Add to ORKGThe U.S. Fish and Wildlife Service (FWS), Lower Great Lakes Fish and Wildlife Conservation Office is partnering with the New York State Department of Environmental Conservation (DEC), Bureau of Fisheries to evaluate aquatic organism passage(AOP) in targeted NY subwatersheds of Lake Ontario. Specifically, FWS surveyed road crossings on streams found to support pearly mussel populations to determine AOP; DEC surveyed those same streams for mussel populations. The objectives of the study are to 1) determine the locations of AOP barriers caused by road crossings, 2) determine the locations of the mussel populations, primarily Species of Greatest Conservation Need, 3) determine if the AOP barriers are impeding the movements of potential host-fis...
First reported in the Great Lakes basin in 1988, the zebra mussel (Dreissena polymorpha) has spread ...
Many anadromous fish species, such as Pacific and Atlantic salmon (Onchorhynchus spp., Salmo salar),...
Improperly designed road crossings act as barriers to movement of aquatic organisms and can depress ...
The U.S. Fish and Wildlife Service (FWS), Lower Great Lakes Fish and Wildlife Conservation Office is...
Anthropogenic fragmentation of river and stream corridors is often identified with remnant dams thro...
Longitudinal connectivity of flowing water ecosystems has been dramatically altered by the widesprea...
Abstract: Barriers interfere with aquatic connectivity by preventing or limiting migratory fishes fr...
Road-stream crossings have the potential to block stream fish movement and fragment habitat. In 2005...
The River and Stream continuity Partnership has developed assessment protocols for evaluating the ba...
The Acushnet River has been the focus of much diadromous fish passage restoration work in recent yea...
Fish connectivity analyses on the East and West coasts of the United States have traditionally focus...
Beginning in 2004, the Vermont Department of Fish and Wildlife, with assistance from the Vermont Dep...
The Ohio River was historically a free-flowing system with diverse fish and freshwater mussel commun...
This paper gives a general inventory of mussels in the Broad and upper Congaree Rivers
The brook floater (Alasmidonta varicosa) is a freshwater mussel (Order: Unionida) native to Atlantic...
First reported in the Great Lakes basin in 1988, the zebra mussel (Dreissena polymorpha) has spread ...
Many anadromous fish species, such as Pacific and Atlantic salmon (Onchorhynchus spp., Salmo salar),...
Improperly designed road crossings act as barriers to movement of aquatic organisms and can depress ...
The U.S. Fish and Wildlife Service (FWS), Lower Great Lakes Fish and Wildlife Conservation Office is...
Anthropogenic fragmentation of river and stream corridors is often identified with remnant dams thro...
Longitudinal connectivity of flowing water ecosystems has been dramatically altered by the widesprea...
Abstract: Barriers interfere with aquatic connectivity by preventing or limiting migratory fishes fr...
Road-stream crossings have the potential to block stream fish movement and fragment habitat. In 2005...
The River and Stream continuity Partnership has developed assessment protocols for evaluating the ba...
The Acushnet River has been the focus of much diadromous fish passage restoration work in recent yea...
Fish connectivity analyses on the East and West coasts of the United States have traditionally focus...
Beginning in 2004, the Vermont Department of Fish and Wildlife, with assistance from the Vermont Dep...
The Ohio River was historically a free-flowing system with diverse fish and freshwater mussel commun...
This paper gives a general inventory of mussels in the Broad and upper Congaree Rivers
The brook floater (Alasmidonta varicosa) is a freshwater mussel (Order: Unionida) native to Atlantic...
First reported in the Great Lakes basin in 1988, the zebra mussel (Dreissena polymorpha) has spread ...
Many anadromous fish species, such as Pacific and Atlantic salmon (Onchorhynchus spp., Salmo salar),...
Improperly designed road crossings act as barriers to movement of aquatic organisms and can depress ...