil-ience and adaptation for species that migrate and depend on areas beyond U.S. borders. Finally, given the size and urgency of the challenge, we must begin acting now. Climate Change Impacts on Natural Systems The Strategy details the current and expected future impacts of climate change on the eight major ecosystem types in the United States (Chapter 2). For example, warmer temperatures and changing precipitation patterns are expected to cause more fires and more pest outbreaks, such as the mountain pine beetle epidemic in western forests, while some types of forests will displace what is now tundra. Grasslands and shrublands are likely to be invaded by non-native species and suffer wetland losses from drier conditions, which would decrease nesting habitat for water-fowl. Deserts are expected to get hotter and drier, accelerating existing declines in species like the Saguaro cactus. Climate change is expected to be especially dramatic in the Arctic. Temperature increases in northern Alaska would change tussock tundra into shrublands, leading to increased fire risk. In addition, the thawing of frozen organic material in soils would release huge amounts of GHGs, contributing to climate change. In coastal and marine areas, the loss of sea ice and changing ocean conditions are threatening key species such as walrus, ice seals and polar bears as well as the lifestyles and subsis-tence economics of indigenous peoples. Global annual average temperature from 1901–2000, indicating a clear long-term global warming trend. Orange bars indicate temperatures above and blue bars indicate temperatures below the average. The black line shows atmospheric carbon dioxide (CO2) concentration in parts per million (ppm). 58.5°F 280 300 320 340 360 380 400 260 58.0°F 57.5°F 57.0°F 56.5°F CO2 CONCENTRATION (PPM) 1880 1900 1920 1940 1960 1980 2000 Global Temperature and Carbon Dioxidesource: us gcrp 2009. Global Climate Change Impacts in the United States. 4 | National Fish, Wildlife & Plants Climate Adaptation Strategy areas (including refugia and corridors of habitat that allow species to migrate), and areas where habitat restoration can promote resiliency and adaptation of species and ecosystem functions. In addition to traditional habitat restora-tion and protection efforts, this Strategy envisions innovative opportunities for creating additional habitat. For example, the U.S. Department of Agriculture (USDA) works with farmers and ranchers to cost-share conservation practices that benefit at-risk, threatened, or endan-gered species, such as the lesser prairie chicken. These efforts may be useful in responding to climate change as well as other existing conservation challenges. Similarly, adjusting rice farming practices in Louisiana could provide valuable new resources for a variety of waterfowl and shorebirds whose habitat is now disap-pearing because of wetland loss and sea level rise. It is also possible to use applied manage-ment to make habitats and species more resistant to climate change so they continue to provide sustainable cultural, subsistence, recreational, and commercial uses. For example, managing stream corridors to preserve functional processes and reconnect channels with well-vegetated floodplains may help to ensure a steady supply of ground-water recharge that maintains coldwater species even when air temperatures rise. Floodplains serve as vital hydrologic capacitors, and may become even more important in many parts of the country as more precipitation falls as rain instead of snow. Protecting and restoring stream habitats to maintain more narrow and deep stream beds and riparian shade cover can also help keep water tempera-tures cool in a warming climate. Climate Change Adaptation Strategies and Actions The Strategy describes steps that can be taken to address these impacts and help conserve ecosystems and make them more resilient (Chapter 3). Proposed strategies and actions along with check-lists to monitor progress are organized under seven major goals in the Strategy: 1 | Conserve and connect habitat 2 | Manage species and habitats 3 | Enhance management capacity 4 | Support adaptive management 5 | Increase knowledge and information 6 | Increase awareness and motivate action 7 | Reduce non-climate stressors Many proposed actions describe types of conservation activities that management agencies have traditionally undertaken but that will continue to be useful in a period of climate change. Other actions are designed specifically to respond to the new challenges posed by climate change. An extremely important approach for helping fish, wildlife, and plants adapt to climate change is conserving enough suitable habitat to sustain diverse and healthy populations. Many wildlife refuges and habitats could lose some of their original values, as the plants and animals they safeguard are forced to move into more hospitable climes. As a result, there is an urgent need to identify the best candidates for new conservation Rivers, streams, and lakes face higher