Aaron Cupp
Aaron Cupp
Science and Products
Filter Total Items: 37
Field application of carbon dioxide as a behavioral control method for invasive red swamp crayfish (Procambarus clarkii) in southeastern Michigan water retention ponds
This study evaluated carbon dioxide (CO2) injected into water as a possible behavioral stimulant to enhance capture and removal of invasive red swamp crayfish (RSC, Procambarus clarkii [Girard, 1852]) from a retention pond in southeastern Michigan. Objectives of this study were (1) to determine if target CO2 concentrations were attainable within the infested pond and (2) to determine if CO2 treatm
Authors
Justin Smerud, Jose Rivera, Todd Johnson, John Tix, Kim T. Fredricks, Matthew Barbour, Seth Herbst, Sara Thomas, Lucas Nathan, Brian Roth, Kelley Smith, Ann Allert, Jim Stoeckel, Aaron R. Cupp
Performance of a carbon dioxide injection system at a navigation lock to control the spread of aquatic invasive species
Natural resource agencies need effective strategies to control the spread of aquatic invasive species (AIS) such as invasive fish, which can expand their range using rivers as hydrological pathways to access new areas. Lock and dam structures within major rivers are prospective locations to deploy techniques, such as carbon dioxide (CO2) infusion into lock water, that could impede upstream AIS mig
Authors
Thomas J. Zolper, David Smith, P. Ryan Jackson, Aaron R. Cupp
Emerging control strategies for integrated pest management of invasive carps
Invasive carps are ecologically and economically problematic fish species in many large river basins in the United States and pose a threat to aquatic ecosystems throughout much of North America. Four species of invasive carps: black carp (Mylopharyngodon piceus), grass carp (Ctenopharyngodon idella), silver carp (Hypophthalmichthys molitrix) and bighead carp (Hypophthalmichthys nobilis), are part
Authors
Aaron R. Cupp, Marybeth K. Brey, Robin D. Calfee, Duane Chapman, Richard A. Erickson, Jesse Robert Fischer, Andrea K. Fritts, Amy E. George, P. Ryan Jackson, Brent C. Knights, Gavin N. Saari, Patrick Kočovský
Evaluation of dissolved carbon dioxide to stimulate emergence of red swamp crayfish Procambarus clarkii (Decapoda: Cambaridae) from infested ponds
Invasive crayfish have adverse effects on habitats and native species. Control of invasive crayfish populations is a major challenge facing natural resource managers. This study evaluated the effectiveness and optimal conditions for the control agent carbon dioxide (CO2) which can be diffused into water to facilitate capture of red swamp crayfish (Procambarus clarkii; RSC). The efficacy of CO2 sho
Authors
Hisham Abdelrahman, Rebecca Gibson, Kaelyn Fogelman, Aaron R. Cupp, Ann Allert, James Stoeckel
Decision analysis of barrier placement and targeted removal to control invasive carp in the Tennessee River Basin
Controlling range expansion of invasive carp (specifically Hypophthalmichthys spp.) on the Tennessee River is important to conserve the ecological and economic benefits provided by the river. We collaborated with State and Federal agencies (the stakeholder group) to develop a decision framework and decision support model to evaluate strategies to control carp expansion in the Tennessee River. Usin
Authors
Max Post van der Burg, David R. Smith, Aaron R. Cupp, Mark W. Rogers, Duane Chapman
Chemical controls for an integrated pest management program
Chemical controls ranging from natural products to synthesized chemicals are widely used in aquatic pest management activities. Chemicals can be used to lure organisms to traps or can cause direct mortality by altering the physiological function of an organism. Much of what is known about controlling pests with chemicals is from research done on terrestrial pesticides. This paper focuses on how ch
Authors
Kim T. Fredricks, Terrance D. Hubert, Jon Amberg, Aaron R. Cupp, Verdel K. Dawson
Telemetry evaluation of carbon dioxide as a behavioral deterrent for invasive carps
Carbon dioxide (CO2) mixed into water is being explored as a possible management strategy to deter the upstream movements of invasive carps through navigation locks and other migratory pinch-points. This study used two-dimensional acoustic telemetry to assess the effectiveness of dissolved CO2 as a chemosensory deterrent to two carp species in a large U-shaped pond. Free-swimming movements of tele
Authors
Aaron R. Cupp, Ashley K Lopez, Justin Smerud, John A. Tix, Jose Rivera, Nicholas M. Swyers, Marybeth K. Brey, Christa M. Woodley, David L. Smith, Mark P. Gaikowski
Using Markov chains to quantitatively assess movement patterns of invasive fishes impacted by a carbon dioxide barrier in outdoor ponds
Natural resource managers use barriers to deter the movement of aquatic invasive species. Research and development of new invasive species barriers is often evaluated in pond and field scales using high‐resolution telemetry data. Telemetry data sets can be a rich source of data about fish movement and behavior but can be difficult to analyze due to the size of these data sets as well as their irre
Authors
