Fish Passage Assessment Inventory And Prioritization Of Culverts On The Ketchikan Petersburg And Wrangell Road Systems 2013 2016
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| Author | : Gillian O'Doherty |
| Publisher | : |
| Total Pages | : 87 |
| Release | : 2021 |
| Genre | : Culverts |
| ISBN | : |
Between 2013 and 2016, Alaska Department of Fish and Game’s Fish Passage Assessment Project assessed 197 stream crossing sites on over 183 miles of road in the communities of Petersburg, Ketchikan, and Wrangell. The project rated 129 sites Red, or crossings assumed inadequate for juvenile fish passage; 43 sites Gray, or crossings that may be inadequate for juvenile fish passage; 20 sites Green, or crossings likely to provide adequate juvenile fish passage; and 5 sites Black, or sites that could not be rated. The project also found 57 sites considered to be potential adult barriers that had either an outfall height over 1 ft, an average culvert gradient exceeding 4% while not being embedded, or both.
| Author | : Gillian O'Doherty |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2022 |
| Genre | : Culverts |
| ISBN | : |
Between 2000 and 2011, the Alaska Department of Fish and Game’s Fish Passage Assessment Project assessed 567 stream crossing sites within the Matanuska-Susitna Borough. The project rated 295 sites Red (crossings assumed inadequate for juvenile fish passage), 107 sites Gray (crossings that may be inadequate for juvenile fish passage), 157 sites Green (crossings likely to provide adequate juvenile fish passage), and 8 sites Black (sites that could not be rated). The project also identified potential barriers to adult salmon, namely 67 culverts with an outfall height over 1 ft and 89 culverts with an average gradient exceeding 4% and not embedded.
| Author | : Mark Eisenman (Habitat biologist) |
| Publisher | : |
| Total Pages | : 75 |
| Release | : 2018 |
| Genre | : Culverts |
| ISBN | : |
The Alaska Department of Fish and Game's Fish Passage Assessment project assessed culvert sites on the road systems of Cold Bay in October 2014 and King Cove in August 2015. In Cold Bay the project assessed 10 sites and rated 6 Red, or assumed to be inadequate for fish passage; 3 Gray, or unlikely to allow adequate fish passage; and 1 Green, or likely to provide fish passage. In King Cove the project assessed 20 culvert sites, and rated 6 Red, 7 Gray, and 7 Green.
| Author | : Mark Eisenman (Habitat biologist) |
| Publisher | : |
| Total Pages | : 111 |
| Release | : 2020 |
| Genre | : Culverts |
| ISBN | : |
The Alaska Department of Fish and Game assessed 345 fish passage sites on fifty-four miles of road in the northern Southeast Alaska communities of Gustavus, Haines, Juneau, Skagway, and Sitka in 2011 and 2012. Of those sites, the project rated 142 sites as "green," adequate for juvenile fish passage; 102 sites as "red," assumed inadequate for fish passage; 85 sites as "gray," unlikely to allow adequate fish passage; and 16 sites as "black," unable to be rated. The culverts that were inventoried and rated are on state and locally managed roads.
| Author | : Calvin O. Baker |
| Publisher | : |
| Total Pages | : 84 |
| Release | : 1990 |
| Genre | : Culverts |
| ISBN | : |
The success of fish migration through culverts is dependent on the swimming ability of the fish and the hydraulic conditions of the culvert. Properly designed and constructed culverts can minimize the impact on fish passage. Because culverts are typically more economical than bridges, it is appropriate to evaluate when to use culverts and to predict the effects of such culvert installations. During the consideration of alternatives for structures for fish passage, culverts should not be automatically eliminated. This publication has tried to examine the aspects of culvert design and operation relative to the existing information that has been published in previous studies. Ideally, a culvert installation should not change the conditions that existed prior to that installation. This means that the cross-sectional area should not be restricted by the culvert, the slope should not change, and the roughness coefficients should remain the same. Any change in these conditions will result in a velocity change which could alter the sediment transportation capacity of the stream. A truly successful culvert design would include matching the velocities of the fish's swimming zone in the culvert to the swimming capacity of the design fish. Unfortunately, not enough research has been completed to make this an acceptable criterion of culvert design. This approach is preferred because it is easier to reduce the velocities in the swimming zone by increasing the boundary roughness than it is to reduce the mean velocity of the entire culvert. This publication contains some relatively simple guidelines which can reduce the installation problems of culverts in streams containing migrating fish when combined with the expertise of an experience fish biologist, engineer, and hydrologist.