temperatures that harm coldwater species like salmon and trout, while sea level rise threatens coastal marshes and beaches, which are crucial habitats for many species, such as the diamondback terrapin and the piping plover. Since water can absorb CO2 from the air, the rising levels of the gas in the atmo-sphere and accompanying absorption into the oceans have caused ocean waters to become 30 percent more acidic since 1750. Acidification is already affecting the reproduction of organisms such as oysters. As the pH of seawater continues to drop, major impacts on aquatic ecosys-tems and species are expected. Executive Summary Loss of arctic ice means loss of valuable habitat for many marine species. USFWS/Joel G arlich- M iller Executive Summary | 5 of ecosystem services provided by well- functioning ecosystems also are needed. For example, there may be fewer salmon for commercial and recreational harvest, as well as for traditional ceremonial and cultural practices of indigenous peoples. Adaptation efforts will be most successful if they have broad support and if key groups are motivated to take action themselves. Efforts to increase aware-ness and motivate action should be targeted toward elected officials, public and private decision makers, groups that are interested in learning more about climate change, private landowners, and natural resource user groups. Engaging these stakeholders early and repeatedly to increase awareness of climate change, to develop integrated adaptation responses, and to motivate their participation is key to making this Strategy work. Reducing existing stressors on fish, wild-life, and plants may be one of the most effective, and doable, ways to increase resilience to climate change. Many existing non-climate stressors may be exacerbated by climate change. In partic-ular, avoiding, reducing and addressing the ongoing habitat degradation (e.g., pollution, loss of open space) associ-ated with human development is critical and requires collaboration with land-use planners and private land owners. Taking steps to reduce stressors not related to climate, such as fig

    fish and fishery products microbiology bacteria causing fish spoilage

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    This material describe bacteria which causing spoilage in fish and seafood products

    2001 Accountability Report of the U. S. Fish and Wildlife Service

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    The report reviews the accountability of the U.S. Fish and Wildlife Service during 2001.Shared Commitments To Conservation 2001 Accountability Report of the U. S. Fish and Wildlife Service U.S. Fish & Wildlife Service Larry Aumiller/USFWS 2001 Accountability Report i Table of Contents I. The United States Fish and Wildlife Service Page History and Mission..............................................................................................................iii Organization of the Service ..................................................................................................iv Message from the Acting Director ......................................................................................vii II. Supplementary Stewardship Information Stewardship Lands ................................................................................................................1 Stewardship Lands and Facilities and Their Locations.........................................1 Uses of Stewardship Lands...................................................................................2 Revenue from Stewardship Assets .......................................................................3 Investments in Non-Federal Physical Property......................................................3 Net Change in Stewardship Land Acreage from 2000 to 2001 ............................5 Condition of Stewardship Lands ...........................................................................6 Heritage Assets .....................................................................................................................7 Condition of Heritage Asset Facilities...................................................................7 Cultural Resources.................................................................................................7 Museum Collections..............................................................................................8 Special Designations.............................................................................................8 III. Supplementary Information on Service Performance The Year at a Glance ...........................................................................................................13 Sustainability of Fish and Wildlife Populations ..................................................13 Habitat Conservation...........................................................................................16 Linking Wildlife and People.................................................................................19 