Lauren K Borland, Collin J Mulcahy, Barb Bennie, Douglas D Baumann, Roger J. Haro, Molly Van Appledorn, Kathi Jo Jankowski, Aaron R. Cupp, Richard A. Erickson
Toxicity of carbon dioxide to freshwater fishes: Implications for aquatic invasive species management
Carbon dioxide (CO2) has been approved by the US Environmental Protection Agency as a new aquatic pesticide to control invasive Asian carps and other aquatic nuisance species in the United States. However, limited CO2 toxicity data could make it challenging for resource managers to characterize the potential risk to nontarget species during CO2 applications. The present study quantified the toxici
Authors
Aaron R. Cupp, Justin Smerud, Linnea M Thomas, Diane L. Waller, David L. Smith, Richard A. Erickson, Mark P. Gaikowski
Laboratory trials to evaluate carbon dioxide as a potential behavioral control method for invasive red swamp (Procambarus clarkii) and rusty crayfish (Faxonius rusticus)
Few effective strategies are available to control invasive crayfishes. Carbon dioxide (CO2) acts as a behavioral deterrent for invasive fishes and could be a useful crayfish control tool. The objective of this laboratory study was to quantify CO2 concentrations that caused red swamp crayfish (RSC; Procambarus clarkii) and rusty crayfish (RYC; Faxonius rusticus) avoidance behavior, altered emergenc
Authors
Kim T. Fredricks, John A. Tix, Justin Smerud, Aaron R. Cupp
Investigating the mixing efficiencies of liquid-to-liquid chemical injection manifolds for aquatic invasive species management
Aquatic invasive species (AIS) have spread throughout the United States via major rivers and tributaries. Locks and dams positioned along affected waterways, specifically lock chambers, are being evaluated as potential management sites to prevent further expansion into new areas. Recent research has shown that infusion of chemicals (e.g., carbon dioxide) into water can block or kill several invasi
Authors
Thomas J. Zolper, Aaron R. Cupp, David L. Smith
Effects of formaldehyde on nitrification in biofilters of small‐scale recirculating systems
Florfenicol (Aquaflor®) is the only U.S. Food and Drug Administration (FDA) approved drug for treating diseased fish reared in recirculating aquaculture systems (RAS). Treating diseased fish in RAS is challenging because of the potential to damage nitrifying bacteria in the biofilters. Impaired nitrification can lead to concentrations of ammonia and nitrite that compromise fish welfare. The object
Authors
Kim T. Fredricks, Aaron R. Cupp, Susan M. Schleis, Richard A. Erickson, Mark P. Gaikowski
Science and Products
Filter Total Items: 37
Field application of carbon dioxide as a behavioral control method for invasive red swamp crayfish (Procambarus clarkii) in southeastern Michigan water retention ponds
This study evaluated carbon dioxide (CO2) injected into water as a possible behavioral stimulant to enhance capture and removal of invasive red swamp crayfish (RSC, Procambarus clarkii [Girard, 1852]) from a retention pond in southeastern Michigan. Objectives of this study were (1) to determine if target CO2 concentrations were attainable within the infested pond and (2) to determine if CO2 treatm
Authors
Justin Smerud, Jose Rivera, Todd Johnson, John Tix, Kim T. Fredricks, Matthew Barbour, Seth Herbst, Sara Thomas, Lucas Nathan, Brian Roth, Kelley Smith, Ann Allert, Jim Stoeckel, Aaron R. Cupp
Performance of a carbon dioxide injection system at a navigation lock to control the spread of aquatic invasive species
Natural resource agencies need effective strategies to control the spread of aquatic invasive species (AIS) such as invasive fish, which can expand their range using rivers as hydrological pathways to access new areas. Lock and dam structures within major rivers are prospective locations to deploy techniques, such as carbon dioxide (CO2) infusion into lock water, that could impede upstream AIS mig
Authors
Thomas J. Zolper, David Smith, P. Ryan Jackson, Aaron R. Cupp
Emerging control strategies for integrated pest management of invasive carps
Invasive carps are ecologically and economically problematic fish species in many large river basins in the United States and pose a threat to aquatic ecosystems throughout much of North America. Four species of invasive carps: black carp (Mylopharyngodon piceus), grass carp (Ctenopharyngodon idella), silver carp (Hypophthalmichthys molitrix) and bighead carp (Hypophthalmichthys nobilis), are part
Authors
Aaron R. Cupp, Marybeth K. Brey, Robin D. Calfee, Duane Chapman, Richard A. Erickson, Jesse Robert Fischer, Andrea K. Fritts, Amy E. George, P. Ryan Jackson, Brent C. Knights, Gavin N. Saari, Patrick Kočovský
Evaluation of dissolved carbon dioxide to stimulate emergence of red swamp crayfish Procambarus clarkii (Decapoda: Cambaridae) from infested ponds
Invasive crayfish have adverse effects on habitats and native species. Control of invasive crayfish populations is a major challenge facing natural resource managers. This study evaluated the effectiveness and optimal conditions for the control agent carbon dioxide (CO2) which can be diffused into water to facilitate capture of red swamp crayfish (Procambarus clarkii; RSC). The efficacy of CO2 sho
