Welcome to the interactive web schedule for the 2019 Midwest Fish & Wildlife Conference! Please note, this event has passed. To return to the main Conference website, go to: www.midwestfw.org.

For tips on navigating this schedule, click HELPFUL INFO below.

CONFERENCE SCHEDULE UPDATES & CHANGES: As a result of the prolonged government shutdown, we experienced a number of cancellations and changes to the schedule. Cancellations and changes are listed here (as of January 26, 2019). 

Sign up or log in to bookmark your favorites and sync them to your phone or calendar.

T10: Fisheries: Invasive Species I [clear filter]
Monday, January 28

3:20pm EST

(FISHERIES: INVASIVE SPECIES 1) Community Shifts in the Middle Mississippi River Relative to the Introduction of Two Hypophthalmichthys Carps
AUTHORS: Christopher Schwinghamer, Quinton Phelps, Kyle Hartman – West Virginia University

ABSTRACT: Aquatic invasive species can have broad impacts on aquatic ecosystems. Through direct and indirect competition, alteration of existing habitats, and increased predation pressure, non-native species can alter the composition of native fish communities. Two non-native carps from the genus Hypophthalmichthys, Silver H. molitrix and Bighead H. nobilis carps, were introduced into the Mississippi River Basin in the 1970’s through escape from aquaculture facilities and have established populations throughout much of the basin. Due to their planktivorous diets, these non-native invaders possess a high likelihood for competition with native fishes. This creates the potential for shifts in community composition in reaches where they are present. One such reach, in which Silver and Bighead carp established in 2004, is the Middle Mississippi River. Principal response curve analyses of the fish community data was performed to evaluate shift in community composition over time using long term monitoring data. Introductions of these carps appears to have altered native fish communities. Results suggest dramatic declines in abundance of Gizzard Shad Dorosoma cepedianum, while populations of benthic omnivores such as catfish and suckers and abundant prey species may be slightly increasing post-carp establishment. Gizzard Shad, a highly abundant prey species, represent the most abundant native planktivore who likely share the largest dietary overlap and thus highest intensity of competition with the carps. While some species may be experiencing increased abundances, the magnitude of their increase in far exceeded by the declines in Gizzard Shad populations. As such, proper management of invasive carp populations is vital to maintaining healthy fish communities in the Middle Mississippi River.

Monday January 28, 2019 3:20pm - 3:40pm EST

3:40pm EST

(FISHERIES: INVASIVE SPECIES 1) Intensive Harvest of Bigheaded Carps Using the Unified Method in a Floodplain Lake in Missouri, USA
AUTHORS: Jeffrey C. Jolley, Duane C. Chapman, Katelyn M. Lawson – US Geological Survey; Wyatt J. Doyle, US Fish and Wildlife Service; Kevin J. Meneau, Missouri Department of Conservation

ABSTRACT: Intensive and efficient harvest methods for invasive Asian carp in the Mississippi River Basin may alleviate negative effects of overabundance and are desired by fisheries managers.  Commercial desirability of these fish may provide economic benefits, as well.  We conducted a mass harvest at Creve Coeur Lake, Missouri using the Unified Method which was developed by Chinese fishers for harvesting carp from floodplain production lakes.  The method consists of using a variety of driving, herding, and netting techniques, in unison, to concentrate large numbers of fish from large waterbodies to a defined collection location.  We used a combination of boat electrofishing, electrified trawling, and boat-mounted acoustic deterrents to drive fish from a series of block-netted cells in the lake to concentrate fish.  Driving methods were extremely successful and 80% of the lake was mostly cleared of fish in seven days of work.  Fish behavior eventually changed when high concentrations were created and driving methods had greatly reduced effectiveness.  Fish were not successfully driven into an Iruka-style stownet likely due to a combination of water depth, physical location, and mouth opening size.  We used beach seining techniques using block nets to capture large schools of fish that had formed.  Four seine hauls resulted in 108 metric tons of Asian carp removed from the lake.  Preliminary estimates suggest that at least 50% of the Asian carp (> 40,000 fish) were harvested from the lake.  Analyses of companion environmental DNA, hyrdoacoustics, and mark-recapture data will provide additional information on efficiency of harvest. 

Monday January 28, 2019 3:40pm - 4:00pm EST

4:00pm EST

(FISHERIES: INVASIVE SPECIES 1) History and Issues in Controlling the Bighead and Silver Carps in the Mississippi Basin
AUTHORS: Maurice Sadowsky, President, MJSTI Corp.

ABSTRACT: The bighead and silver carps (combined bigheaded) are an alien invasive species that escaped from aquaculture around 1980.  About 35 years later an estimated 12 to 30 million fish inhabit about 6,400 miles of the Mississippi Basin.  Every year the fish expand their territory and or their bio-mass density on the margins of their habit.The paper uses literature and Asian Carp Regional Coordinating Committee (ACRCC) and other government reports to review the programs to control these fish.  The ACRCC funds three major efforts: barriers, education/early detection/enforcement and population control.  Each division will be reviewed.The paper will then discuss the realities of controlling the bigheaded carp.