Partnerships in Natural Resources .....................................................................20 Facilities Management ........................................................................................................20 Equipment Replacement and Repair ...................................................................22 Management Controls and Legal Compliance ....................................................................22 Service Performance Trends................................................................................................23 Expected Changes in the Work of the Service....................................................23 Improving Delivery of Services............................................................................23 IV. Service Financial Performance Message from the Chief Financial Officer...........................................................................25 Financial Highlights .............................................................................................................26 Reporting the Aquatic Resources Trust Fund on this Year s Financial Statements...........................................................................26 Environmental Cleanup Liabilities.......................................................................26 Service Financial Performance ............................................................................26 Improving Financial Transaction Processes and Results ....................................26 Improving Cost Recovery and Cost Allocation Practices.....................................27 Limitations of the Financial Statements..............................................................................29 Principal Financial Statements ............................................................................................30 Notes to the Principal Financial Statements.......................................................................35 Combining Statement of Budgetary Resources...................................................................49 Independent Auditors Report..............................................................................................50 ii U.S. Fish & Wildlife Service Dan O’Neal/USFWS 2001 Accountability Report iii History and Mission As an asset of tremendous environmental, recreational, and economic importance, this Nation’s fish and wildlife resources represent a vital part of our natural heritage - one that is facing increasing pressures every day. For this reason, the mission of the U.S. Fish and Wildlife Service (Service) grows more complex and critical every day. As the Service continues to look for new and better ways to conserve, protect, and enhance fish and wildlife and their habitat, its major responsibilities remain focused on migratory birds, endangered species, certain marine mammals, and freshwater and anadromous fish. History of the Service The Service’s origins date back to 1871 when Congress established the U.S. Fish Commission to study the decrease in the Nation’s food fish and recommend ways to reverse the decline. Placed under the Department of Commerce in 1903, it was renamed the Bureau of Fisheries. Meanwhile Congress created an Office of Economic Ornithology in the Department of Agriculture in 1885 to study the food habits and migratory patterns of birds, especially those that had an effect on agriculture. After several more name changes, this office was renamed the Bureau of Biological Survey in 1905. The Bureaus of Fisheries and Biological Survey were transferred to the Department of the Interior in 1939, and in 1940, were combined and named the Fish and Wildlife Service. Further reorganization came in 1956 when the Fish and Wildlife Act created the United States Fish and Wildlife Service and established within the agency two separate bureaus - Commercial Fisheries and Sport Fisheries and Wildlife. The Bureau of Commercial Fisheries was transferred to the Department of Commerce in 1970 and is now known as the National Marine Fisheries Service. The Bureau of Sport Fisheries and Wildlife remained in Interior. In 1974, the “Bureau” name was dropped and the agency is now simply called the U.S. Fish and Wildlife Service. In 1993, the Service’s research activities were transferred to the U.S. Geological Survey. Today, the Service employs approximately 7,900 personnel and is supported by a volunteer force of approximately 36,000 citizens. Although the Service is headquartered in Washington, D.C., over 80 percent of the workforce is located in local communities across the Nation at over 700 field stations and supported by seven regional offices. As a result of our community level of involvement, the majority of Service employees has routine contact with the public. Mission of the Service The Service’s mission is working with others to conserve, protect and enhance fish, wildlife, and plants and their habitats for the continuing benefit of the American people. Since