Fish movement and colonization in the Wyoming Range 2018-2019
Dates
Publication Date
2021-08-31
Start Date
2018-05-01
End Date
2019-09-01
Citation
Alford, S., and Walters, A.W., 2021, Fish movement and colonization in the Wyoming Range 2018-2019: U.S. Geological Survey data release, https://doi.org/10.5066/P9Z0W4IK.
Summary
Fish colonization ability may be one factor affecting population resilience after disturbance. We conducted displacement experiments in headwater streams in Wyoming, U.S.A. to evaluate mottled sculpin (Cottus bairdii) and mountain sucker (Catostomus platyrhynchus) colonization ability. Specifically, we (1) determined if fish could colonize sites rapidly after displacement, (2) evaluated site-level factors affecting colonization, and (3) compared species-level differences in movement and colonization capabilities. For the colonization experiment, we removed fish from 31 experimental 100 m reaches to create an experimental displacement and examined short-term colonization dynamics in relation to initial fish abundance and habitat characteristics [...]
Summary
Fish colonization ability may be one factor affecting population resilience after disturbance. We conducted displacement experiments in headwater streams in Wyoming, U.S.A. to evaluate mottled sculpin (Cottus bairdii) and mountain sucker (Catostomus platyrhynchus) colonization ability. Specifically, we (1) determined if fish could colonize sites rapidly after displacement, (2) evaluated site-level factors affecting colonization, and (3) compared species-level differences in movement and colonization capabilities. For the colonization experiment, we removed fish from 31 experimental 100 m reaches to create an experimental displacement and examined short-term colonization dynamics in relation to initial fish abundance and habitat characteristics in 2018 and 2019. We selected four additional sites during 2018 to conduct a movement study and compare species mobility in the absence of experimental displacement. We calculated movement distances for all fish relocations, which included short-distance movements within short (200-meter) PIT tag resurveys and recaptures from long-distance surveys at the four movement sites, as well as six incidental recaptures during fish monitoring efforts across the entire study system.
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AlfordWaltersDataRelease.xml Original FGDC Metadata
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Colonization.csv
3.54 KB
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Movement.csv
22.96 KB
text/csv
Related External Resources
Type: Related Primary Publication
Alford, S.L., and Walters, A.W., 2021, Rapid colonisation post‐displacement contributes to native fish resilience: Ecology of Freshwater Fish, v. 31, no. 2, p. 347–357, https://doi.org/10.1111/eff.12634.
These data support our manuscript "Rapid colonization post-displacement contributes to native fish resilience" IP-119943. We conducted this work to evaluate colonization and movement abilities of two native freshwater fish species. Experimental approaches provide mechanistic insight into colonization dynamics, enhancing our understanding of native fish resilience in degraded stream ecosystems and their response to restoration actions.