Scientists Find Dramatic Mid-Century Change in Aquatic Community

Scientists Find Dramatic Mid-Century Change in Aquatic Community

Posted: February 4, 2013

Lake Mendota in Wisconsin is one of the world’s most studied lakes, according to Alexander Y. Karatayev (top left photo), director of the Great Lakes Center at Buffalo State. Two prominent scientists—Chancey Juday and Edward Birge, who served as the president of the University of Wisconsin—pioneered the science of limnology (the study of inland waters) there.

From 2002 to 2007, Karatayev and a team of scientists including Lyubov E. Burlakova (bottom left photo), research scientist with the Great Lakes Center, added to the data that has been collected since 1914. Karatayev and his team collected more than 300 samples from specific sites on the bottom of the lake. They then used multivariate statistical analyses to study the lake’s benthic communities—the aquatic animals living at the lake’s bottom.

“We find very different species now than those that were there 100 years ago,” said Karatayev. However, the change was not slow and progressive. Instead, the benthic community was made up of similar species from 1914 to about 1951. And the composition of the community now there has been relatively stable since the mid-1960s.

“From 1951 to 1967,” said Karatayev, “there was a big change in the benthic communities at all depths.” The period in question saw the expansion of agriculture in nearby farmland; a population growth in metropolitan Madison; an increase in the application of fertilizers and pesticides; and the introduction of Eurasian watermilfoil, an invasive aquatic plant that can grow to 30 feet in length.

The findings, detailed in “Change in a lake benthic community over a century: evidence for alternative community states,” were published in Hydrobiologia: The International Journal of Aquatic Sciences in January 2013. The article details both the methods of data collection and the statistical tools used to determine and compare the composition of the communities.

“Benthic species live longer than other aquatic invertebrate species, and they can indicate what happened over time,” said Karatayev. Such species include crustaceans such as crayfish; mollusks such as clams; aquatic worms; and certain insects, including mayflies, during the immature phase of their lives.

“A benthic community can provide a lot of information,” said Karatayev. “It may be hard to convince people it’s worthwhile to study the well-being of benthic worms, but the presence of the particular benthic species may indicate the quality of the water.”

Tagged as: , , ,
Buffalo State Headlines

0 Comments

No comments have been posted

Comment

We welcome and encourage your input regarding our stories.

To comment, you must enter and verify a valid e-mail address. To verify: Click on the verification link in the e-mail you receive from Buffalo State. You only need to register once.

Registered commenters agree not to post messages of questionable taste, that are libelous, or offensive.

Comments that are deemed inappropriate may be edited or deleted without notice. Users who repeatedly violate these guidelines will be banned.

Name (required)
E-mail (required, but will not be published)
CAPTCHA
This question is for testing whether you are a human visitor and to prevent automated spam submissions.
Image CAPTCHA
Enter the characters shown in the image.
Leave this field blank

News Archive

2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008 | 2007 | 2006 | 2005 | 2004 | 2003 | 2002 | 2001 | 2000

Contact Information

Jerod Dahlgren
Director, Public Relations
(716) 878-4201
dahlgrjt@buffalostate.edu

Mary A. Durlak
Senior Writer, Public Relations
(716) 878-3517
durlakma@buffalostate.edu

Laurie Kaiser
Staff Writer, Public Relations
(716) 878-3520
kaiserla@buffalostate.edu

Mark Norris
Editor, News and Events
(716) 878-4859
norrisma1@buffalostate.edu

News Tags

Alumni |
Dance |
Design |
Film |
Giving |
Music |
WBNY |