before recorded history, fish and wildlife resources in North America have been an integral part of human life. We know that the earliest Americans depended on fish and wildlife for both life sustenance and spiritual nourishment. The kinship of aboriginal Americans to these resources is seen today in their religious and cultural activities. The sea turtle is viewed as the symbol of eternal life with the great creator. Salmon and other anadromous fishes were and still are celebrated as symbols of the renewal of life. Wildlife served as the spiritual connection with ones ancestors and the creator of all life. When settlers came to America, they found a land teeming with wildlife. Like Native Americans, they depended on the land’s rich wildlife heritage for food and clothing. Colonies were located near rivers for commerce and travel and for a rich supply of fish and wildlife for food. The new settlers fully intended that freedom to hunt for food and to secure water for life would be the right of all, regardless of heritage or status. The framers of our Constitution recognized this and placed great emphasis on natural rights and natural laws. Because of the American ideal to respect fish and wildlife as a resource available for the use and enjoyment of all, it is revered as a public trust resource - a resource deserving the public’s attention and participatory guidance. The United States continues to refine the body of case law and statutes governing the stewardship of fish and wildlife resources. Communities and people throughout the United States have a strong commitment to the fish and wildlife resources today. Many communities realize tremendous economic benefits from tourism and visitors that come specifically to enjoy watching and pursuing fish and wildlife. Hunting and fishing remain strong components of community culture all along the great river systems of the Nation. Americans value and respect their natural resource heritage. The U.S. Fish and Wildlife Service has the privilege of being the primary agency responsible for the protection, conservation, and renewal of these resources for this and future generations. We accept this responsibility and challenge with optimism and resolve to pass along to future generations of stewards a fish and wildlife resource heritage that is as strong or stronger than when it was entrusted to us. The United States Fish and Wildlife Service iv U.S. Fish & Wildlife Service As shown in the accompanying organization chart, the Directorate of the Service is comprised of the Director and Deputy Director, eight Assistant Directors, the Chief of the National Wildlife Refuge System, all located in Washington, D.C., and seven Regional Directors, located throughout the United States. Service headquarters is located in Washington, D.C. and Arlington, Virginia, with field units in Denver, Colorado, and Shepherdstown, West Virginia. Regional Offices are located throughout the United States. Region 1, located in Portland, Oregon, serves California, Hawaii, Idaho, Nevada, Oregon, and Washington, as well as the Trust Territories of the Pacific. Region 2, located in Albuquerque, New Mexico, serves Arizona, New Mexico, Oklahoma and Texas. Region 3, located in Minneapolis, Minnesota, serves Indiana, Illinois, Iowa, Michigan, Minnesota, Missouri, Ohio, and Wisconsin. Region 4, located in Atlanta, Georgia, serves Alabama, Arkansas, Florida, Georgia, Kentucky, Louisiana, Mississippi, North Carolina, South Carolina, and Tennessee, Organization of the Service as well as Puerto Rico and Virgin Islands. Region 5, located in Hadley, Massachusetts, serves Connecticut, Delaware, Maine, Massachusetts, Maryland, New Hampshire, New Jersey, New York, Pennsylvania, Rhode Island, Virginia, Vermont, and West Virginia, and the District of Columbia. Region 6, located in Denver, Colorado, serves Kansas, Montana, North Dakota, South Dakota, Nebraska, Colorado, Utah and Wyoming. Region 7, located in Anchorage, Alaska serves the entire state of Alaska. In the Department of the Interior, the Service’s Director reports to the Assistant Secretary for Fish and Wildlife and Parks and has direct line authority over Service headquarters and seven regional offices. Assistant Directors and the Chief of the National Wildlife Refuge System provide policy, program management and administrative support to the Director. Regional Directors guide policy and program implementation through their field structures and coordinate activities with Service partners. 