Event Title

Session A3 - Survival improvements at Fish Guidance Systems designed to improve safe downstream passage of anadromous and catadromous fish

Location

UMass Amherst

Event Website

http://fishpassage.ecs.umass.edu/Conference2012/

Start Date

5-6-2012 4:05 PM

End Date

5-6-2012 4:25 PM

Description

Many anadromous fish species, such as Pacific and Atlantic salmon (Onchorhynchus spp., Salmo salar), the shads and river herring (Alosa spp.), and catadromous species including the American eel (Anguilla rostrata), are in danger of extinction throughout some or all of their range. Impacts to these populations include entrainment at hydroelectric dams and other water conveyance facilities. State and federal laws now mandate protection of these and other fish populations. Facility operators must often implement physical or operational modifications to reduce fish entrainment. This presentation will document the improved juvenile fish passage survival results at several Fish Guidance System (FGS) installations in North America. The FGS has been demonstrated to successfully guide downstream migrating fish to safer bypass routes, thereby reducing entrainment and improving survival. Most fish species migrate downstream in the thalweg, taking advantage of higher water velocities. The FGS is designed to exploit this migratory behavior and guide fish to a safer point of egress. The FGS is composed of a series of floating panels anchored across the river channel. The design and configuration of the FGS varies at each site according to hydraulic conditions and species present. Acoustic telemetry and hydroacoustic studies conducted on various FGS installations indicate that from 53% to upwards of 92% of downstream migrating juvenile Pacific and Atlantic salmon were successfully guided to a safer bypass route in a variety of facility configurations and hydraulic conditions. Further research is needed, but the FGS should also provide significant survival benefits to other downstream migrating fish species that demonstrate similar migration behavior, including juvenile shad and herring (Alosa spp.), adult eels (A. rostrata) and kelts (O. mykiss, S. salar).

Comments

Shane Scott is a fisheries biologist and owner of S. Scott & Associates LLC in Vancouver, WA. He currently works with utilities and other river oriented industries to develop facility operations and projects to improve fish passage survival through hydroelectric dams and related facilities. Previously he worked with the Washington Department of Fish and Wildlife and Tacoma Power where he developed fish protection and mitigation policies and projects.

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Jun 5th, 4:05 PM Jun 5th, 4:25 PM

Session A3 - Survival improvements at Fish Guidance Systems designed to improve safe downstream passage of anadromous and catadromous fish

UMass Amherst

Many anadromous fish species, such as Pacific and Atlantic salmon (Onchorhynchus spp., Salmo salar), the shads and river herring (Alosa spp.), and catadromous species including the American eel (Anguilla rostrata), are in danger of extinction throughout some or all of their range. Impacts to these populations include entrainment at hydroelectric dams and other water conveyance facilities. State and federal laws now mandate protection of these and other fish populations. Facility operators must often implement physical or operational modifications to reduce fish entrainment. This presentation will document the improved juvenile fish passage survival results at several Fish Guidance System (FGS) installations in North America. The FGS has been demonstrated to successfully guide downstream migrating fish to safer bypass routes, thereby reducing entrainment and improving survival. Most fish species migrate downstream in the thalweg, taking advantage of higher water velocities. The FGS is designed to exploit this migratory behavior and guide fish to a safer point of egress. The FGS is composed of a series of floating panels anchored across the river channel. The design and configuration of the FGS varies at each site according to hydraulic conditions and species present. Acoustic telemetry and hydroacoustic studies conducted on various FGS installations indicate that from 53% to upwards of 92% of downstream migrating juvenile Pacific and Atlantic salmon were successfully guided to a safer bypass route in a variety of facility configurations and hydraulic conditions. Further research is needed, but the FGS should also provide significant survival benefits to other downstream migrating fish species that demonstrate similar migration behavior, including juvenile shad and herring (Alosa spp.), adult eels (A. rostrata) and kelts (O. mykiss, S. salar).

http://scholarworks.umass.edu/fishpassage_conference/2012/June5/44