Upper Mississippi River Restoration Program

Long Term Resource Monitoring

Who We Are

Mission and Goals

Background

Program Documents

USGS Contacts

A Team Corner

State Field Stations

Lake City, Minnesota

La Crosse, Wisconsin

Bellevue, Iowa

Great Rivers, Illinois

Open River, Missouri

Havana, Illinois

Field Station Directory

Components

Fish

Aquatic Vegetation

Water Quality

Macroinvertebrates

Land Cover

Bathymetry

GIS Data

Other Research

Data and Tools

Data Visualization Tools

Sampling Design and Statistics

Reports

Reports and Publications

Strategic Plan 2010-2014

Status and Trends Report 2008

Fact Sheets

UMESC

Search

Identifying monitoring information needs that support the management of fish in large rivers

Counihan, T. D., K. L. Bouska, S. K. Brewer, R. Jacobson, A. F. Casper, C. G. Chapman, I. R. Waite, K. R. Sheehan, M. Pyron, E. R. Irwin, K. Riva-Murray, A. J. McKerrow, and J. M. Bayer. 2022. Identifying monitoring information needs that support the management of fish in large rivers. PLoS ONE 17(4):e0267113; DOI: 10.1371/journal.pone.0267113. LTRM Leveraged Manuscript

Abstract

Management actions intended to benefit fish in large rivers can directly or indirectly affect multiple ecosystem components. Without consideration of the effects of management on non-target ecosystem components, unintended consequences may limit management efficacy. Monitoring can help clarify the effects of management actions, including on non-target ecosystem components, but only if data are collected to characterize key ecosystem processes that could affect the outcome. Scientists from across the U.S. convened to develop a conceptual model that would help identify monitoring information needed to better understand how natural and anthropogenic factors affect large river fishes. We applied the conceptual model to case studies in four large U.S. rivers. The application of the conceptual model indicates the model is flexible and relevant to large rivers in different geographic settings and with different management challenges. By visualizing how natural and anthropogenic drivers directly or indirectly affect cascading ecosystem tiers, our model identified critical information gaps and uncertainties that, if resolved, could inform how to best meet management objectives. Despite large differences in the physical and ecological contexts of the river systems, the case studies also demonstrated substantial commonalities in the data needed to better understand how stressors affect fish in these systems. For example, in most systems information on river discharge and water temperature were needed and available. Conversely, information regarding trophic relationships and the habitat requirements of larval fishes were generally lacking. This result suggests that there is a need to better understand a set of common factors across large-river systems. We provide a stepwise procedure to facilitate the application of our conceptual model to other river systems and management goals.

Accessibility FOIA Privacy Policies and Notices

U.S. Department of the Interior | U.S. Geological Survey

Page Last Modified: November 14, 2022