2001 Accountability Report v United States Fish and Wildlife Service Organization Director Deputy Director(s) Chief, National Wildlife Refuge System Assistant Director Migratory Birds & State Programs Assistant Director Fisheries & Habitat Conservation Assistant Director Endangered Species Assistant Director International Affairs Assistant Director Law Enforcement Assistant Director External Affairs Assistant Director Budget, Planning and Human Resources Assistant Director Business Management & Operations Division of Management Authority Division of Law Enforcement Operations Division of Special Operations Division of Scientific Authority Division of Congressional & Legislative Affairs Division of Public Affairs Division of Personnel Division of Diversity & Civil Rights Division of Engineering Division of Contracting & General Services Division of Endangered Species Clark R. Bavin National Forensics Laboratory Division of International Conservation Native American Liaison National Conservation Training Center Division of Policy & Directives Management Division of Budget Division of Safety, Health, and Aviation Division of Economics Division of Finance Division of Information Resources Management Division of Fish & Wildlife Management Assistance & Habitat Restoration Division of Federal Program Activities Division of the National Fish Hatchery System Division of Environmental Quality Division of Migratory Bird Management Federal Duck Stamp Division Division of Bird Habitat Conservation Division of Realty Division of Visitor Services & Communication Division of Conservation, Planning & Policy Regional Director Region 6 Denver, CO Regional Director Region 7 Anchorage, AK Regional Director Region 5 Hadley, MA Regional Director Region 4 Atlanta, GA Regional Director Region 3 Minneapolis, MN Regional Director Region 2 Albuquerque, NM Regional Director Region 1 Portland, OR Division of Federal Aid Conservation Partnerships Liaison Divison Division of Natural Resources Division of Policy & Directives Management vi U.S. Fish & Wildlife Service Richard Forbes/USFWS 2001 Accountability Report vii I am pleased to present the U.S. Fish and Wildlife Service’s 2001 Accountability Report. This report highlights our accomplishments for Fiscal Year 2001, both in financial and non-financial terms, to give you a better understanding of what we do, how we do it, and how we manage resources to conserve fish, wildlife, and plants and their habitats for the benefit of this and future generations. We are primarily a scientific organization, composed of fisheries and wildlife biologists, wildlife law enforcement officers, botanists, ecologists, and outdoor recreation interpretation specialists and planners. The challenge for these professionals is not simply controlling the numbers of waterfowl harvested or fish caught. Service employees work with our partners – private citizens, local communities, State and Federal agencies, Native American Tribes, foreign governments and others – to promote a coordinated domestic and international strategy to protect, restore and enhance the world’s diverse wildlife. This report shows how the Service faces complex biodiversity and biological sustainability issues and implements the directives of Congress and the American people in our shared commitment to conservation. It is through these efforts that present and future generations can experience nature as it is, rather than through museum exhibitions of nature as it was. We hope you will find this report both enlightening and informative. Marshall P. Jones, Jr. Acting Director U.S. Fish & Wildlife Service Message from the Acting Director viii U.S. Fish & Wildlife Service Pam Thiel/USFWS 2001 Accountability Report 1 Stewardship Information Supplementary By law and treaty, the Service has national and international management and law enforcement responsibilities for migratory birds, threatened and endangered species, fisheries and many marine mammals. Also, the Service assists State and Tribal governments and other Federal agencies in protecting America’s fish and wildlife resources. Further, the Service manages more than 95 million acres in the National Wildlife Refuge System (NWRS) and the National Fish Hatchery System (NFHS). These lands and the fish and wildlife resources they support are valued for their environmental and cultural resources, educational and scientific benefits, recreational and scenic values, and the revenue they provide to the Federal Government, States, and counties. Stewardship Lands Stewardship Lands and Facilities and Their Locations The Service manages land in all 50 States, some of the Pacific Islands, the U.S. Virgin Islands, Guam, and Puerto Rico. More than 80 percent of the acreage of the Service’s land holdings are in Alaska. Lands within the NWRS include more than 537 refuge units, 202 Waterfowl Production Area Counties, and 50 Coordination Areas. Lands and facilities within the NFHS comprise 70 National Fish Hatcheries, seven Fish Technology Centers, nine Fish Health Centers, and one Historical National Fish Hatchery, located in 34 States. This represents a change from FY 2000 by counting Dexter (NM), Mora (NM), San Marcos (TX), Bears Bluff (SC), and Lamar (PA) National Fish Hatcheries as separate units rather than as complexes with other facilities. Also, Berkshire NFH, Massachusetts, was not counted as it is no longer operated by the Service. Figure 1 displays the acreage owned by the Service. Lands are acquired through a variety of methods, including withdrawal from the