Pet Project or Best Project? Online Decision Support Tools for Prioritizing Barrier Removals in the Great Lakes and Beyond

TitlePet Project or Best Project? Online Decision Support Tools for Prioritizing Barrier Removals in the Great Lakes and Beyond
Publication TypeJournal Article
Year of Publication2017
AuthorsMoody, Allison T., Neeson Thomas M., Wangen Steve, Dischler Jeff, Diebel Matthew W., Milt Austin, Herbert Matthew, Khoury Mary, Yacobson Eugene, Doran Patrick J., Ferris Michael C., O'Hanley Jesse R., and McIntyre Peter B.
JournalFisheries
Volume42
Issue1
Pagination57 - 65
Date PublishedFeb-01-2017
ISSN0363-2415
Keywordsbarrier removal, Great Lakes, migratory fish, tributary connectivity
Abstract

Structures that block movement of fish through river networks are built to serve a variety of societal needs, including transportation, hydroelectric power, and exclusion of exotic species. Due to their abundance, road crossings and dams reduce the amount of habitat available to fish that migrate from the sea or lakes into rivers to breed. The benefits to fish of removing any particular barrier depends on its location within the river network, its passability to fish, and the relative position of other barriers within the network. Balancing the trade-offs between ecological and societal values makes choosing among potential removal projects difficult. To facilitate prioritization of barrier removals, we developed an online decision support tool (DST) with three functions: (1) view existing barriers at various spatial scales; (2) modify information about barriers, including removal costs; and (3) run optimization models to identify portfolios of removals that provide the greatest amount of habitat access for a given budget. A survey of available DSTs addressing barrier removal prioritization indicates that barrier visualization is becoming widespread but few tools allow dynamic calculation of connectivity metrics, scenario analysis, or optimization. Having these additional functions, our DST enables organizations to develop barrier removal priorities based on cost-effectiveness in restoring aquatic connectivity.

 

URLhttp://doi.wiley.com/10.1080/03632415.2016.1263195
DOI10.1080/03632415.2016.1263195
Short TitleFisheries