Native Mussels

Understanding the distribution of threatened and endangered freshwater mussels is needed to conserve and restore populations. Sampling for native freshwater mussels typically involves taking quadrat samples in soft substrates and counting the number of mussels in a defined area. However, this methodology is unsuitable for detecting populations of the Spectaclecase mussel ( Margaritifera monodonta...

Carbon dioxide (CO2) is being evaluated as a chemical control for invasive carps. Recent work involves investigations on the effectiveness of CO2 as a tool to limit range expansion by blocking upstream migrations (behavioral deterrent) and manage existing populations (lethal control). Data generated from these studies are intended to inform resource managers decisions related to the development of...

Invasive Carp Control: Carbon Dioxide Chemical controls are a vital component of many effective Integrated Pest Management plans. Carbon dioxide (CO2) is being evaluated as a new fishery chemical for invasive carps as a general toxicant or behavioral deterrent. Administration of non-selective chemicals, such as CO2, into public waters could pose a risk to non-target organisms (e.g. native mussels...

Zebra ( Dreissenia polymorpha , Pallas 1771) and quagga ( D. bugensis , Andrusov 1897) mussels, collectively referred to as dreissenid mussels, are invasive bivalves native to the Ponto-Caspian region of Eurasia (Stepien et al. 2013; Benson 2018a). High fecundity and a free-swimming planktonic life stage allow for easy and rapid dispersal of dreissenid mussels (Mackie 1991; Marsden et al. 2013)...

Niclosamide (5-chloro-N-[2-chloro-4-nitrophenyl]-2-hydroxybenzamide; NIC) is the active ingredient in the 3.2% granular formulation of Bayluscide® (gB). is applied to assess populations of Sea Lamprey (Petromyzon marinus) larva that are too deep to electro fish or remove larva in habitats and too large to treat with liquid formulations of lampricides in a cost effective manner. Concerns regarding...

Invasion of dreissenid mussels (zebra and quagga mussels, Dreissena polymorpha and D. rostriformis bugensis , respectively) into the Great Lakes and Mississippi River Basins has resulted in estimated economic impacts as high as $1 billion annually for maintenance and repair of biofouled water conveyance systems and other infrastructures (Pimentel et al. 2005).

Impact of UMESC Science This research aims to quantify spatial patterns of adult and juvenile (≤5 y of age) freshwater mussels across multiple scales based on systematic survey data from 4 reaches of the Upper Mississippi River (Navigation Pools 3, 5, 6, and 18). Resource managers can use this critical information about spatial structure to make informed river management decisions.

Rivermouth ecosystems, or freshwater estuaries, are the focus of human and wildlife interactions with the Great Lakes. They are highly valued as the region’s urban, industrial, shipping and recreational centers; and home to recreational harbors, wildlife viewing and production, beaches and urban riverfronts. Rivermouths are also both the mixing zones where nutrients from upstream watersheds are...

Biological production represents the total amount of living material (biomass) that was produced during a defined period of time. This production is important because some of it is used for food and some is valued for recreation, it is a direct measure of total ecosystem processes, and it sustains biological diversity. Production is a measure of energy flow, and is therefore a natural currency for...

Impact of UMESC Science This research aims to estimate the fraction of mussels that are able to avoid short-term mortality during a water level drawdown by burrowing or moving horizontally into deeper water. Resource managers can use this critical information about mussel behavior and survival to make informed river management decisions.

Impact of UMESC Science The results of this study suggest that native mussels play an integral role in this ecosystem by sequestering large volumes of suspended materials that can be used by other benthic organisms. Managers now have critical data on population size, distribution, and relative health—these data are being used to guide habitat restoration activities to benefit native mussel...

In the past century about 20 mussel species have become extinct from the Upper Mississippi River (UMR) basin, and at least 28 species are state or federally listed. The species composition appears to have changed considerably from pre-European settlement times toward communities dominated by mussels that are tolerant of pollution and can utilize many different types of habitats. River managers...