public domain, fee title purchase, transfer of jurisdiction, donation, or gift. Figure 2 shows the percentage of stewardship lands acquired through these different methods. Lands are purchased through two primary sources of funding, the Migratory Bird Conservation Fund and the Land and Water Conservation Fund. Annual Stewardship Information for the Years Ended September 30, 2001 and 2000 (Acres in Thousands) 2001 2000 Sites Acres Sites Acres National Wildlife Refuge System: National Wildlife Refuges 537 89,146 530 87,790 Coordination Areas 50 197 50 197 Waterfowl Production Areas 202 728 201 725 Total NWRS 789 90,071 781 88,712 Total NFHS 87 12 83 12 Total FWS Lands 876 90,083 864 88,724 Figure 1 2 U.S. Fish & Wildlife Service Uses of Stewardship Lands Lands managed within the NWRS are used to conserve and manage fish, wildlife and plant resources for the benefit of present and future generations. The protected habitat is as diverse as the wild things living there. Service stewardship lands protect tundra, grasslands, deserts, forests, rivers, marshes, swamps, and remote islands - virtually every type of habitat and landscape found in the United States. to fish, or to study and learn about wildlife and their needs. Stewardship of the Nation’s fishery and aquatic resources, through the NFHS, has been a core responsibility of the Service for more than 120 years. Although the Service does not own all the lands and facilities in the NFHS, the Service participates in managing units within the NFHS, which comprises National Fish Hatcheries, Fish Health Centers, and Fish Technology Centers. Stewardship of the Nation’s fishery and aquatic resources, through the NFHS, has been a core responsibility of the Service for over 120 years. Large mouth bass fishing USFWS Photo Figure 2 Methods and P ercentage of S tewards hip L ands Acquired Withdrawn from Public Domain 90.3% FWS Purchased 5.2% Non-Federal Donations 0.8% Federal Transfers 3.7% The fish, wildlife and plants that live on refuges are the heritage of a wild America that was, and continues today in the NWRS. The refuge system watches over more than 700 species of birds, 220 species of mammals, 250 reptile and amphibian species, more than 200 species of fish, at least 260 threatened and endangered species, and countless species of invertebrates and plants. They come as flocks, herds, coveys, gaggles, schools, pairs and loners. The Service protects, restores, and manages our fish, wildlife, plant, land, and water heritage. We count it, study it, band it, mark it, and reintroduce it and we let wildlife reproduce naturally by managing its home and its habitat. On many refuges the Service must restore what was ditched, drained and cleared and actively manage wetlands, grasslands, forests, and to a lesser extent, croplands to provide the variety of habitat needed by diverse fish and wildlife species. Control of invasive and exotic pest plants and animals is essential to retain or restore native fish, wildlife, and plants. More than three million acres of NWRS lands are restored and enhanced each year. While the needs of fish and wildlife must come first, refuges welcome those who want to enjoy the natural world, to observe or photograph wildlife, to hunt or Many of our hatcheries serve as outdoor laboratories for school groups, environmental organizations, and universities. Visitor centers on hatcheries provide public educational opportunities for approximately three million visitors each year. Fish Health Centers focus on cooperative work conducted by Federal, State and Tribal fishery managers to identify and control fish pathogens and diseases, particularly in wild stocks. Fish Technology Centers emphasize scientific management of fish stocks and aquatic communities by improving technologies in fish propagation, broodstock management, stock assessment, and aquaculture. NFHS lands also provide refugia, technology development and captive pr

    Quantitative estimates of fish abundance from boat electrofishing

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    Multiple removals by boat electro-fishing were used to estimate fish populations in non-wadeable habitats in New Zealand lakes and rivers. Mean capture probability was 0.47±h0.10 (± 95% CI) from 35 population estimates made with 2-7 successive removals. The relationship between the population estimate from the Zippin method (Y)and the number of fish caught in the first removal (X) was significant (adjusted r2=0.84, P<0.001; Figure 2). The least-squares regression was Y = 1.55X 1.23. Mean density ± 95% confidence interval for 13 fishing occasions was 30±27 fish 100 m- 2. Mean biomass of fish for sites was 78±39 g m-2 (range 29 to 245 g m-2). Koi carp comprised the largest proportion of the fish biomass wherever they were present. The high biomasses of koi carp estimated in these results (mean 56±33 g m-2) suggest that they can reach problematic abundances in New Zealand. Bioniass of spawning koi carp can exceed 400 g m-2

    Can fish really feel pain?

