Ryan Lodge’s research while affiliated with Flinders University and other places

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Publications (2)


Contemporary distributions of pygmy perch species and populations used in this study. Population abbreviations are denoted within table 1. Population locations are not shown for N. oxleyana, which occupies a small region of lower Queensland (distribution indicated in the right figure). The Nullarbor Plain barrier is indicated by the black section of the right figure.
Maximum clade credibility (MCC) based on 3000 random repeated haplotypes (RRHS) of a 1 075 734 bp sequence (13 991 concatenated ddRAD loci) and divergence estimates from r8s. Bootstraps are calculated from 1000 bootstraps per RRHS summarized using the ‘best tree’ output of RAxML. All 3000 ‘best trees’ were summarized using the consense function of ExaBayes and the resultant phylogeny plotted in MEGA 7.0. All major species and population divisions had 100% bootstrap support; all bootstraps with 100% support are represented by small asterisks. Codes for individuals and localities relate to the abbreviations in table 1. Node D denotes the node used to calibrate for divergence time estimation. Divergence estimates are reported for the MCC phylogenetic tree, with associated confidence intervals from 100 subsampled RRHS trees (± s.d.).
The most supported ancestral area reconstruction model (DIVALIKE+J), estimated within the R package BioGeoBEARS. Colours denote geographical range of lineages, with pie charts representing the relative probability of geographical range of ancestors. Lineages were collapsed down to the species level and the phylogeny time calibrated based on the MCC divergence estimates from r8s.
Hypothetical model of the Multiple Invasion Hypothesis and the biogeography of pygmy perches. (a) Graphical representation of Multiple Invasion (under the maximum number of theoretical migrations) as a possible mechanism for the biogeography of pygmy perches. The position of the Nullarbor Plain is demonstrated in black. Migrations of pygmy perches are indicated by the directionality and colour of the arrows, with contemporary distributions demonstrated by the filled regions. Dashed arrows represent secondary migrations (into N. oxleyana and N. ‘flindersi’) without crossing the continent. (b) Phylogenetic diagram of geographical divergences in pygmy perches under Multiple Invasion. Nodes representing migration events are denoted within the phylogeny by asterisks, with the numbers corresponding to a particular migration on the map. Divergence [3] represents the last possible migration event before the arrival of the Nullarbor Plain as a barrier to dispersal.
Hypothetical model of geographical paralogy and the biogeography of pygmy perches. (a) Graphical representation of geographical paralogy as a possible mechanism for the biogeography of pygmy perches. The position of the Nullarbor Plain is demonstrated in black. Speculative historic ranges of the two ancestral lineages required for geographical paralogy to occur are demonstrated by the striped regions, with contemporary distributions demonstrated by the filled regions. (b) Phylogenetic diagram of geographical divergences in pygmy perches under geographical paralogy. Nodes representing E/W divergences are denoted within the phylogeny by asterisks, with the second (blue) divergence representing the arrival of the Nullarbor Plain as a barrier to dispersal.
Phylogenomic history of enigmatic pygmy perches: Implications for biogeography, taxonomy and conservation
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June 2018

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Pygmy perches (Percichthyidae) are a group of poorly dispersing freshwater fishes that have a puzzling biogeographic disjunction across southern Australia. Current understanding of pygmy perch phylogenetic relationships suggests past east–west migrations across a vast expanse of now arid habitat in central southern Australia, a region lacking contemporary rivers. Pygmy perches also represent a threatened group with confusing taxonomy and potentially cryptic species diversity. Here, we present the first study of the evolutionary history of pygmy perches based on genome-wide information. Data from 13 991 ddRAD loci and a concatenated sequence of 1 075 734 bp were generated for all currently described and potentially cryptic species. Phylogenetic relationships, biogeographic history and cryptic diversification were inferred using a framework that combines phylogenomics, species delimitation and estimation of divergence times. The genome-wide phylogeny clarified the biogeographic history of pygmy perches, demonstrating multiple east–west events of divergence within the group across the Australian continent. These results also resolved discordance between nuclear and mitochondrial data from a previous study. In addition, we propose three cryptic species within a southwestern species complex. The finding of potentially new species demonstrates that pygmy perches may be even more susceptible to ecological and demographic threats than previously thought. Our results have substantial implications for improving conservation legislation of pygmy perch lineages, especially in southwestern Western Australia.

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Citations (1)


... Several biogeographic mechanisms have been proposed to explain the high biodiversity of the SWWA (detailed in Rix et al. 2015). These include ancient Gondwanan lineages that diverged throughout the Mesozoic until the late Eocene~100 Ma (Hopper et al. 2009); vicariantly-isolated mesic lineages that diverged from eastern Australian lineages during the Miocene (14-16 Ma; Buckley et al. 2018;Crisp and Cook 2007;Rix and Harvey 2012); as well as in situ diversification (Hopper and Gioia 2004). Despite the apparent lack of topographic or environmental barriers (Cowling and Lombard 2002), SWWA studies have demonstrated both interspecific (speciation) and intraspecific (phylogeographic structure) diversification primarily associated with late Mioceneearly Pliocene aridification and contraction of mesic refugia (Byrne et al. 2011;Rix et al. 2015;Rix and Harvey 2012). ...

Reference:

Long-term climatic stability drives accumulation and maintenance of divergent freshwater fish lineages in a temperate biodiversity hotspot
Phylogenomic history of enigmatic pygmy perches: Implications for biogeography, taxonomy and conservation