This Guide is written for practitioners already using or wanting to use future climate information in their work, but who are not familiar with the underlying assumptions and choices surrounding climate data. Here, we introduce the climate model scenarios that are used to “drive” climate models forward in time. These scenarios are a combination of socioeconomic and climate forcing pathways. We summarize differences between these scenarios for the Great Lakes region to show users how their choice of model scenario affects future temperature and precipitation projections.
Created especially for decision makers and adaptation planners in the Great Lakes region, this report offers planners guidance in developing adaptation plans while navigating local politics and specialized data. Content is accessible for users of all skill levels, with a focus on beginner. The report is divided into six main sections: Climate Change in the Great Lakes Region, Decision Making Under Uncertainty, Climate Information in the Local Planning Process, Data Analysis Guide for Assessing Climate Vulnerability, Building Climate Knowledge and Capacity, and Making the Case.
Climate change is causing significant and far-reaching impacts on the Great Lakes and the Great Lakes region. This report, from 18 leading scientists and experts from Midwest and Canadian universities and research institutions, draws on the array of existing research to assess how the shifting global climate impacts the unique Great Lakes region.
The EWN Atlas is a collection of 56 projects illustrating a diverse portfolio of contexts, motivations, and successful outcomes, presented and considered from an Engineering With Nature® perspective to reveal the usefulness of nature-based approaches and the range of benefits that can be achieved. Engineering With Nature is an initiative of the U.S. Army Corps of Engineers enabling more sustainable delivery of economic, social, and environmental benefits associated with water resources infrastructure. EWN intentionally aligns natural and engineering processes to efficiently and sustainably deliver economic, environmental, and social benefits through collaborative processes.
Coordinated by a partnership between climate services organizations in the U.S. and Canada, this product provides a synthesis report summarizing the previous years’ climate trends, events, new research, assessments, and related activities in the Great Lakes region. The 2017 report provides an overview of the climate trends and impacts in the basin for the year, including information on the past year’s climate trends, a summary of some of the major climatic events, and a summary of relevant new climate research and activities. It was developed as a longer term trend analysis and compilation of the existing Great Lakes Region Quarterly Climate Impacts and Outlook and is intended for use by managers and practitioners at federal, state, provincial, regional, and local scales, as well as for stakeholders and the general public. The report is also available for download from binational.net.
This report synthesizes available science on the observed and projected impacts of climate change in the Great Lakes Basin and documents the climate change assessment methods applied in the region. It was initiated in support of commitments under Annex 9-Climate Change Impacts of the Great Lakes Water Quality Agreement to take into account the climate change impacts on the chemical, physical, and biological integrity of the waters of the Great Lakes and communicate and coordinate binationally regarding ongoing developments of domestic science. The report draws upon the range of research conducted by various levels of government, academia, and other organizations and the growing body of knowledge in areas of ecological research and climate change and provides researchers, managers, and decision makers with a time-stamped, thorough, and methodical examination of that climate change science.
Intense rainstorms, floods, and heat waves will become more common in the Great Lakes region due to climate change in the coming decades. While ice-cover declines will lengthen the commercial navigation season on the lakes, warmer lake temperatures will increase risks from invasive species, and could threaten water quality. Material in this report is largely a synthesis of the information contained in the National Climate Assessment’s chapters on the Midwest (Chapter 18) and Northeast (Chapter 16). Donald Scavia, GLISA's co-director, was one of the convening authors of the NCA's Midwest regional chapter; GLISA also served as a hub for the compilation of technical inputs for the Midwest chapter.
This report was designed to Identify how beachgoers perceive the risk of dangerous currents and waves in the Great Lakes; evaluate existing messages and delivery mechanisms (such as National Weather Service Surf Zone Forecasts); translate complex beach conditions into understandable, actionable messages for specific beachgoer audiences; and identify effective delivery mechanisms for specific audiences.
This booklet describes how natural processes affect the coast, including changes in lake levels, storms and storm surges, waves and wave climate, transport of sediment, ice on the shore, shoreline erosion, lakebed erosion, and movement of water on the land. It also describes how to protect coastal investments by adapting to natural processes, restoring a natural shoreline, moderating coastal erosion, armoring the shore, stabilizing bluffs and banks, controlling surface water and groundwater, building environmentally friendly shore protection structures, and working with engineers and contractors. The final section covers risk management and the economics of protecting a coastal investment, including shoreline property features and value, government regulations to protect a coastal investment, costs of shore protection, and accounting for climate change. There is also a list of resources for more information and a glossary of coastal engineering terms.