Mark Adams’s research while affiliated with South Australian Museum and other places

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Publications (92)


Evolutionary relationships and fine-scale geographic structuring in the temperate percichthyid genus Gadopsis (blackfishes) to support fisheries and conservation management
  • Article

July 2024

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44 Reads

Molecular Phylogenetics and Evolution

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Mark Adams

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Fig. 1 Map of sampling sites used within this study, and major rivers across the SWWA. Localities for Nannoperca vittata are indicated by diamonds and localities for Nannoperca pygmaea are indicated with stars. Locality colours indicate putative species (see Results). Colouration of the map indicates annual precipitation (derived from WorldClim 2.1). Grey points indicate known occurrences of N. vittata, primarily collected from the Atlas of Living Australia (http://www.ala.org.au). Solid white lines indicate biogeographic province boundaries and the dashed line indicates the maximum landmass extent exposed during the Last Glacial Maximum (LGM). Inset map indicates extent of distribution to the Australian continent. Fish images demonstrate described (morphological) species and current taxonomy. Photographs: S. Beatty. TRP Transitional Rainfall Province, HRP High Rainfall Province.
Fig. 2 Population divergence and clustering. A Heatmap of pairwise population summaries of divergence. Numbers within cells indicate pairwise D XY values (x 100) based on 19,426 ddRAD loci, whilst colours indicate the number of fixed differences within the 18,177 unlinked SNPs. B PcoA of 18,177 unlinked SNPs. Each point represents the centroid per population with shapes indicating assignment to a putative species (circles = Nannoperca pygmaea, triangles = Nannoperca vittata [A] and squares = N. vittata [B]). Insets depict close-ups of individuals within each cluster. C Maximum likelihood tree estimated using 19,426 concatenated ddRAD loci and IQ-TREE2. Nodes are labelled with bootstrap support estimated using 1000 RELL bootstraps and site concordance factors (respectively). Branches are coloured by putative species. D Allocation of samples to species delimitation scenarios in SNAPP. Each column represents a single model, with each row corresponding to the aligned sample in the phylogenetic tree. Cell colours indicate allocation to species, with cells of the same colour indicating one species. Blank rows indicate samples that were not used in species delimitation.
Fig. 3 Divergence times and historical migration patterns. A Chronogram of divergence time estimates across the species complex using SNAPP. Node labels indicate median divergence times, and error bars show 95% posterior probabilities from 1 M simulations. Lineages are coloured according to putative species. B Best supported historical migration model using TreeMix, with no modelled migrations and lineages coloured by putative species. Inset depicts likelihood and percentage of variation explained (labels) per model under increasing number of migrations. OG outgroup.
Fig. 4 Species distribution modelling for the Nannoperca vittata species complex. A Estimated area of suitable habitat using binary distribution models, from oldest (left) to future (right). Solid line indicates estimates from ensemble (weighted mean) models, lighter points indicate estimates from individual models (n = 36; shapes indicate algorithm used) and solid points indicate mean estimates across all individual models (with standard error bars). Text labels indicate ensemble models represented in the bottom row. B Ensemble SDM for the mid-Pliocene warm period (3.205 Mya). C Ensemble SDM for HS1 (17-14.7 Kya). D Ensemble SDM for the mid-Holocene (8.326-4.2 Kya). E Ensemble SDM under contemporary conditions (1970-2000). F Ensemble SDM under SSP585 for 2080-2100.
Long-term climatic stability drives accumulation and maintenance of divergent freshwater fish lineages in a temperate biodiversity hotspot
  • Article
  • Full-text available

