Field evaluation of carbon dioxide as a fish deterrent at a water management structure along the Illinois River

Aaron R. Cupp; Justin Smerud; John Tix; Susan M. Schleis; Kim T. Fredricks; Richard A. Erickson; Jon Amberg; William S. Morrow; Carolyn M. Koebel; Elizabeth A. Murphy; Chad Vishy; K. Douglas Blodgett

doi:10.3391/mbi.2018.9.3.12

Field evaluation of carbon dioxide as a fish deterrent at a water management structure along the Illinois River

Management of Biological Invasions

By: Aaron R. Cupp, Justin Smerud, John Tix, Susan M. Schleis, Kim T. Fredricks, Richard A. Erickson, Jon Amberg, William S. Morrow, Carolyn M. Koebel, Elizabeth A. Murphy, Chad Vishy, and K. Douglas Blodgett

https://doi.org/10.3391/mbi.2018.9.3.12

Links

More information: Publisher Index Page (via DOI)
Data Release: USGS data release
Open Access Version: Publisher Index Page
Download citation as: RIS | Dublin Core

Abstract

Construction of a water management structure (WMS) in the levee surrounding The Nature Conservancy’s Emiquon Preserve (Havana, Illinois, USA) created a new hydrological connection and potential aquatic invasive species pathway between the Illinois River and a large conservation wetland complex. Site managers need a control tool that deters the upstream passage of non-native fishes into the wetland lakes, but does not interfere with normal gate operation and water discharge. This short field study evaluated carbon dioxide (CO₂) injected into water as a non-obstructive method to reduce fish abundance near the WMS culverts. We quantified relative fish abundance using underwater sonar with and without injection of CO₂ into culverts during three discharge events: no flow (0 m³/s), restricted flow (0.9 m³/s), and unrestricted flow (3.2 m³/s). Overall, CO₂ reached or exceeded our target concentration of 100 mg/L during no flow and restricted flow, and fish abundance was 70–95% lower at culvert entrances relative to untreated control days. The target CO₂ level was not reached during unrestricted flow and fish abundance was not reduced during CO₂ injection. Atmospheric CO₂ concentrations were inconsequential and unaffected by CO₂ treatments throughout testing. Results from this initial field study provide several considerations for CO₂ as a fish deterrent in natural environments.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Field evaluation of carbon dioxide as a fish deterrent at a water management structure along the Illinois River
Series title	Management of Biological Invasions
DOI	10.3391/mbi.2018.9.3.12
Volume	9
Issue	3
Year Published	2018
Language	English
Publisher	REABIC
Contributing office(s)	Upper Midwest Environmental Sciences Center
Description	10 p.
First page	299
Last page	308
Country	United States
State	Illinois
Other Geospatial	Illinois River
Google Analytic Metrics	Metrics page