Authors
Hisham Abdelrahman, Rebecca Gibson, Kaelyn Fogelman, Aaron R. Cupp, Ann Allert, James Stoeckel
Decision analysis of barrier placement and targeted removal to control invasive carp in the Tennessee River Basin
Controlling range expansion of invasive carp (specifically Hypophthalmichthys spp.) on the Tennessee River is important to conserve the ecological and economic benefits provided by the river. We collaborated with State and Federal agencies (the stakeholder group) to develop a decision framework and decision support model to evaluate strategies to control carp expansion in the Tennessee River. Usin
Authors
Max Post van der Burg, David R. Smith, Aaron R. Cupp, Mark W. Rogers, Duane Chapman
Chemical controls for an integrated pest management program
Chemical controls ranging from natural products to synthesized chemicals are widely used in aquatic pest management activities. Chemicals can be used to lure organisms to traps or can cause direct mortality by altering the physiological function of an organism. Much of what is known about controlling pests with chemicals is from research done on terrestrial pesticides. This paper focuses on how ch
Authors
Kim T. Fredricks, Terrance D. Hubert, Jon Amberg, Aaron R. Cupp, Verdel K. Dawson
Telemetry evaluation of carbon dioxide as a behavioral deterrent for invasive carps
Carbon dioxide (CO2) mixed into water is being explored as a possible management strategy to deter the upstream movements of invasive carps through navigation locks and other migratory pinch-points. This study used two-dimensional acoustic telemetry to assess the effectiveness of dissolved CO2 as a chemosensory deterrent to two carp species in a large U-shaped pond. Free-swimming movements of tele
Authors
Aaron R. Cupp, Ashley K Lopez, Justin Smerud, John A. Tix, Jose Rivera, Nicholas M. Swyers, Marybeth K. Brey, Christa M. Woodley, David L. Smith, Mark P. Gaikowski
Using Markov chains to quantitatively assess movement patterns of invasive fishes impacted by a carbon dioxide barrier in outdoor ponds
Natural resource managers use barriers to deter the movement of aquatic invasive species. Research and development of new invasive species barriers is often evaluated in pond and field scales using high‐resolution telemetry data. Telemetry data sets can be a rich source of data about fish movement and behavior but can be difficult to analyze due to the size of these data sets as well as their irre
Authors
Lauren K Borland, Collin J Mulcahy, Barb Bennie, Douglas D Baumann, Roger J. Haro, Molly Van Appledorn, Kathi Jo Jankowski, Aaron R. Cupp, Richard A. Erickson
Toxicity of carbon dioxide to freshwater fishes: Implications for aquatic invasive species management
Carbon dioxide (CO2) has been approved by the US Environmental Protection Agency as a new aquatic pesticide to control invasive Asian carps and other aquatic nuisance species in the United States. However, limited CO2 toxicity data could make it challenging for resource managers to characterize the potential risk to nontarget species during CO2 applications. The present study quantified the toxici
Authors
Aaron R. Cupp, Justin Smerud, Linnea M Thomas, Diane L. Waller, David L. Smith, Richard A. Erickson, Mark P. Gaikowski
Laboratory trials to evaluate carbon dioxide as a potential behavioral control method for invasive red swamp (Procambarus clarkii) and rusty crayfish (Faxonius rusticus)
Few effective strategies are available to control invasive crayfishes. Carbon dioxide (CO2) acts as a behavioral deterrent for invasive fishes and could be a useful crayfish control tool. The objective of this laboratory study was to quantify CO2 concentrations that caused red swamp crayfish (RSC; Procambarus clarkii) and rusty crayfish (RYC; Faxonius rusticus) avoidance behavior, altered emergenc
Authors
Kim T. Fredricks, John A. Tix, Justin Smerud, Aaron R. Cupp
Investigating the mixing efficiencies of liquid-to-liquid chemical injection manifolds for aquatic invasive species management
Aquatic invasive species (AIS) have spread throughout the United States via major rivers and tributaries. Locks and dams positioned along affected waterways, specifically lock chambers, are being evaluated as potential management sites to prevent further expansion into new areas. Recent research has shown that infusion of chemicals (e.g., carbon dioxide) into water can block or kill several invasi
Authors
Thomas J. Zolper, Aaron R. Cupp, David L. Smith
Effects of formaldehyde on nitrification in biofilters of small‐scale recirculating systems
Florfenicol (Aquaflor®) is the only U.S. Food and Drug Administration (FDA) approved drug for treating diseased fish reared in recirculating aquaculture systems (RAS). Treating diseased fish in RAS is challenging because of the potential to damage nitrifying bacteria in the biofilters. Impaired nitrification can lead to concentrations of ammonia and nitrite that compromise fish welfare. The object
Authors
Kim T. Fredricks, Aaron R. Cupp, Susan M. Schleis, Richard A. Erickson, Mark P. Gaikowski