June 2024

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159 Reads

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1 Citation

Heredity

Anthropogenic climate change is forecast to drive regional climate disruption and instability across the globe. These impacts are likely to be exacerbated within biodiversity hotspots, both due to the greater potential for species loss but also to the possibility that endemic lineages might not have experienced significant climatic variation in the past, limiting their evolutionary potential to respond to rapid climate change. We assessed the role of climatic stability on the accumulation and persistence of lineages in an obligate freshwater fish group endemic to the southwest Western Australia (SWWA) biodiversity hotspot. Using 19,426 genomic (ddRAD-seq) markers and species distribution modelling, we explored the phylogeographic history of western ( Nannoperca vittata ) and little ( Nannoperca pygmaea ) pygmy perches, assessing population divergence and phylogenetic relationships, delimiting species and estimating changes in species distributions from the Pliocene to 2100. We identified two deep phylogroups comprising three divergent clusters, which showed no historical connectivity since the Pliocene. We conservatively suggest these represent three isolated species with additional intraspecific structure within one widespread species. All lineages showed long-term patterns of isolation and persistence owing to climatic stability but with significant range contractions likely under future climate change. Our results highlighted the role of climatic stability in allowing the persistence of isolated lineages in the SWWA. This biodiversity hotspot is under compounding threat from ongoing climate change and habitat modification, which may further threaten previously undetected cryptic diversity across the region.

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Map depicting the location of Galaxias brevipinnis (a, b) and Galaxias maculatus (c, d) samples analysed using allozymes and mitochondrial DNA (mtDNA). (a, c) sample locations in Australia; (b, d) sample locations in New Zealand. (e) Overview of locations of sample sites. Colours of the map matches other figures. A more detailed map of Nth1 and Nth2 can be found in Figure S1. See Supporting Information for more details.
Scatterplots for the first two dimensions from the Principal Coordinates Analyses (PCoA; dimension 1 on the x‐axis and dimension 2 on the y‐axis) of the allozyme data for Australian Galaxias brevipinnis. Axes are scaled to reflect the relative percentage contribution of each dimension (shown in brackets). (a) initial PCoA of all 135 Australian fish; (b) PCoA of the 72 individuals comprising the ‘southern’ cluster; (c) PCoA of the 63 individuals referable to the two ‘northern’ clusters.
Bayesian estimate of phylogeny for Galaxias brevipinnis using a Coalescent prior in BEAST inferred from the cytochrome b region of mitochondrial DNA and rooted using G. auratus (not shown). Numbers represent posterior probabilities and the horizontal bars at nodes represent the 95% highest posterior density of the node height. The colours represent the candidate taxa (blue = TAS, pink = WIDE, purple = Nth1, orange = Nth2, green = NZ).
First two dimensions for the initial Principal Coordinates Analysis of allozyme variation from 75 Galaxias maculatus. The relative contribution of each dimension is shown alongside each axis. Base symbol as for Figure 1; individuals from the Lake Hiawatha site are overlain with the letter ‘H’.
Bayesian estimate of phylogeny for Galaxias maculatus using a Coalescent prior in BEAST inferred from cytochrome b region of mitochondrial DNA, rooted using G. occidentalis (not shown). Numbers represent posterior probabilities and the horizontal bars at nodes represent the 95% Highest Posterior Density of the node height. Colours represent the candidate taxa (red = Australia, green = New Zealand).
Cryptic diversity within two widespread diadromous freshwater fishes (Teleostei: Galaxiidae)

May 2024

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178 Reads

Identification of taxonomically cryptic species is essential for the effective conservation of biodiversity. Freshwater‐limited organisms tend to be genetically isolated by drainage boundaries, and thus may be expected to show substantial cryptic phylogenetic and taxonomic diversity. By comparison, populations of diadromous taxa, that migrate between freshwater and marine environments, are expected to show less genetic differentiation. Here we test for cryptic diversity in Australasian populations (both diadromous and non‐diadromous) of two widespread Southern Hemisphere fish species, Galaxias brevipinnis and Galaxias maculatus. Both mtDNA and nuclear markers reveal putative cryptic species within these taxa. The substantial diversity detected within G. brevipinnis may be explained by its strong climbing ability which allows it to form isolated inland populations. In island populations, G. brevipinnis similarly show deeper genetic divergence than those of G. maculatus, which may be explained by the greater abundance of G. maculatus larvae in the sea allowing more ongoing dispersal. Our study highlights that even widespread, ‘high‐dispersal’ species can harbour substantial cryptic diversity and therefore warrant increased taxonomic and conservation attention.


