Loss of genetic variation at
microsatellite loci in hatchery produced abalone in Australia (Haliotis
rubra) and South Africa (Haliotis midae)
B. Evans, J. Bartlett, N. Sweijd, P. Cook, N.G.
Elliott-2004
Aquaculture, 233(1-4): 109-127
Abstract:
Microsatellite DNA markers were used to investigate
levels of genetic diversity within cultured populations of Haliotis midae
and Haliotis rubra in South Africa and Australia, respectively. The
cultured populations examined were F1 progeny of wild caught broodstock. All
populations show a decline in genetic diversity, measured as the number of
alleles per locus (35–62% allele loss) when compared to wild stocks in the
area of respective broodstock collection. There was, however, no associated
loss of heterozygosity. Changes in the frequency of alleles between farmed
and wild samples were observed in both species. Mean levels of genetic
relatedness for the cultured H. midae were not significantly
different to zero, while those for the cultured H. rubra were
significantly higher. The estimated effective population size of H. midae
broodstock was between 75.3 (SD±57.6) and 43.5 (±29.8) for a west coast
farm and between 18.5 (±8.4) and 16.8 (±8.0) for an east coast farm. The
observed loss of alleles in both farm samples was significantly greater than
that expected due to genetic drift based on such effective population size
estimates. The effective population size of a farm sample of H. rubra
was estimated at between 27.2 (±3.8) and 22.4 (±4.7). The observed loss of
alleles in this instance was not significantly greater than expected due to
genetic drift.
(CSIRO Marine Research, GPO Box 1538, Hobart,
Tasmania 7001, Australia, e-mail of N.G. Elliott: Nick.elliott@csiro.au)