Access a range of climate-related reports issued by government agencies and scientific organizations. Browse the reports listed below, or filter by scope, content, or focus in the boxes above. To expand your results, click the Clear Filters link.
This assessment strengthens and expands our understanding of climate-related health impacts by providing a more definitive description of climate-related health burdens in the United States. It builds on the 2014 National Climate Assessment and reviews and synthesizes key contributions to the published literature. The findings represent an improvement in scientific confidence in the link between climate change and a broad range of threats to public health, while recognizing populations of concern and identifying emerging issues. The overall findings underscore the significance of the growing risk climate change poses to human health in the United States.
This fact sheet presents recent climate change investigations of the U.S. Geological Survey in New England using selected recent publications that highlight the broad spectrum of expertise and commitment to understanding the relations of climate change and water resources in the region.
The State of Maine is experiencing shifts in atmospheric and oceanographic conditions that put it at the precipice of abrupt climate change. This report—part of the Department of Homeland Security's Regional Resiliency Assessment Program (RRAP)—focuses on the local and regional consequences of climate disruptions and their impacts on critical infrastructure in the Casco Bay region, the most developed and populous region in Maine. The report identifies vulnerabilities that may potentially affect the region’s ability to maintain its critical infrastructure systems and recover from the impacts of climate change.
This technical report focuses on sharing the collective efforts of the Inuit Circumpolar Council-Alaska, 146 Inuit contributing authors, a 12-member Food Security Advisory Committee, and many other Inuit who provided input and guidance to the process. The report aspires to strengthen the evidence base of (1) what Inuit food security is, (2) what the drivers of food (in)security are, and (3) identify information needed to conduct an assessment through the development of a conceptual framework. The assessment tool is designed to build the baseline of information needed to understand the Arctic environment and allow a pathway for assessments (food security, ecosystem, political, cultural, etc.) to link eco- and socio- components of sciences and indigenous knowledge.
In January 2015, Long Beach Mayor Robert Garcia asked the Aquarium of the Pacific to take a lead in assessing the primary threats that climate change poses to Long Beach, to identify the most vulnerable neighborhoods and segments of the population, and to identify and provide a preliminary assessment of options to reduce those vulnerabilities. Over the course of 2015, the Aquarium hosted and participated in meetings and workshops with academic and government scientists, business and government leaders, local stakeholders, and Long Beach residents to discuss key issues facing our community as the result of climate change. This report, completed in December 2015, represents the culmination of these efforts. The report offers detailed assessments of the five main threats of climate change to Long Beach: drought, extreme heat, sea level rise and coastal flooding, deteriorating air quality, and public health and social vulnerability. It also provides an overview of what is currently being done to mitigate and adapt to these threats, and other options to consider. Finally, this report presents a series of steps and actions that city leaders and community stakeholders can use as a template for making Long Beach a model of a climate resilient city.
King County, Washington's Strategic Climate Action Plan sets forth strategies for reducing greenhouse gas emissions and preparing for climate change impacts.
Coastal communities across the United States are facing worsening risks of flooding during routine high tides and damaging storm surges. With sea level rise accelerating along the East and Gulf Coasts, these problems are projected to intensify in the coming years, and they are likely to have a disproportionate impact on low-income and minority communities. This report is an attempt to guide improvements in policy making around disaster aid and preparedness, to ensure that communities receive the support they need before and in the aftermath of climate-related disasters. It also makes the case for better long-term planning and sufficient resources to anticipate and prioritize the needs of frontline communities who bear the brunt of the climate impacts our nation is experiencing.
This handbook (USGS Professional Paper 1815) was designed as a guide to the science and simulation models for understanding the dynamics and impacts of sea level rise on coastal ecosystems. Coastal land managers, engineers, and scientists can benefit from this synthesis of tools and models that have been developed for projecting causes and consequences of sea level change on the landscape and seascape.
The two main objectives of this pilot project were to (1) assess the vulnerability of Boston's Central Artery/Tunnel System to sea level rise and extreme storm events, and (2) investigate and present adaptation options to reduce identified vulnerabilities.
The State of New Hampshire has initiated a coordinated effort to proactively prepare for the effects of climate change on the natural and human resources of New Hampshire. An important aspect of this effort is to develop a vulnerability assessment of hydrologic response to climate change. The U.S. Geological Survey, in cooperation with the New Hampshire Department of Health and Human Services, is developing tools to predict how projected changes in temperature and precipitation will affect change in the hydrology of watersheds in the State. This study is a test case to assemble the information and create the tools to assess the hydrologic vulnerabilities in four specific watersheds.
This guide for drinking water, wastewater, and stormwater utilities provides examples of climate impacts and adaptation options. The guide includes sustainability briefs to support adaptation planning, examples of utilities implementing adaptation options, and worksheets to help with the planning process.
Western Water Assessment, in collaboration with the University of Colorado Boulder and Colorado State University, conducted a broad study of climate vulnerability for the state of Colorado. Drawing from existing data and peer-reviewed research, the study summarizes the key challenges facing seven sectors: ecosystems, water, agriculture, energy, transportation, outdoor recreation and tourism, and public health.
