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The "Butterfly Effect" the idea that on a global scale, even small events can have a ripple effect around the world is demonstrated in the work of a Russian family in Siberia that have for three generations studied Lake Baikal -- one of the most biologically diverse of the world's oldest and deepest lakes. In the 1940's, Mikhail Kozhov began taking detailed measurements of the lake's temperature. His granddaughter, Lyubov Izmest'eva, continues the family tradition.

Izmest'eva ventures out onto the water, or ice in the winter, to collect water samples and measure temperatures, just like her mother and grandfather before her.

Along with a team of scientists from the University of California at Santa Barbara, Izmest'eva recently co-authored a study of Lake Baikal. The research sheds light on the way climate change is affecting temperatures in large bodies of water.

"This consistent dedication to understanding one of the world's most majestic lakes helps us understand not only the dynamics of Lake Baikal over the past 60 years, but also to recognize future scenarios for Lake Baikal," said lead author Steve Katz in a University of California at Santa Barbara press release.

"This work is important because we need to go beyond detecting past climate variation," said Stephanie Hampton of the University of California at Santa Barbara in a press release by that school.

"We also need to know how those climate variations are actually translated into local ecosystem fluctuations and longer-term local changes. Seeing how physical drivers of local ecology - - like water temperature - - are in turn reflecting global climate systems will allow us to determine what important short-term ecological changes may take place, such as changes in lake productivity," said Hampton.

"They also help us to forecast consequences of climate variability," Hampton said.

The researchers found correlations between the lake and distant parts of the Earth.

For example, they found that changes in Lake Baikal's temperature varied along with monthly El Niรฑo variations in the surface temperature of the Pacific Ocean, thousands of miles away.

The researchers also found connections between the jet stream and Lake Baikal. Changes in the jet stream's strength and direction forecast seasonal changes in the lake by about three months. Overall they found the lake is also warming. The lake's temperature even reflected decade-scale changes in the Earth's speed of rotation.

The research is published in the journal, PLoS ONE

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