Museum Genomics Reveals the Hybrid Origin of an Extinct Crater Lake Endemic

April 2024

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151 Reads

Systematic Biology

Crater lake fishes are common evolutionary model systems, with recent studies suggesting a key role for gene flow in promoting rapid adaptation and speciation. However, the study of these young lakes can be complicated by human-mediated extinctions. Museum genomics approaches integrating genetic data from recently extinct species are, therefore, critical to understanding the complex evolutionary histories of these fragile systems. Here, we examine the evolutionary history of an extinct Southern Hemisphere crater lake endemic, the rainbowfish Melanotaenia eachamensis. We undertook a comprehensive sampling of extant rainbowfish populations of the Atherton Tablelands of Australia alongside historical museum material to understand the evolutionary origins of the extinct crater lake population and the dynamics of gene flow across the ecoregion. The extinct crater lake species is genetically distinct from all other nearby populations due to historic introgression between 2 proximate riverine lineages, similar to other prominent crater lake speciation systems, but this historic gene flow has not been sufficient to induce a species flock. Our results suggest that museum genomics approaches can be successfully combined with extant sampling to unravel complex speciation dynamics involving recently extinct species.


Phylogeography of a widespread Australian freshwater fish, western carp gudgeon (Eleotridae: Hypseleotris klunzingeri ): Cryptic species, hybrid zones, and strong intra‐specific divergences

November 2023

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105 Reads

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1 Citation

Despite belonging to the most abundant and widespread genus of freshwater fishes in the region, the carp gudgeons of eastern Australia (genus Hypseleotris ) have proved taxonomically and ecologically problematic to science since the 19th century. Several molecular studies and a recent taxonomic revision have now shed light on the complex biology and evolutionary history that underlies this group. These studies have demonstrated that carp gudgeons include a sexual/unisexual complex (five sexual species plus an assortment of hemiclonal lineages), many members of which also co‐occur with an independent sexual relative, the western carp gudgeon ( H. klunzingeri ). Here, we fill yet another knowledge gap for this important group by presenting a detailed molecular phylogeographic assessment of the western carp gudgeon across its entire and extensive geographic range. We use a suite of nuclear genetic markers (SNPs and allozymes) plus a matrilineal genealogy (cyt b ) to demonstrate that H. klunzingeri s.l. also displays considerable taxonomic and phylogeographic complexity. All molecular datasets concur in recognizing the presence of multiple candidate species, two instances of historic between‐species admixture, and the existence of a natural hybrid zone between two of the three candidate species found in the Murray–Darling Basin. We also discuss the major phylogeographic patterns evident within each taxon. Together, these analyses provide a robust molecular, taxonomic, and distributional framework to underpin future morphological and ecological investigations on this prominent member of regional freshwater ecosystems in eastern Australia.


Phylogeography of a widespread Australian freshwater fish, western carp gudgeon (Eleotridae: Hypseleotris klunzingeri): cryptic species, hybrid zones and strong intra-specific divergences

September 2023

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29 Reads

Despite belonging to the most abundant and widespread genus of freshwater fishes in the region, the carp gudgeons of eastern Australia (genus Hypseleotris) have proved taxonomically and ecologically problematic to science since the 19th century. Several molecular studies and a recent taxonomic revision have now shed light on the complex biology and evolutionary history that underlies this group. These studies have demonstrated that carp gudgeons include a sexual/unisexual complex (five sexual species plus an assortment of hemiclonal lineages), many members of which also co-occur with an independent sexual relative, the western carp gudgeon (H. klunzingeri). Here we fill yet another knowledge gap for this important group by presenting a detailed molecular phylogeographic assessment of the western carp gudgeon across its entire and extensive geographic range. We use a suite of nuclear genetic markers (SNPs and allozymes) plus a matrilineal genealogy (cytb) to demonstrate that H. klunzingeri s.l. also displays considerable taxonomic and phylogeographic complexity. All molecular datasets concur in recognizing the presence of multiple candidate species, two instances of historic between-species admixture, and the existence of a natural hybrid zone between two of the three candidate species found in the Murray Darling Basin. We also discuss the major phylogeographic patterns evident within each taxon. Together these analyses provide a robust molecular, taxonomic, and distributional framework to underpin future morphological and ecological investigations on this prominent member of regional freshwater ecosystems in eastern Australia.