This report details the results of a two-year study to address coastal storm and flood risk to vulnerable populations, property, ecosystems, and infrastructure affected by Hurricane Sandy in the United States' North Atlantic region. The study was designed to help local communities better understand changing flood risks associated with climate change and to provide tools to help those communities better prepare for future flood risks. It builds on lessons learned from Hurricane Sandy and attempts to bring to bear the latest scientific information available for state, local, and tribal planners.
This report provides current and relevant climate adaptation information to a diverse audience of legislators, government agencies, policy makers, educators, nongovernment organizations, business, industry, researchers, other stakeholders and the public.
This report presents the results of a Climate Resilience Pilot Project in which the Connecticut Department of Transportation conducted a systems-level vulnerability assessment of bridge and culvert structures six feet to 20 feet in length from inland flooding associated with extreme rainfall events. The vulnerability assessment of inland flooding was conducted because in recent years extreme precipitation events have been more frequent and intense, resulting in damage to infrastructure in several locations.
The Maine Department of Transportation study identified transportation assets that are vulnerable to flooding from sea level rise and storm surge in six coastal towns. The team developed depth-damage functions and adaptation design options at three of the sites, and evaluated the costs and benefits of the alternative design structures.
Climate change adds uncertainty to already complex global water challenges. Though no standard method has been adopted yet by the World Bank, common practice uses downscaled precipitation and temperature projections from Global Climate Models (GCMs) as input to hydrologic models. While this has been useful in some applications, they often give too wide a dispersion of readings to provide useful guidance for site-specific water resources management and infrastructure planning and design. Rather than design for an uncertain situation selected a priori, the so-called “bottom-up” approaches explore the sensitivity of a chosen project to the effects of uncertainties caused by climate change. Supported by the Water Partnership Program, this book summarizes alternatives explored by a group of organizations that belong to the Alliance for Global Water Adaptation (AGWA), to provide practitioners with the tools to adapt to the realities of climate change by following a decision-making process that incorporates bottom-up thinking.
In support of the Eugene-Springfield Multi-Jurisdictional Natural Hazards Mitigation Plan, staff from the cities of Eugene and Springfield, Oregon, with support from the Oregon Partnership for Disaster Resilience, convened meetings in 2014 with representatives from the following sectors: drinking water, health care and public education, electricity, transportation, food, housing, communication, stormwater, wastewater, natural systems, and public safety. The team met for six hours with each sector and, working from a standard list of questions, collected information about the adaptive capacity and sensitivity to specific hazards. This report includes sector summaries resulting from these interviews that reflect the conversations and thinking of the participants.
This report links climate change projections with their associated health outcomes, and identifies populations and locations most vulnerable to these health outcomes in San Francisco. The goal of the Climate and Health Profile is to support local public health climate adaptation efforts, and advance urban health and environmental justice in the climate and health field.
This study investigates how climate change will impact the telecommunications and data center services sector. The report looks not only at the headline-grabbing impacts of extreme weather events, such as those incurred by Hurricane Sandy, but also the risks brought on by slow-onset, gradual changes to the base climate.
This plan—an update to the 2009 California Climate Adaptation Strategy—augments previously identified strategies in light of advances in climate science and risk management options.
This report documents the effort to develop an understanding of possible impacts of climate change and potential future responses by the Towns of Acushnet and Fairhaven and the City of New Bedford, Massachusetts. It focuses specific attention on sea level rise, precipitation, and frequency or intensity of storms that may affect public infrastructure related to water quality and habitat protection.
This plan summarizes the U.S. General Service Administration's approach, accomplishments, plans, actions, and coordination activities to evaluate the agency’s climate change risks and vulnerabilities to manage both the short and long-term effects of climate change on the agency’s mission and operations.
This plan evaluates the risks that different hazards pose to Berkeley and engages the community in dialogue to identify the most important steps that the city and its partners should pursue to reduce these risks. The plan updates the city's plan initially adopted in 2004. To develop the 2004 Disaster Mitigation Plan, the city conducted detailed research on four major natural and two major “man-made” hazards present in Berkeley: earthquake, wildland-urban interface fire, landslide, flood, hazardous materials release, and terrorism. Since that time, new maps and data depicting the extent and possible impacts from tsunami and climate change have become available. In 2011, the city added these hazards to the list and they are incorporated into this plan..
The National Climate Assessment assesses the science of climate change and its impacts across the United States, now and throughout this century. It documents climate change-related impacts and responses for various sectors and regions, with the goal of better informing public and private decision making at all levels.
The assessment draws from a large body of scientific peer-reviewed research, technical input reports, and other publicly available sources; all sources meet the standards of the Information Quality Act. The report was extensively reviewed by the public and experts, including a panel of the National Academy of Sciences, the 13 federal agencies of the U.S. Global Change Research Program, and the Federal Committee on Environment, Natural Resources, and Sustainability.
