Genetic variation at allozyme and mitochondrialDNA loci was investigated in the Australianlungfish, Neoceratodus forsteri Krefft1870. Tissue samples for genetic analysis weretaken non-lethally from 278 individualsrepresenting two spatially distinct endemicpopulations (Mary and Burnett rivers), as wellas one population thought to be derived from ananthropogenic translocation in the 1890's(Brisbane river). Two of 24 allozyme lociresolved from muscle tissue were polymorphic.Mitochondrial DNA nucleotide sequence diversityestimated across 2,235 base pairs in each of 40individuals ranged between 0.000423 and0.001470 per river. Low genetic variation atallozyme and mitochondrial loci could beattributed to population bottlenecks, possiblyinduced by Pleistocene aridity. Limited geneticdifferentiation was detected among rivers usingnuclear and mitochondrial markers suggestingthat admixture may have occurred between theendemic Mary and Burnett populations duringperiods of low sea level when the drainages mayhave converged before reaching the ocean.Genetic data was consistent with theexplanation that lungfish were introduced tothe Brisbane river from the Mary river. Furtherresearch using more variable genetic loci isneeded before the conservation status ofpopulations can be determined, particularly asanthropogenic demands on lungfish habitat areincreasing. In the interim we recommend amanagement strategy aimed at conservingexisting genetic variation within and betweenrivers.