| Author | : Gillian O'Doherty |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2022 |
| Genre | : Culverts |
| ISBN | : |
In 2014 and 2017, the Alaska Department of Fish and Game Fish Passage Assessment Project assessed 169 crossings on over 98 miles of roads on the road system of Prince of Wales Island. The project rated 66 sites Red, or crossing determined inadequate for juvenile fish passage; 67 sites Gray, or crossing may be inadequate for juvenile fish passage; 35 sites Green, or crossing likely to provide adequate juvenile fish passage; and 1 site Black, or site unable to be rated. Additionally, the project identified 23 sites that were a potential barrier to adult fish with a culvert gradient over 4%, 31 sites with a culvert outfall over 1 ft, and 7 of those sites that had both potential adult passage barriers.
| Author | : Natalie Kruse Daniels |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2022 |
| Genre | : Fish habitat improvement |
| ISBN | : |
Culverts can be an impediment to fish passage, impacting fish populations and spawning of both migratory and non-migratory species. With increased opportunities to invest in both water resources and infrastructure, prioritizing and selecting potential locations for culvert replacement to remove fish barriers is timely. In this project, we engaged with stakeholders in the eastern basin of Lake Erie to discuss and visit both potential and completed culvert replacement project sites; these stakeholders would be strong potential partners for ODOT in the future. The OHIO team also reviewed approved NPS-IS plans for identification of fish passage barriers that may be useful planning and design-ready project sites for ODOT to pursue if funding were available. The OHIO team also developed a method to prioritize and identify potential culvert replacement project locations using a GIS-based analysis. Culverts in target, high quality watersheds on perennial or intermittent streams are identified. Their openness ratio is then calculated; a low openness ratio is poor for fish passage and suggests that the site could be a good candidate. Aerial imagery and LiDAR data are then used to calculate an average slope of the culvert from the streambed upstream to the streambed downstream of the culvert. A high average slope would suggest either a highly sloped culvert or a low to moderate slope culvert with a vertical disconnection on the downstream end; either case would be poor for fish passage. Natural breaks in the data suggested that sites with high slope (>10%) and sites with moderate slope (4-10%) should be field verified as potential project sites.
| Author | : Steven W. Albert |
| Publisher | : |
| Total Pages | : 69 |
| Release | : 2007 |
| Genre | : Culverts |
| ISBN | : |
Providing for adequate fish passage at road crossings using culverts is an important component of both the management of fisheries and state roadways. This study was initiated by the Alaska Department of Fish and Game and U.S. Fish & Wildlife Service to determine the status of fish passage conditions through culverts located within the Municipality of Anchorage. An evaluation of 241 stream crossing sites with 295 culverts along state highways and secondary roads was conducted between June 22 and July 21, 2004. Specific evaluation criteria were applied to each site to assess fish passage status. The three primary criteria included culvert slope, a measurement describing the degree of channel constriction at the culvert, and culvert outfall height. Crossings were then classified as RED (conditions assumed inadequate for fish passage), GRAY (additional data collection and analysis needed), or GREEN (assumed adequate for fish passage).
| Author | : Thomas J. McClellan |
| Publisher | : |
| Total Pages | : 326 |
| Release | : 1970 |
| Genre | : Culverts |
| ISBN | : |
| Author | : Aaron E. Beavers |
| Publisher | : |
| Total Pages | : 250 |
| Release | : 2008 |
| Genre | : Culverts |
| ISBN | : |
UDOT is responsible for approximately 47,000 culverts, 5% of which carry live streams. Fish passage is addressed only on an as-needed basis. Currently UDOT has no prioritization or assessment strategy procedure for fish passage at UDOT road-stream crossings. This research will provide UDOT with culvert prioritization and fish passage assessment protocols.
