Browsing by Author "Pattabiraman N"

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    Origins and diversity of invasive brushtail possums (Trichosurus vulpecula) in New Zealand surveyed with mtDNA haplotype and nuclear microsatellite data
    (Taylor and Francis Group on behalf of the Royal Society of New Zealand, 2025-05-07) Pattabiraman N; Morgan-Richards M; Trewick SA; Su J
    The brushtail possum Trichosurus vulpecula is native to Australia where six subspecies exist in distinct regions. A composite invasive population is established in Aotearoa New Zealand, which has since been subject to localised bouts of culling. We surveyed population genetic structure across New Zealand to identify the scale of genetic diversity introduced to New Zealand and the resulting pattern of admixture. Australian brushtail possums have high mitochondrial diversity (17%) and prominent spatial structure. Thirty-eight haplotypes among 25 New Zealand population samples (n = 465) were closely related to 45 haplotypes sampled from Victoria and Tasmania in Australia (n = 120), but just one was shared. High haplotype diversity is consistent with multiple successful introductions and rapid population expansion in New Zealand. Nuclear diversity of microsatellite loci screened in 18 New Zealand population samples (n = 374) comprised five genotypic clusters (K = 5), but these groups did not correlate with geography. An overall signal of genetic partitioning within the invasive population suggests limited mixing but ongoing management towards eradication will influence patterns of population recovery, migration and evolution of traits including toxin resistance. We consider the implications of mixed ancestry of the invasive population in terms of variation in toxin tolerance detected in New Zealand.
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    Time-calibrated phylogeny and ecological niche models indicate Pliocene aridification drove intraspecific diversification of brushtail possums in Australia
    (John Wiley and Sons Ltd, 2022-12-15) Carmelet-Rescan D; Morgan-Richards M; Pattabiraman N; Trewick SA
    Major aridification events in Australia during the Pliocene may have had significant impact on the distribution and structure of widespread species. To explore the potential impact of Pliocene and Pleistocene climate oscillations, we estimated the timing of population fragmentation and past connectivity of the currently isolated but morphologically similar subspecies of the widespread brushtail possum (Trichosurus vulpecula). We use ecological niche modeling (ENM) with the current fragmented distribution of brushtail possums to estimate the environmental envelope of this marsupial. We projected the ENM on models of past climatic conditions in Australia to infer the potential distribution of brushtail possums over 6 million years. D-loop haplotypes were used to describe population structure. From shotgun sequencing, we assembled whole mitochondrial DNA genomes and estimated the timing of intraspecific divergence. Our projections of ENMs suggest current possum populations were unlikely to have been in contact during the Pleistocene. Although lowered sea level during glacial periods enabled connection with habitat in Tasmania, climate fluctuation during this time would not have facilitated gene flow over much of Australia. The most recent common ancestor of sampled intraspecific diversity dates to the early Pliocene when continental aridification caused significant changes to Australian ecology and Trichosurus vulpecula distribution was likely fragmented. Phylogenetic analysis revealed that the subspecies T. v. hypoleucus (koomal; southwest), T. v. arnhemensis (langkurr; north), and T. v. vulpecula (bilda; southeast) correspond to distinct mitochondrial lineages. Despite little phenotypic differentiation, Trichosurus vulpecula populations probably experienced little gene flow with one another since the Pliocene, supporting the recognition of several subspecies and explaining their adaptations to the regional plant assemblages on which they feed.
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    Unrestricted gene flow between two subspecies of translocated brushtail possums (Trichosurus vulpecula) in Aotearoa New Zealand
    (Springer Nature Switzerland AG, 2022-01) Pattabiraman N; Morgan-Richards M; Powlesland R; Trewick SA
    Two lineages of brushtail possums (Trichosurus vulpecula) were historically introduced to Aotearoa New Zealand, and these two subspecies have different phenotypic forms. Despite over 100 years of potential interbreeding, they appear to retain morphological differences, which may indicate reproductive isolation. We examined this using population samples from a confined landscape and scored each specimen for phenotype using a number of fur colour traits. This resulted in a bimodal trait distribution expected for segregated grey and black lineages. We also sought evidence for genetic partitioning based on spatial and temporal effects. Genetic structure and rates of genetic mixing were determined using seven neutral, species-specific nuclear microsatellite markers and mitochondrial DNA control region sequence. Genotype analyses indicated high levels of variation and mtDNA sequences formed two major haplogroups. Pairwise tests for population differentiation of these markers found no evidence of subdivision, indicating that these brushtail possums behave as a single randomly mating unit. Despite maintenance of two main colour phenotypes with relatively few intermediates, previous inference of assortative mating and anecdotes of distinct races, our data indicate that New Zealand brushtail possums can freely interbreed, and that in some locations they have formed completely mixed populations where neutral genetic markers are unrelated to phenotype. This has implications for effective pest management towards eradication.