Monday January 28, 2019 4:00pm - 4:20pm EST

4:20pm EST

(FISHERIES: INVASIVE SPECIES 1) Examination of a Modular Electrical Barrier for Deterring Fish Movements
AUTHORS: Scott F Collins, Anthony Porreca, Michael Nannini, Joseph Parkos III, David Wahl – INHS

ABSTRACT: A modular electrical barrier (MEB) was developed as a tool to deter or disrupt the movement of fishes for the purposes of an adaptive approach to pest management.  The design required a non-physical barrier that would not impede boat traffic or floating debris, sufficient power to generate an electrical field at a diverse set of locations, modularity such that the MEB can be transported to logistically feasible locations, and be safely operable by fisheries professionals. The MEB system consists of generators which provide power to one or multiple 5-kW pulsers which modulate the electrical output to the electrodes (anode and cathode steel cables).  Individual pulsers can be linked to fit location dimensions (depth, width, conductivity). To test the effectiveness of the MEB, we conducted an experiment consisting of two trials in separate 0.4-ha ponds.  For each trial, we constructed a large RFID antenna (1 × 30 m) and PIT-tagged (23 × 3.85 mm HDX tags) individual fish from 8 species (4 invasive, 3 native) in order to track fish activity (total detections; average detections) in response to operation of the MEB.  When the MEB was off, ambient fish activity ranged from 500-1600 detections per day.  While the MEB was on, the number of fish detections dropped to only 7 total (6 or 0.05% of trial 1; 1 or 0.01% of trial 2), and most detections were associated with fish mortality.  After the MEB was turned off, fish detections increased after a few hours, and fish activity returned to peak numbers after 4.5 days.  Findings from this experiment indicate that the MEB can greatly deter fish movements; however, like all non-physical barriers, it may not be 100% effective at stopping fish.

Monday January 28, 2019 4:20pm - 4:40pm EST

4:40pm EST

(FISHERIES: INVASIVE SPECIES 1) Selective, Safe and Low Cost Piscicide
AUTHORS: Maurice Sadowsky, President, MJSTI Corp.

ABSTRACT: MJSTI proved a selective, safe and low-cost fish pesticide with the goal of controlling the bighead and silver carps (bigheaded carps).  The technology and experiments will be discussed and compared to the USGS antimycin A/beeswax formulation (with patent lawyers’ approval).  The US patent should be submitted in 2018.  The formulation is selective as a digestive poison.  It is safe using FDA additives.  The average raw material cost is 1/12 to 1/30<sup>th</sup> of MJSTI’s estimated USGS antimycin A/beeswax raw material cost.  The EPA registration should be for a new formulation since the component chemicals are all EPA registered pesticide ingredients.  The technology has application for other fish including common carp and potentially grass carp.

Monday January 28, 2019 4:40pm - 5:00pm EST

Filter sessions
Apply filters to sessions.
  • Main Agenda Item
  • Poster
  • S01: Using Standardized Assessments to Evaluate Harvest Regulations: Advancing Science-Based Fisheries Management
  • S02: Eastern Massasauga Conservation - Management - Recovery
  • S03: Application of environmental DNA-based tools for aquatic invasive species monitoring and management
  • S04: Great Lakes Trophic Structure: Innovations and ongoing studies of predatory fishes
  • S05: Migratory wildlife collisions with manmade structures: monitoring - prevention - patterns from collision data
  • S06: Considering New Paradigms in the Management of Beaver - Trout - Riparian Habitats
  • S07: Use of Acoustic Telemetry to Inform Fisheries Management Across Midwestern US and Canada
  • S08: Science in service to wetlands conservation and wildlife management in the lower Great Lakes region: history - status - state of the art
  • S09: Carbon Dioxide As An Aquatic Resource Management Tool
  • S10: The Ohio Biodiversity Conservation Partnership: An Innovative University-State Agency Partnership for Conservation in Ohio
  • S11: Dreissenid Mussels: Advancements in control - detection - management - biology
  • S12: Reading the aquatic landscape and connecting restoration design
  • S13: Sea Grant role in communicating needs to inform research and conservation
  • S14: Bridging the Gap between Fish and Wildlife: Discussions on Multi-Species Interactions and Ecosystem Stability
  • S15: Collaborating with community members: the human side of fish and wildlife management and research
  • S16: Agriculture and Wildlife Coexistence in the Midwest United States
  • Student Event
  • T01: Fisheries: Great Lakes I
  • T02: Wildlife: Urban-Wildlife Conflict
  • T03: Fisheries: Behavior & Physiology
  • T04: Wildlife: Wetland Conservation
  • T05: Lightning Talk Session: Fisheries
  • T06: Human Dimensions: Fisheries I
  • T07: Fisheries: Rivers & Streams
  • T08: Wildlife: Waterfowl
  • T09: Human Dimensions: Wildlife
  • T10: Fisheries: Invasive Species I
  • T11: Fisheries: Fish Conservation
  • T12: Wildlife: Cervids
  • T13: Fisheries: Habitat
  • T14: Fisheries: Great Lakes II
  • T15: Fisheries: Lakes & Reservoirs
  • T16: Fisheries: Invertebrates
  • T17: Wildlife: Mammals
  • T18: Human Dimensions: Policy & Engagement
  • T19: Fisheries: Early Life History
  • T20: Wildlife: Upland I
  • T21: Fisheries: Invasive Species II
  • T22: Wildlife: Turtles
  • T23: Fisheries: Big Rivers
  • T24: Wildlife: Upland II
  • T25: Fisheries: Techniques
  • T26: Fisheries: Invasive Species III
  • T27: Wildlife: Avian
  • T28: Lightning Talk Session: Wildlife
  • T29: Human Dimensions: Fisheries II
  • Workshop