This publication, known by the acronym SOFIA, is released every two years to provide policymakers and civil society with a global view of fisheries and aquaculture and associated policy issues. The 2014 report includes a special study of initial assessments of vulnerabilities to climate change in fisheries and aquaculture. The full archive is available online.
The Intergovernmental Panel on Climate Change (IPCC) Working Group II's contribution to the Fifth Assessment Report (AR5) relates to climate impacts, adaptation, and vulnerability. A Summary for Policymakers and the underlying scientific and technical assessment are also available.
In anticipation of rising sea levels, a team worked to to gauge the impact of rising tides on local communities and infrastructure. This report describes the process and outcomes of efforts to protect at-risk assets through proactive planning and early identification of adaptation measures.
These guidelines—which include climate change and sea level rise considerations—were developed to provide a comprehensive framework for site assessment and alternatives analysis to determine the need for shore protection and identify the technique that best suits the conditions at a given site. There are many guidelines and manuals for the design of "protection" techniques for the more typical open coast, but prior to the Marine Shoreline Design Guidelines (MSDG) there was almost no guidance that reflected the variety of conditions found in Puget Sound. For this reason, the MSDG were created to inform responsible management of Puget Sound shores for the benefit of landowners and shared natural resources.
As with the rest of the world and the Caribbean region in particular, the coastal and marine communities of the US Virgin Islands (USVI) are susceptible to the effects of climate change. Hazards include increasingly hazardous coastal conditions and loss of life-sustaining marine, coastal, and island resources. Climate change is anticipated to add to the stresses of the coastal environment by altering temperature and precipitation patterns, increasing the likelihood of extreme precipitation events, and accelerating rates of sea level rise.
Responding and adapting to such changes requires an understanding of the risks; weighing options for adapting to changing conditions; and instituting a suite of strategies to implement, measure, and fund response actions having the most benefits to the ecosystems and communities that depend on those services. With support from National Oceanic and Atmospheric Administration’s (NOAA) Coral Reef Conservation Program, The Nature Conservancy’s (TNC) Caribbean Program directed a project with the objective of developing decision-support tools and conservation strategies that will advance the implementation of ecosystem-based adaptation (EBA) to climate change within the USVI.
This report describes a community-driven project built on efforts by Shaktoolik and other at-risk, mainly Alaska Native villages on the Bering Sea coast to adapt to potentially devastating effects of climate change. The project involved a multi-party approach to assist the community of Shaktoolik to make a decision whether to relocate or stay at the current location. The result is a well-defined process that may be replicated by other at-risk communities in the region. The final report documents lessons learned, adaptation methods for Shaktoolik, potential funding sources, and a step-by-step action plan to implement the community's decision.
This update serves as guidance for hazard mitigation for the State of Connecticut. Its vision is supported by three central goals, each with an objective, a set of strategies, and associated actions for Connecticut state government, stakeholders, and organizations that will reduce or prevent injury from natural hazards to people, property, infrastructure, and critical state facilities.
This report, the first of its kind for the City of Grand Rapids, outlines the condition of the city's climate resiliency and offers recommendations for how it can both impact and adapt to climate change. The report's goal is to both spur a larger community conversation around processes that will enable Grand Rapids to become a more climate-resilient city and to spur many specific short- and near-term projects, policies, programs, and plans to mitigate the effects of climate change. The report documents projected local climate changes, their potential negative impact to low-income families, and outlines small near-term solutions that the city can make to curb or adapt to climate change. Recommendations include investing in green space and improving the city's tree canopy, improving the city's energy autonomy, and implementing green street infrastructure materials and maintenance techniques.
In 2013, the Baltimore City Department of Planning and Office of Sustainability created the Disaster Preparedness and Planning Project (DP3) as an effort to address existing hazards while simultaneously preparing for predicted hazards due to climate change. This project develops an integrated All Hazards Mitigation Plan, floodplain mapping, and Climate Adaptation Plan program that links research, outreach, and actions to assure implementation of a comprehensive and new risk-preparedness system for addressing existing and future impacts. Integrating hazard mitigation planning, which focuses on past events, with climate adaptation planning, which focuses on what will likely happen in the future, offers a positive, win-win solution for Baltimore City.
The Dane County Climate Change Action Council was formed in March 2013 with a mission to ensure that Dane County government was better prepared for weather extremes brought on by global climate change. The Council facilitated an internal review of county preparations and potential modifications to the operations and capital investments of the county, resulting in this report identifying Dane County’s potential vulnerabilities to weather extremes associated with global climate change and strategies to adapt to a changing climate. The report is the first step in the county’s effort to improve the resiliency of its climate-sensitive resources in the face of climate change; future steps will include cross-departmental collaborations to implement the adaptation strategies outlined in the report.
This report provides a risk-based approach to achieve resilient water security in a changing climate, documents key trends, and highlights best practice from the Organization for Economic Cooperation and Development (OECD) Survey of Policies on Water and Climate Change Adaptation. The report examines options to improve the flexibility of water governance, policy, and financing approaches.
