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University of Illinois Extension serving Christian, Jersey, Macoupin and Montgomery Counties

Montgomery County
#1 Industrial Park Dr.
Hillsboro, IL 62049
Phone: 217-532-3941
FAX: 217-532-3944
Email: uie-cjmm@illinois.edu
Hours: Monday - Friday 8 am to 12 pm, 1 pm to 4:30 pm

Christian County
1120 N Webster St.
Taylorville, IL 62568
Phone: 217-287-7246
FAX: 217-287-7248
Hours: Monday - Friday 8am to 11:30am, 12:30pm to 4.30pm

Jersey County
201 W. Exchange St.
Suite A
Jerseyville, IL 62052
Phone: 618-498-2913
FAX: 618-498-5913
Hours: Tuesday & Wednesday 8 am to 12 pm and 1 pm to 4:30 pm and Thursday 8 am to 12 pm

Macoupin County
#60 Carlinville Plaza
Carlinville, IL 62626
Phone: 217-854-9604
FAX: 217-854-7804
Hours: Monday - Thursday 8 am to 12 pm; 1 pm to 4:30 pm

News Release

Invasive Asian carp respond strongly to carbon dioxide

Source: Cory Suski, 217-244-2237, suski@illinois.edu

News writer: Catherine Puckett, 352-377-2469, cpuckett@usgs.gov

 

·        Bighead carp and silver carp are species of invasive Asian carp that threaten the Great Lakes.

·        Both carp species avoided CO2-infused water in a USGS research pond.

 

URBANA, Ill.  – Adding carbon dioxide gas to water, a process similar to making carbonated soda water, could help control the movement and behavior of invasive carp in the Great Lakes basin, according to a recent study.

 

“This study demonstrates the ability of carbon dioxide to act as a non-physical barrier on a large scale,” says University of Illinois researcher Cory Suski.  “ Work on this topic to date has primarily been performed in small, laboratory studies, and so this work showed the potential for CO2 to be effective at larger scales more relevant to field applications.”

 

Bighead carp and silver carp are species of invasive Asian carp that threaten the Great Lakes. Scientists with the University of Illinois and U.S. Geological Survey tested the effectiveness of infusing water with recycled CO2 gas to discourage the movement of bighead and silver carp. Both carp species avoided CO2-infused water in a research pond at the USGS Upper Midwest Environmental Sciences Center in La Crosse, Wis.

 

“These fish responses provide evidence that CO2 could be used as a tool to deter the movement of bighead and silver carp,” says Michael Donaldson, a U of I researcher and the study’s lead author. “The results are encouraging because there is a need for additional methods to prevent the entry of Asian carp into the Great Lakes.”

 

The scientists gradually added light plumes of CO2 gas to one end of the USGS test pond. They monitored the behavior of individual bighead and silver carp, as well as the behavior of native fish species such as bigmouth buffalo, channel catfish, paddlefish, and yellow perch before, during, and after the addition of CO2.

 

The findings include:

•           Each fish species except for paddlefish avoided the areas of the pond with CO2-infused water.

•           Certain bighead and silver carp movements slowed down after CO2 was injected.

•           Bighead carp used a smaller area of the pond furthest from the injection sites after CO2 was added.

 

“Further tests are needed before CO2 can be used in Asian carp management,” says Jon Amberg, a USGS scientist and co-author of the study. “Understanding the effects of long-term, elevated CO2 exposure on fish and other organisms can help assess its risks to native species.”

 

The next research step is to test the usefulness of CO2 gas in controlling bigheaded carp movement in a natural river.

 

Non-native Asian carp have the potential to damage ecosystems in the Great Lakes basin by competing with native fish and mussels for food. Large silver carp are also hazardous to boaters because they can leap up to 10 feet out of the water when startled.

 

“Carbon dioxide as a tool to deter the movement of invasive Bigheaded Carps” co-authored by Michael Donaldson, Shivani  Adhikari, Adam Wright , and Cory Suski from U of I; and Jon Amberg, Aaron Cupp, Nathan Jensen, Mark Gaikowski, and Jason Romine from the U.S. Geological Survey. The study is published in Transactions of the American Fisheries Society and is available online.

 

The study was supported by the Illinois Department of Natural Resources through funds provided by the U.S. Environmental Protection Agency’s Great Lakes Restoration Initiative.

 

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Local Contact: Gary Letterly, Extension Educator, Energy and Environmental Stewardship, letterly@illinois.edu