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    We review studies claiming that fish feel pain and find deficiencies in the methods used for pain identification, particularly for distinguishing unconscious detection of injurious stimuli (nociception) from conscious pain. Results were also frequently misinterpreted and not replicable, so claims that fish feel pain remain unsubstantiated. Comparable problems exist in studies of invertebrates. In contrast, an extensive literature involving surgeries with fishes shows normal feeding and activity immediately or soon after surgery. C fiber nociceptors, the most prevalent type in mammals and responsible for excruciating pain in humans, are rare in teleosts and absent in elasmobranchs studied to date. A-delta nociceptors, not yet found in elasmobranchs, but relatively common in teleosts, likely serve rapid, less noxious injury signaling, triggering escape and avoidance responses. Clearly, fishes have survived well without the full range of nociception typical of humans or other mammals, a circumstance according well with the absence of the specialized cortical regions necessary for pain in humans. We evaluate recent claims for consciousness in fishes, but find these claims lack adequate supporting evidence, neurological feasibility, or the likelihood that consciousness would be adaptive. Even if fishes were conscious, it is unwarranted to assume that they possess a human-like capacity for pain. Overall, the behavioral and neurobiological evidence reviewed shows fish responses to nociceptive stimuli are limited and fishes are unlikely to experience pain

    Survey of Specific Fish Pathogens in Free-Ranging Fish from Devils Lake, North Dakota

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    Several biological surveys have been performed at Devils Lake, North Dakota to provide timely information to resource managers to assess the potential for biota transfer from the operation of an outlet designed to carry water to the Sheyenne River. In July, 2005 more than 300 fish were collected from Devils Lake and tested for fish pathogens and parasites using protocols and procedures of the U. S. Fish and Wildlife Service National Wild Fish Health Survey. Eight fish health biologists from the Bozeman and LaCrosse Fish Health Centers worked cooperatively with the Missouri River Fish and Wildlife Management Assistance Office, North Dakota Game and Fish Department, and the Spirit Lake Nation to collect samples from seven different species of fish. Fish were sampled with a variety of gear types from two main areas of the lake over a five day period. The catch was composed of black crappie, fathead minnow, northern pike, walleye, white bass, white sucker, and yellow perch. Testing for fish pathogens and parasites involved four main components. First, immediately upon capture, fish were examined externally and internally for gross signs of disease or other abnormalities. Next, representative samples from each species were examined for external and internal parasites. Then, specific tissues samples were collected using aseptic field techniques and were transferred to the laboratories for pathogens screening using standardized assays. Finally, tissue samples were further tested with highly specific corroborative or confirmatory assays whenever suspect pathogens were detected with screening methods. Results of the pathogen survey were completed within 30 d of sampling. No viral fish pathogens were detected in standard cell culture assays from any species of fish. Two ciliated protozoan parasites, Epistylis sp. and Trichodina sp., were observed in wet mounts of skin scrapings during parasite screening. Additionally, larval forms of the parasitic nematode Contracaecum sp. were recovered from walleye. Three parasitic cestodes were found including Bothriocephalus custpidatus in walleye, Proteocephalus pinguis in northern pike, and Ligula intestinalis in fathead minnow and yellow perch. Major microbial findings included the isolation of six species of bacteria representing both Gram-negative and Gram-positive organisms. Motile aeromonids, such as A. hydrophila, were the most common Gram-negative bacteria and where recovered from six of the seven species of fish sampled. Other less common species included Pleisomonas shigelloides and Pseudomonas putrifaciens. Two Gram-positive bacteria were also cultured including Corynebacterium renale and Streptococcus sobrinus. In addition, antigen of Renibacterium salmoninarum was detected by enzyme-linked immunosorbent assay (ELISA) in very low levels from all species. However, since active infection with R. salmoninarum was not confirmed in these populations by the highly specific polymerase chain reaction (PCR) assay, there was reason to believe the low ELISA optical density values represented false-positive readings. Other than R. salmoninarum, none of the other fish pathogens listed in the National Wild Fish Health Survey were detected in fish from Devils Lake. Likewise, none of the prohibitive fish pathogens found in most state or federal regulations or policies were recovered during the survey. Overall, fish appeared in good general health. Further discussions of major findings from the Devils Lake survey are presented here

    Survey of Specific Fish Pathogens and Parasites in Free-Ranging Fish from Devils Lake and the Sheyenne and Red Rivers in North Dakota

