**The title, authors, and abstract for this completion report are provided below.  For a copy of the completion report, please contact the GLFC via e-mail or via telephone at 734-662-3209**

 

Assessment Of Otolith Chemistry As An Indicator Of Fish Movement Or Transfer Between The Illinois River System And Lake Michigan

 

January 2008

 

Gregory W. Whitledge

 

     Fisheries and Illinois Aquaculture Center

   Southern Illinois University

   Carbondale, IL 62901-6511

 

ABSTRACT:

 

Naturally occurring chemical markers in otoliths offer a potential means to identify source environment for fishes in the upper Illinois River system and Lake Michigan, including individuals that may breach electrical barriers in the Chicago Sanitary and Ship Canal or be transferred via bait buckets between these formerly isolated drainages.  The objectives of this study were to determine whether water and fish otolith stable isotopic and elemental compositions differ among Lake Michigan, the upper Illinois River, and three tributaries of the upper Illinois River (Fox, Des Plaines and DuPage Rivers) and to determine whether otolith isotopic and elemental signatures could be used to identify the water body from which individual fish were collected.  Water and fish otolith samples were obtained from each site during summer 2007 and analyzed for δ18O and a suite of trace element concentrations; otoliths were also analyzed for δ13C.  Otolith δ13C values for Lake Michigan fish were distinct from individuals collected in the Illinois River and tributaries.  Fish collected in the Fox and Des Plaines Rivers could be distinguished from one another and from fish captured in the Illinois and DuPage Rivers using otolith Sr:Ca and Ba:Ca ratios.  Otoliths reflected differences in water Sr:Ca and Ba:Ca among environments.  Otolith isotopic and elemental compositions may enable determination of source environment for any Asian carp discovered in Lake Michigan and could also be useful as indicators of environmental history for fishes in the upper Illinois River and its tributaries.