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Abstract
We apply a physically based lake model to assess the response of North American lakes to future climate conditions as portrayed by the transient trace-gas simulations conducted with the Max Planck Institute (ECHAM4) and the Canadian Climate Center (CGCM1) atmosphere-ocean general circulation models (A/OGCMs). To quantify spatial patterns of lake responses (temperature, mixing, ice cover, evaporation) we ran the lake model for theoretical lakes of specified area, depth, and transparency over a uniformly spaced (50 km) grid. The simulations were conducted for two 10-year periods that represent present climatic conditions and those around the time of CO2 doubling. Although the climate model output produces simulated lake responses that differ in specific regional details, there is broad agreement with regard to the direction and area of change. In particular, lake temperatures are generally warmer in the future as a result of warmer climatic conditions and a substantial loss (> 100 days/yr) of winter ice cover. Simulated summer lake temperatures are higher than 30??C ever the Midwest and south, suggesting the potential for future disturbance of existing aquatic ecosystems. Overall increases in lake evaporation combine with disparate changes in A/OGCM precipitation to produce future changes in net moisture (precipitation minus evaporation) that are of less fidelity than those of lake temperature.
| Publication type | Conference Paper |
|---|---|
| Publication Subtype | Conference Paper |
| Title | Response of North American freshwater lakes to simulated future climates |
| Volume | 35 |
| Issue | 6 |
| Year Published | 1999 |
| Language | English |
| Publisher | American Water Resources Assoc |
| Publisher location | Herndon, VA, United States |
| Larger Work Title | Journal of the American Water Resources Association |
| First page | 1625 |
| Last page | 1637 |
| Google Analytic Metrics | Metrics page |