Water Stewardship Information Sources

  1. Home
  2. Omineca
  3. Details
ID 1731
Citation Clarke AD, Telmer KH, Shrimpton JM (2007) Habitat use and movement patterns for a fluvial species, the Arctic grayling, in a watershed impacted by a large reservoir: evidence from otolith microchemistry. Journal of Applied Ecology 44, 1156-1165. DOI: 10.1111/j.1365-2664.2007.01350.x
Organization University of Northern British Columbia; University of Victoria
URL http://onlinelibrary.wiley.com/doi/10.1111/j.1365-2664.2007.01350.x/full
Abstract/Description or Keywords Fluvial environments are lost following construction of dams and flooding of river valleys. Rivers flowing into newly created reservoirs are still connected, but whether fluvial species of fish use or migrate through the newly formed lacustrine habitat is not known. We determined chemical composition of otoliths using laser ablation inductively coupled plasma mass spectrometry to assess patterns of movement in Arctic grayling (Thymallus arcticus) from a fluvial system flooded by dam construction to assess the reservoir impact on fish populations. Rivers examined within the upper Peace River watershed in British Columbia had considerable differences in water chemistry. Elemental signatures measured in grayling otoliths were highly correlated to the stream chemistries where the fish were captured. Shifts between chemically distinct environments could be detected for grayling; some fish experienced significant changes in water chemistry while others did not. Discriminant function analyses for otolith chemistry suggested that Arctic grayling formed four main populations: Parsnip watershed, Nation watershed, Omineca watershed and Ingenika watershed. There also appeared to be groupings according to smaller watersheds (subpopulations) within these systems. Synthesis and applications. Construction of the WAC Bennett hydroelectric dam and formation of the Williston Reservoir may have created a barrier for migration of fluvial Upper Peace River Arctic grayling. Populations that were thought to have remained healthy into the 1980s were likely impacted immediately but this was not obvious due to the presence of residual ‘prereservoir’ fish. Natural chemical markers in otoliths revealed that Arctic grayling in our study did not move into the reservoir and may now be restricted only to a number of tributary systems with no interconnectivity. Future management must take account of this new, fragmented distribution. fish life history; fish movement; habitat fragmentation; laser ablation-inductively coupled plasma mass spectrometry; otolith chemistry; Thymallus arcticus
Information Type Article
Regional Watershed Peace River
Sub-watershed if known
Aquifer #
Comments
Project status
Contact Name
Contact Email