Evaluating conservation units using network analysis : a sea duck case study

Lamb, Juliet S.; Cooper-Mullin, Clara; Gilliland, Scott G.; Berlin, Alicia M.; Bowman, Timothy D.; Boyd, W. Sean; De La Cruz, Susan E. W.; Esler, Daniel; Evenson, Joseph R.; Flint, Paul; Lepage, Christine; Meattey, Dustin E.; Osenkowski, Jason E.; Paton, Peter W. C.; Perry, Matthew C.; Rosenberg, Dan; Savard, Jean-Pierre L.; Savoy, Lucas; Schamber, Jason; Ward, David H.; Takekawa, John Y.; McWilliams, Scott R.

doi:https://open-science.canada.ca/handle/123456789/2572

Evaluating conservation units using network analysis : a sea duck case study

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dc.contributor.author: Lamb, Juliet S.; Cooper-Mullin, Clara; Gilliland, Scott G.; Berlin, Alicia M.; Bowman, Timothy D.; Boyd, W. Sean; De La Cruz, Susan E. W.; Esler, Daniel; Evenson, Joseph R.; Flint, Paul; Lepage, Christine; Meattey, Dustin E.; Osenkowski, Jason E.; Paton, Peter W. C.; Perry, Matthew C.; Rosenberg, Dan; Savard, Jean-Pierre L.; Savoy, Lucas; Schamber, Jason; Ward, David H.; Takekawa, John Y.; McWilliams, Scott R.
dc.date.accessioned: 2024-06-07T18:23:03Z
dc.date.available: 2024-06-07T18:23:03Z
dc.date.issued: 2024-01-09
dc.description.abstract - en: Conserving migratory wildlife requires understanding how groups of individuals interact across seasons and landscapes. Telemetry reveals individual movements at large spatiotemporal scales; however, using movement data to define conservation units requires scaling up from individual movements to species- and community-level patterns. We developed a framework to define flyways and identify important sites from telemetry data and applied it to long-term, range-wide tracking data from three species (640 individuals) of sea ducks: namely, North American scoters (<i>Melanitta spp</i>). Our network of 88 nodes included both multispecies hotspots and areas uniquely important to individual species. We found limited spatial overlap between scoters wintering on the Atlantic and Pacific coasts of North America, with differing connectivity patterns between coasts. Finally, we identified four multispecies conservation units that did not correspond to traditional management flyways. From this approach, we show how individual movements can be used to quantify range-wide connectivity of migratory species and reveal gaps in conservation strategies.
dc.identifier.doi: https://doi.org/10.1002/fee.2648
dc.identifier.issn: 1540-9309; 1540-9295
dc.identifier.uri: https://open-science.canada.ca/handle/123456789/2572
dc.language.iso: en
dc.publisher: Ecological Society of America
dc.rights - en: Open Government Licence - Canada
dc.rights - fr: Licence du gouvernement ouvert - Canada
dc.rights.openaccesslevel - en: Green
dc.rights.openaccesslevel - fr: Vert
dc.rights.uri - en: https://open.canada.ca/en/open-government-licence-canada
dc.rights.uri - fr: https://ouvert.canada.ca/fr/licence-du-gouvernement-ouvert-canada
dc.subject - en: Nature and environment; Science and technology
dc.subject - fr: Nature et environnement; Sciences et technologie
dc.subject.en - en: Nature and environment; Science and technology
dc.subject.fr - fr: Nature et environnement; Sciences et technologie
dc.title - en: Evaluating conservation units using network analysis : a sea duck case study
dc.type - en: Article
dc.type - fr: Article
local.article.journalissue: 3
local.article.journaltitle: Frontiers in Ecology and the Environment
local.article.journalvolume: 22
local.pagination: 7 pages
local.peerreview - en: Yes
local.peerreview - fr: Oui
local.requestdoi: No

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