Climate Change Likely to Alter NY’s Oneida Lake by 2099
By the end of this century, the temperature of Oneida Lake – New York state’s largest interior lake – will likely be higher by about 6 degrees...comments share
By Blaine Friedlander via Cornell Chronicle, 2/25/15
By the end of this century, the temperature of Oneida Lake – New York state’s largest interior lake – will likely be higher by about 6 degrees Fahrenheit. This would be enough to remove oxygen from its bottom waters, alter its species composition and eradicate its remaining cold water fish species, report Cornell researchers in the journal Ecological Modelling.
With an area of about 80 square miles, Oneida serves as the centerpiece of a large watershed. Prevailing west-northwesterly winds cause its shallow waters to mix frequently through the ice-free months. Between mixing events, the lake’s surface water warms and becomes less dense then the colder bottom layers. Large temperature differences between the surface and bottom layers result in strong stratification, and winds are needed to induce mixing.
As the climate changes, the temperature difference between the layers is expected to increase and last longer. By 2099 Oneida Lake could see an additional 61 consecutive days of stratification, according to the researchers’ projections.
“Increased stratification and water temperatures are likely to cause more eutrophic [nutrient-rich] conditions in the future, including more cyanobacteria [blue-green algae] blooms,” reports Amy Lee Hetherington, a doctoral candidate in natural resources and the lead author of the study. Her research focuses on ecological forecasting and the impacts of environmental stressors on lake dynamics.
Randy Jackson, senior research associate and associate director of the Cornell Biological Field Station on Oneida Lake, says cold water fish species have already declined in the lake. Water temperature increases will place additional stress on these fish species, including the likely extirpation of burbot, the report says. Conversely, many warm water fish species will benefit from temperature increases.
Looking forward only to 2050, Oneida Lake’s water temperatures from April through November will likely increase by about 2.5 degrees Fahrenheit, but 2011 simulation temperatures already align with midcentury predictions.
While cyanobacteria blooms are not new to Oneida Lake, health officials have closed the lake’s beaches several times in the past five years due to their toxins. “Research indicates that cyanobacteria blooms will likely increase with climate change,” said Hetherington, who will be investigating the timing and composition of the blooms and their implications for the water body’s future.
In addition to Hetherington, the paper, “Modeling Climate Change Impacts on the Thermal Dynamics of Polymictic Oneida Lake, New York, United States,” was co-authored by Rebecca L. Schneider, associate professor of natural resources; Lars G. Rudstam, director of the Cornell Biological Field Station on Oneida Lake; Gideon Gal, research scientist at the Kinneret Limnological Laboratory in Israel; Art DeGaetano, professor of earth and atmospheric sciences; and Todd Walter, associate professor of biological and environmental engineering.
The USDA’s National Institute for Food and Agriculture, the Woodrow Wilson National Fellowship Foundation–Doris Duke Conservation, the Andrew W. Mellon Foundation, and Cornell’s Mario Einaudi Center for International Studies supported the research.
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