1 research outputs found
An investigation of two significant infectious diseases in populations of Victorian koalas (Phascolarctos cinereus)
© 2017 Dr Alistair Raymond LegioneThe koala (Phascolarctos cinereus), an iconic Australian marsupial, is considered a vulnerable species in parts of Australia due to recent rapid population declines. The role of infectious diseases in population declines in northern koalas (New South Wales (NSW) and Queensland populations) has been highly studied.
Chlamydia pecorum and koala retrovirus (KoRV) have both been given considerable attention. C. pecorum in koalas is associated with infertility and blindness through infection of the urogenital tract and conjunctiva, respectively. The prevalence of C. pecorum in northern koalas is as high as 87%. Different genotypes of KoRV have been identified in northern koalas. KoRV-A has been identified in all northern koalas tested to date. KoRV-B appears to be less prevalent but has been implicated as a cause of neoplasia.
Molecular testing of C. pecorum and KoRV prevalence in Victoria, a southern population of koalas, has been limited. No genotyping studies have been undertaken on either organism in Victorian koalas. This thesis conducted an extensive survey of Victorian koalas across seven separate regions to establish a prevalence estimate for both C. pecorum and KoRV. A genotyping study for each pathogen was also completed.
The estimated prevalence of C. pecorum in Victorian koalas was 15.2% (125/820, 95% confidence interval (CI) 12.9, 17.9%). Molecular evidence of C. pecorum infection in French Island koalas was detected for the first time. Only a single ocular C. pecorum infection was identified in Victorian koalas (1/459). A total of six C. pecorum genotypes were detected, the majority of which were genotype B, which has only been detected in southern koalas. Three of the genotypes were novel, each of which were found in distinct populations. Male koalas were more likely to be infected than females. C. pecorum infection was associated with ‘wet bottom’ (a sign of urinary incontinence and inflammation) in male koalas and reproductive tract disease in female koalas.
Not all koalas with ‘wet bottom’ had detectable C. pecorum, suggesting another potential cause. Analysis of the genetic diversity of the bacteria present in urogenital tract samples from ten koalas, of which only five displayed wet bottom, identified 13 operational taxonomic units that occurred at a higher abundance in wet bottom-affected koalas. These bacterial families are of interest for future studies.
The genomes of 57 C. pecorum samples from koalas across Australia were sequenced and assembled. The results showed that C. pecorum genomes from southern koalas were distinct from those of northern koalas.
KoRV prevalence in Victorian koalas was 24.7% (160/648, 95% CI 21.5, 28.2%). Only KoRV-A was detected. Koalas with ‘wet bottom’ were almost twice as likely to have KoRV detected. There was no association between KoRV and C. pecorum detection.
This research highlights that Victorian koalas are experiencing a reduced burden of infection compared to northern koalas, and this may be a factor in southern populations outgrowing the available habitat resources in Victoria, compared to northern populations. Victorian koalas free from C. pecorum and KoRV infection could be sourced from over-abundant populations to assist re-establishment of populations where koalas have become locally extinct. Overall, this research provides valuable information for both future research and koala population management