Jean V Adams, PhD (Former Employee)
Science and Products
Filter Total Items: 80
Quantifying Great Lakes sea lamprey populations using an index of adults Quantifying Great Lakes sea lamprey populations using an index of adults
Effective control of aquatic invasive species requires knowledge of the population throughout the infested area. Lake-wide assessments of invasive sea lampreys (Petromyzon marinus) are used to assess their status in the Laurentian Great Lakes, informing fisheries managers and decision makers in the sea lamprey control program. Initially these assessments focused on an estimate of...
Authors
Jean V. Adams, Jessica M. Barber, Gale A Bravener, Sean A. Lewandoski
Trade-offs between suppression and eradication of sea lampreys from the Great Lake Trade-offs between suppression and eradication of sea lampreys from the Great Lake
Ecosystem managers confronted with newly invasive species may respond with a program of suppression or eradication. Suppression of an invasive species refers to management of a species such that its effect on other biota in the local ecosystem is acceptable. Eradication is the removal of all individuals of a species from a defined region. We examine the cost and benefit trade-offs...
Authors
Jean V. Adams, Oana Birceanu, W. Lindsay Chadderton, Michael L. Jones, Jesse M. Lepak, Titus S Selheimer, Todd B. Steeves, W. Paul Sullivan, Jill Wingfield
A review of an electric weir and fishway in a Great Lakes tributary from conception to termination A review of an electric weir and fishway in a Great Lakes tributary from conception to termination
A successful management plan requires clear goals and a process for evaluation. Without them, managers risk operational shifts in which continuous changes disguised as improvements may have little beneficial effect. The conception, design, and operation of an electric barrier and fishway on the Pere Marquette River of Lake Michigan serve as an illustration. The Great Lakes Fishery...
Authors
Jenna Tews, Jean V. Adams, Kevin Mann, Ellie Koon, John Heinrich
Investigating apparent misalignment of predator-prey dynamics: Great Lakes lake trout and sea lampreys Investigating apparent misalignment of predator-prey dynamics: Great Lakes lake trout and sea lampreys
Interpreting ecological dynamics is challenging when observed patterns are not aligned with presumed models. Investigating possible sources of uncertainty is critical to understand the underlying system and ultimately inform management decisions. In this study, we used simulation to investigate the hypothesis that observed inconsistencies in Great Lakes lake trout (Salvelinus namaycush)...
Authors
Jean V. Adams, Michael L. Jones, James R. Bence
Winter severity, fish community, and availability to traps explain most of the variability in estimates of adult sea lamprey in Lake Superior Winter severity, fish community, and availability to traps explain most of the variability in estimates of adult sea lamprey in Lake Superior
Animal populations are assessed to estimate rates of artificial and natural mortality at ecologically relevant spatial and temporal scales to develop exploitation quotas. But how the population’s natural mortality rate and how the ability to observe the population changes through time are poorly understood in most invasive fishes, despite efforts to control their populations. By...
Authors
Nicholas S. Johnson, Jean V. Adams, Gale Bravener, Jessica Barber, Ted Treska, Michael J Siefkes
Using simulation to understand annual sea lamprey marking rates on lake trout Using simulation to understand annual sea lamprey marking rates on lake trout
Sea lampreys attack fish, killing some and leaving marks on others. Great Lakes fishery managers rely on observed marking rates to assess the success of the sea lamprey control program and estimate sea lamprey-induced mortality of lake trout. Because marking rates are only observed on survivors of sea lamprey attacks, they may not provide a reliable index of actual attack or mortality...
Authors
Jean V. Adams, Michael L. Jones, James R. Bence
Science and Products
Filter Total Items: 80
Quantifying Great Lakes sea lamprey populations using an index of adults Quantifying Great Lakes sea lamprey populations using an index of adults
Effective control of aquatic invasive species requires knowledge of the population throughout the infested area. Lake-wide assessments of invasive sea lampreys (Petromyzon marinus) are used to assess their status in the Laurentian Great Lakes, informing fisheries managers and decision makers in the sea lamprey control program. Initially these assessments focused on an estimate of...
Authors
Jean V. Adams, Jessica M. Barber, Gale A Bravener, Sean A. Lewandoski
Trade-offs between suppression and eradication of sea lampreys from the Great Lake Trade-offs between suppression and eradication of sea lampreys from the Great Lake
Ecosystem managers confronted with newly invasive species may respond with a program of suppression or eradication. Suppression of an invasive species refers to management of a species such that its effect on other biota in the local ecosystem is acceptable. Eradication is the removal of all individuals of a species from a defined region. We examine the cost and benefit trade-offs...
Authors
Jean V. Adams, Oana Birceanu, W. Lindsay Chadderton, Michael L. Jones, Jesse M. Lepak, Titus S Selheimer, Todd B. Steeves, W. Paul Sullivan, Jill Wingfield
A review of an electric weir and fishway in a Great Lakes tributary from conception to termination A review of an electric weir and fishway in a Great Lakes tributary from conception to termination
A successful management plan requires clear goals and a process for evaluation. Without them, managers risk operational shifts in which continuous changes disguised as improvements may have little beneficial effect. The conception, design, and operation of an electric barrier and fishway on the Pere Marquette River of Lake Michigan serve as an illustration. The Great Lakes Fishery...
Authors
Jenna Tews, Jean V. Adams, Kevin Mann, Ellie Koon, John Heinrich
Investigating apparent misalignment of predator-prey dynamics: Great Lakes lake trout and sea lampreys Investigating apparent misalignment of predator-prey dynamics: Great Lakes lake trout and sea lampreys
Interpreting ecological dynamics is challenging when observed patterns are not aligned with presumed models. Investigating possible sources of uncertainty is critical to understand the underlying system and ultimately inform management decisions. In this study, we used simulation to investigate the hypothesis that observed inconsistencies in Great Lakes lake trout (Salvelinus namaycush)...
Authors
Jean V. Adams, Michael L. Jones, James R. Bence
Winter severity, fish community, and availability to traps explain most of the variability in estimates of adult sea lamprey in Lake Superior Winter severity, fish community, and availability to traps explain most of the variability in estimates of adult sea lamprey in Lake Superior
Animal populations are assessed to estimate rates of artificial and natural mortality at ecologically relevant spatial and temporal scales to develop exploitation quotas. But how the population’s natural mortality rate and how the ability to observe the population changes through time are poorly understood in most invasive fishes, despite efforts to control their populations. By...
Authors
Nicholas S. Johnson, Jean V. Adams, Gale Bravener, Jessica Barber, Ted Treska, Michael J Siefkes
Using simulation to understand annual sea lamprey marking rates on lake trout Using simulation to understand annual sea lamprey marking rates on lake trout
Sea lampreys attack fish, killing some and leaving marks on others. Great Lakes fishery managers rely on observed marking rates to assess the success of the sea lamprey control program and estimate sea lamprey-induced mortality of lake trout. Because marking rates are only observed on survivors of sea lamprey attacks, they may not provide a reliable index of actual attack or mortality...
Authors
Jean V. Adams, Michael L. Jones, James R. Bence