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    We present results of a th ird fish pathogen and parasite survey at Devils Lake and a second survey of the Sheyenne and Red rivers in North Dakota. Surveys were performed to provide information to resource managers to assess the potential for biota transfer from operation of an outlet on Devils Lake to the Sheyenne River. Fish health biologists from Bozeman, Dexter, Idaho, and Lacrosse Fish Health Centers (FHC) worked cooperatively with the Missouri River Fish and Wildlife Management Assistance Office, Valley City National Fish Hatchery, North Dakota Game and Fish Department, and the Spirit Lake Nation to collect samples from the three bodies of water. In September 2006, 387 fish were collected from two sampling areas on Devils Lake. During October 2006, we collected 78 fish from the Sheyenne River near the southern boundary of the Spirit Lake Nation and 72 fish from the Red River south of Fargo, North Dakota. The catch on Devils Lake was composed of black crappie, fathead minnow, northern pike, walleye, white bass, white sucker, and yellow perch. We collected black bullhead, northern pike, tadpole madtom, walleye, and white sucker from the Sheyenne River, and channel catfish, freshwater drum, goldeye, sauger, stonecat, and walleye from the Red River. Fish were tested for the presence or absence of pathogens and parasites using protocols and procedures of the U.S. Fish and Wildlife Service National Wild Fish Health Survey. Five main components of the survey included: I) record catch results and weigh and measure fish; 2) perform external and internal examination for gross signs of disease or other abnormalities, 3) aseptic collection of specific tissues samples; 4) external and internal parasites survey; and 5) application of standardized screening and confirmatory assays for specific fish pathogens. Overall, fish appeared in good general health. We did not detect any fish virus in standard cell culture assays from the three bodies of water. Major microbial findings included the isolation several Gram-negative motile bacteria from the Families Aeromonadaceae, Enterobacteriaceae, and Pseudomonadaceae. Many of the bacteria within these families are normal constituents of aquatic ecosystems or are considered normal flora of animal gastrointestinal tracts. Aeromonas hydrophila, Hafnia alvei, Pseudomonas fluorescens and Pseudomonas sp. were the most commonly isolated species from these groups. No Grampositive bacteria were found during the surveys although antigen of Renibacterium salmoninarum was detected by enzyme-linked immunosorbent assay (ELISA) in very low levels from several species collected from all three bodies of water. Active infection with R. salmoninarum was not confirmed in these populations by the highly specific polymerase chain reaction (PCR) assay and there was reason to believe low ELISA optical density values may have represented false-positive readings. Other than R. salmoninarum, none of the fish pathogens listed in the National Wild Fish Health Survey were detected in fish from Devils Lake or the Red and Sheyenne rivers. Likewise, none of the regulated or prohibited fish pathogens indicated in federal fish health inspection policies were detected. At Devils Lake, we observed or recovered parasites from all species offish surveyed except white sucker. One ciliated protozoan parasite, Trichodina sp., was observed in wet mounts of gill filaments of yellow perch and skin scrapings from walleye and yellow perch. Five species of parasites from the Class Trematoda were found. At Devils Lake, Gyrodactylus hoffmani was observed on the fins of fathead minnow. Neascus of Posthodiplotomum sp. was found in fathead minnow and black crappie. Diplostomum spathaceum was observed in the lens of eyes from fathead minnow. We found Paurorhynchus hiodontis encysted in mesenteric tissues of goldeye collected from the Red River. Three parasites of the Class Cestoidea were found including adult Bothriocephalus cuspidatus in walleye, metacestodes of Bothriocephalus sp. in black crappie, fathead minnow, and walleye. In addition, Proteocephalus pinguis was observed in northern pike, and Ligula intestinalis in fathead minnow. Larval forms of the parasitic nematode Contracaecum sp. were recovered from black crappie, white bass, and walleye at Devils Lake, and from black bullhead, tadpole madtom, and walleye from the Sheyenne River. A presumptive finding of a second or third larval stage of Raphidascaris acus was made from a nematode found in mesenteric tissues of yellow perch at Devils Lake

    Consumer Interest and Marketing Potential of Information on Fish Labels

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    Food labels are an important source of information to consumers. However, little scientific evidence is available on the type of information consumers seek on product labels and how consumers use food labels. The objective of this study is to assess consumers’ use of mandatory information cues and interest in potential information cues placed on fish labels, packages or shelves in five European countries. A cross-sectional consumer survey was carried out in November-December 2004 in five European countries: Belgium, Denmark, the Netherlands, Poland and Spain and a sample representative for age and region within each country has been obtained. Total sample size is 4,786. The results show a high use of on-label information cues; hence, labels were found as good, and potentially market effective sources of information. Consumers were most familiar with expiry date, price, species name and weight and they felt able to derive clear quality expectations from the information these cues convey. Consumers displayed the strongest interest in an additional information cues, such as safety guarantee and a quality mark for seafood. Cross-country differences in both use and interest in fish information cues were observed.consumer, fish, label, Consumer/Household Economics, Marketing,
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