Maintenance of reproductive isolation between hybridizing populations of the peamouth chub, Mylocheilus caurinum and the redside shiner, Richardsonius balteatus

Aspinwall, Nevin

January 1968

The modern species concept (Mayr, 1963) stresses the interbreeding within, and the reproductive isolation between, species. However, "interbreeding" is not strictly an intraspecific characteristic since numerous interspecific hybrids have been reported, especially among the temperate freshwater fishes. In this investigation, hybridizing (interbreeding) populations of the peamouth chub, Mylocheilus caurinum (Richardson), and the redside shiner, Richardsonius balteatus (Richardson) from Stave Lake, British Columbia, were studied to determine: (1) if interbreeding between them was resulting in the swamping (lack of reproductive isolation) of their gene pools, and (2) if swamping was absent, what isolating mechanisms were operative? To detect the presence or absence of swamping, two approaches were used. The first measured shifts in means of certain morphological characters for the two species within and outside the area of hybridization. The second determined the frequency of various hybrid generations. If swamping is not occurring, the frequency of hybrid backcross individuals should decrease as backcrossing continues. Both approaches indicated that swamping is absent between Mylocheilus and Richardsonius. In the absence of swamping, isolating mechanisms between the two species were examined. Seasonal, temporal (diel), spatial, and ethological premating isolating mechanisms do not appear to be effective since Mylocheilus, Richardsonius, and their hybrids spawn at the same time and place within Devils Creek, a major spawning area in Stave Lake. Egg and fry survival of crosses involving hybrid individuals were measured under experimental conditions to determine if they serve as post-mating isolating mechanisms. F₁ hybrid males are partially sterile as demonstrated by the poor egg survival of crosses involving them. However, egg survival of hybrid females when backcrossed with Mylocheilus and Richardsonius males was comparable to the parental species' crosses. Thus, fertility is not considered an effective isolating mechanism. The experiments testing the fry survival of the parental species, reciprocal F₁ hybrids, and hybrid backcrosses to Mylocheilus(= B CM) yield a clue to what isolating mechanism prevents swamping. The fry survival of reciprocal F₁ hybrid fry do not differ significantly from Mylocheilus fry. In contrast, the survival of hybrid backcross to Mylocheilus fry is approximately 20 % less than either reciprocal F₁ hybrids or Mylocheilus fry after only 48 days rearing. Additionally, 11. 5% of the surviving BCM fry possess gross abnormalities. Thus, hybrid inferiority is demonstrated experimentally. Circumstantial evidence was also gathered from Stave Lake in 1967 which suggests the inferiority of BCM fry. Relative to Mylocheilus, BCMs were five times more abundant as fingerlings than as adults. Little information was gathered on hybrid backcrosses to Richardsonius. They, appeared scarce as fingerlings as well as adults. / Science, Faculty of / Zoology, Department of / Graduate

Peamouth chub

Redside shiner

Hybridizaiton

Studies on the relationship of the redside shiner (Richardsonius balteatus) and the longnose sucker (Catostomus catostomus) to the cutthroat trout (Salmo clarki) population in Yellowstone Lake

Biesinger, Kenneth E.

January 1900

Thesis (M.S.)--Utah State University, 1961. / Title from title screen (viewed Aug. 14, 2009). Department: Wildlife Management. Includes bibliographical references. Archival copy available.

Does Shape Predict Performance? An Analysis of Morphology and Swimming Performance in Great Basin Fishes

Aedo, John R.

08 December 2008

Swimming performance strongly influences fitness in aquatic organisms and is closely tied to external body morphology. Although this connection has been closely examined at the individual and species level, few studies have focused on this relationship as it pertains to functional group assemblages. Using functional groups based on similarities in habitat use and morphology, I tested the hypothesis that swimming performance can be reliably predicted by functional group composition. I measured swimming performance as burst speed using a simulated predator attack and as prolonged speed using a step-endurance test in a laboratory flume. I measured morphology using geometric morphometric techniques. A difference in swimming behavior in four of the seven species was observed in the step-endurance test. Benthic species exhibited bracing behavior as an alternative to body-caudal fin (BCF) propulsion in the prolonged speed trials. Swimming performance exhibited a weak relationship with functional groups based on habitat or morphology. Rather a species-based model was the best predictor of swimming performance. Although species exhibited variation in swimming performance, body size was the strongest predictor of absolute swimming performance across all models. Relative swimming performance (measured in body lengths/sec) was negatively related to body size. The results of this study suggest that functional groups are not always reliable predictors of performance and they necessitate empirical testing to validate their effectiveness. This study also provides critical swimming performance data for previously unstudied Great Basin fishes which could be valuable for predicting fish passage through culverts, weirs and fish ladders.

Swimming performance

burst speed

prolonged speed

fish passage

culverts

allometric effects

Great Basin

brown trout

mountain sucker

cutthroat trout

leatherside chub

least chub

longnose dance

speckled dace

mottled sculpin

June sucker

redside shiner

Biology