Upper Mississippi River Restoration Program

Upper Mississippi River Restoration Program

Long Term Resource Monitoring

 

 

Evidence of alternative trophic pathways for fish consumers in a large river system in the face of invasion

Gatto, J.V., B. S. Ickes, J. H. Chick. 2022. Evidence of alternative trophic pathways for fish consumers in a large river system in the face of invasion. River Res Applic.2022;1–12. DOI: 10.1002/rra.3992.


Abstract

Large rivers are susceptible to anthropogenic alteration, which can result in drastic changes to their functional ecology. We evaluated spatial–temporal changes in the functional fish communities of the Upper Mississippi River System (UMRS) using data from six study reaches. Species were classified into one of 14 feeding guilds and mass per unit effort (MPUE) was then calculated for each feeding guild annually per gear type. MPUE was standardized using the multigear mean standardization method (MGMS) and log-transformed. Both ANOSIM and Chi-square tests were used to determine differences in MPUE among reaches. We then estimated functional diversity by calculating the number of functional groups (N), Margalef's d, Pielou's J′, Shannon's Diversity, and Simpson's Diversity Index. An AR(1) time series model was used to investigate proportional changes in each guild over 25 years. To evaluate the effect of invasive Carp species in invaded reaches, a Chow test was applied to observations between 2000 and 2005. Analyses revealed differences in the functional fish community among reaches. We found differences in functional diversity metrics among study reaches, but there was little evidence that this differed between invaded and non-invaded reaches. Results determined that invertivore/detritivores have been consistently declining system-wide, with few groups showing a net change. There was also little evidence that invasion altered the proportion of any functional guild. Evaluating the spatial–temporal patterns of functional communities is beneficial to understanding the resilience of a system and can provide further insight into its trophic needs when considering future restoration initiatives.

Keywords

feeding guild, functional diversity, functional ecology, invasive carp, invasive species, trait-based, UMRS

Accessibility FOIA Privacy Policies and Notices

Take Pride in America logo USA.gov logo U.S. Department of the Interior | U.S. Geological Survey


Page Last Modified: November 22, 2021 US Army Corps of Engineers USGS Upper Midwest Environmental Sciences Center US Fish and Wildlife Service U.S. Environmental Protection Agency U.S. Department of Agriculture Natural Resources Conservation Service Minnesota DNR Wisconsin DNR Iowa DNR Illinois Natural History Survey Missouri DC