Great Lakes Indiana Health

Great Lakes Communities and Ecosystems at RiskThe Regionspacer
spacer
Confront the Challenge
• Climate in the Region
• The Report
• Technical Background
• For Teachers

Explore the Impacts
• Overview
• Migrating Climates
• Water Resources
• Sense of Place

Discover the Solutions
• Overview
• Solutions where we Live
• Reducing our Emissions
• Managing our Response
• Ten Personal Solutions

spacer spacer
Climate Change in Indiana
Piping Plover
Introduction
Climate Projections
Agriculture
Human Health
Property and Infrastructure
Recreation & Tourism
Water Supply & Pollution
Climate Solutions
Resources & Links

Climate Change Impacts:
Human Health

Human health concerns related to climate change result from a complex set of interacting human and environmental factors. These concerns are particularly serious for the elderly and other vulnerable populations (the very young, the poor, and those whose health is already compromised). Climate change models project that, during the current century, extreme heat periods and severe storms are likely to become more common in the Great Lakes region. As a result, air and water quality, extreme heat periods, and storm-related risks could increase for residents of Indiana. Among the potential impacts of climate change with implications for the health of Indiana's residents are:

  • Increased Risk of Heat-Related Morbidity or Mortality
    Over the course of the century, the number of hot days (exceeding 90oF) annually is projected to increase across the Great Lakes region, with many years experiencing 40 or more days. Of greater concern is a large projected increase in extreme heat days (exceeding 97oF). Extreme heat is associated with cramps, fainting, heat exhaustion, and heat stroke; and lengthy or repeated heat waves may not allow people to recover. The ill-health effects of heat waves may also be compounded by other problems, such as high humidity and poor air quality. In order to avoid the worst health impacts, residents will need to improve warning systems and preparations.

  • Decreased Risk of Cold-Related Morbidity or Mortality
    Cold-related health risks are likely to decline over time, as the frequency of extreme cold weather periods during winter decreases.

  • A Potential Increase in Ground-Level Ozone
    Weather conditions conducive to high ozone levels will occur more often over the next decades, and high heat days may lead to decreased air quality and an increased incidence of respiratory disease. Ground-level ozone is produced by a complex series of chemical reactions involving sunlight, oxygen, water vapor, volatile organic compounds, and oxides of nitrogen. The rates of these reactions increase with higher temperatures. Thus, as Indiana grows warmer, the formation of ground-level ozone, holding air pollutants constant, will increase. Research is underway to assess what may happen when temperatures rise but air pollutants are reduced.

  • Increased Risk of Waterborne Infectious Disease
    CryptosporidiaExtreme rainstorms can swamp municipalities' sewage and stormwater capacities, increasing the risks of water pollution and waterborne infectious diseases. As a result, outbreaks of waterborne infectious diseases such as cryptosporidiosis or giardiasis may become more frequent or widespread if extreme rainstorms occur more often, as projected under climate change.

    One of the best known examples of a cryptosporidium outbreak occurred in Milwaukee in 1993, after an extended period of rainfall and runoff overwhelmed the city's drinking water purification system, and caused 403,000 cases of intestinal illness and 54 deaths. Milwaukee's drinking water originates in Lake Michigan.

  • Increased Risk of Vector-borne Infectious Disease
    The occurrence of many infectious diseases is strongly seasonal, suggesting that climate plays a role in influencing transmission. St. Louis encephalitis outbreaks in the Great Lakes region, for example, have been associated with extended periods of temperatures above 85oF (29oC) and little rainfall. Some Vector-borne diseases, such as Lyme disease or more recently, West Nile encephalitis, have expanded widely across the region. While this spread is attributed largely to land-use changess, future changes in rainfall or temperatures could encourage greater reproduction or survival of the disease-carrying insects, which include ticks and mosquitoes, respectively.





Photo Credits:
Piping Plover -- National Park Service, Indiana Dunes National Lakeshore.
Cryptosporidia -- AFIP.
spacer spacer
Survey the Region
• Overview
• Illinois
• Indiana
• Michigan
• Minnesota
• New York
• Ohio
• Ontario
• Pennsylvania
• Wisconsin


We Need Your Support
to Make Change Happen

We can reduce global warming emissions and ensure communities have the resources they need to withstand the effects of climate change—but not without you. Your generous support helps develop science-based solutions for a healthy, safe, and sustainable future.