Journal Article
A case of isolation by distance and short-term temporal stability of population structure in brown trout (Salmo trutta) within the River Dart, southwest England
Griffiths, A.M., Koizumi, I., Bright, D. and Stevens, J.R.
Record Number:
4166
Year:
2009
Journal:
Evolutionary Applications
Pages:
537-554
Volume:
2
Abstract:
Salmonid fishes exhibit high levels of population differentiation. In particular,
the brown trout (Salmo trutta L.) demonstrates complex within river drainage
genetic structure. Increasingly, these patterns can be related to the underlying
evolutionary models, of which three scenarios (member-vagrant hypothesis,
metapopulation model and panmixia) facilitate testable predictions for investigations
into population structure. We analysed 1225 trout collected from the
River Dart, a 75 km long river located in southwest England. Specimens were
collected from 22 sample sites across three consecutive summers (2001–2003)
and genetic variation was examined at nine microsatellite loci. A hierarchical
analysis of molecular variance revealed that negligible genetic variation was
attributed among temporal samples. The highest levels of differentiation
occurred among samples isolated above barriers to fish movement, and once
these samples were removed, a significant effect of isolation-by-distance was
observed. These results suggest that, at least in the short-term, ecological events
are more important in shaping the population structure of Dart trout than stochastic
extinction events, and certainly do not contradict the expectations of a
member-vagrant hypothesis. Furthermore, individual-level spatial autocorrelation
analyses support previous recommendations for the preservation of a
number of spawning sites spaced throughout the tributary system to conserve
the high levels of genetic variation identified in salmonid species.
Times Cited:
0