Multi-gene insights into the taxonomy and conservation of Tasmania’s galaxiid fishes

July 2023

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90 Reads

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2 Citations

Marine and Freshwater Research

Context. Galaxiids are a widespread, Southern Hemisphere radiation of mostly obligate freshwater fishes. Tasmania houses a diversity of endemic species of Galaxias and Paragalaxias. Of these, many are at risk of extinction, being landlocked, range restricted, and subject to anthropogenic threats, placing a high conservation priority on the region. Aim. Our aim was to synthesize historic and published molecular datasets to provide the sound systematic framework needed to underpin future conservation and taxonomic efforts for Tasmanian galaxiids. Methods. Novel and published nuclear (allozyme) and matrilineal (cytb) datasets were generated and integrated for every putative Tasmanian galaxiid species lacking a comparable multi-gene assessment. Key results. The Tasmanian galaxiids are phylogenetically diverse, with molecular data generally supporting the accepted taxonomy, but with potential species-level diversity noted within an alpine radiation of the Galaxias truttaceus complex and further support for synonymy of Galaxias niger within Galaxias brevipinnis. Conclusions. This study highlights the value of multi-locus studies in both validating species-level taxonomy and resolving taxonomic ambiguities and conservation priorities within Tasmania’s galaxiids. Implications. Our integrated genetic analyses provide a framework to underpin more in-depth genomic approaches to assess additional cryptic diversity and conservation planning, such as genetic rescue and ex situ population security.


Cryptic diversity within two widespread diadromous freshwater fishes (Teleostei: Galaxiidae)

July 2023

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111 Reads

Aim Identification of taxonomically cryptic species is essential for the effective conservation of biodiversity. Freshwater-limited organisms tend to be genetically isolated by drainage boundaries, and thus may be expected to show substantial cryptic phylogenetic and taxonomic diversity. By comparison, populations of diadromous taxa, that migrate between freshwater and marine environments, are expected to show less genetic differentiation. Here we test for cryptic diversity in Australasian populations (both diadromous and non-diadromous) of two widespread Southern Hemisphere fish species. Location Throughout both their Australian ranges (including Lord Howe Island) and localities in New Zealand (including the Subantarctic Islands and Chatham Island). Taxon Galaxias brevipinnis and Galaxias maculatus. Methods mtDNA and nuclear markers were used to assess the presence of cryptic species and to determine if differences in species ecology could influence the degree of cryptic diversity. Results Both mtDNA and nuclear markers reveal putative cryptic species within these taxa. The substantial diversity detected within G. brevipinnis may be explained by its strong climbing ability which allows it to form isolated inland populations. In island populations, G. brevipinnis similarly show deeper genetic divergence than those of G. maculatus, which may be explained by the greater abundance of G. maculatus larvae in the sea allowing more ongoing dispersal. Main conclusions Our study highlights that even widespread, ‘high-dispersal’ species can harbour substantial cryptic diversity and therefore warrant increased taxonomic and conservation attention.


Diversification of the sleepers (Gobiiformes: Gobioidei: Eleotridae) and evolution of the root gobioid families

June 2023

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120 Reads

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3 Citations

Molecular Phylogenetics and Evolution

Eleotridae (sleepers) and five smaller families are the earliest diverging lineages within Gobioidei. Most inhabit freshwaters in and around the Indo-Pacific, but Eleotridae also includes species that have invaded the Neotropics as well as several inland radiations in the freshwaters of Australia, New Zealand, and New Guinea. Previous efforts to infer phylogeny of these families have been based on sets of mitochondrial or nuclear loci and have yielded uncertain resolution of clades within Eleotridae. We expand the taxon sampling of previous studies and use genomic data from nuclear ultraconserved elements (UCEs) to infer phylogeny, then calibrate the hypothesis with recently discovered fossils. Our hypothesis clarifies ambiguously resolved relationships, provides a timescale for divergences, and indicates the core crown Eleotridae diverged over a short period 24.3-26.3 Ma in the late Oligocene. Within Eleotridae, we evaluate diversification dynamics with BAMM and find evidence for an overall slowdown in diversification over the past 35 Ma, but with a sharp increase 3.5 Ma in the genus Mogurnda, a clade of brightly colored species found in the freshwaters of Australia and New Guinea.


Long-term climatic stability drives accumulation and maintenance of divergent lineages in a temperate biodiversity hotspot

March 2023

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104 Reads

Aim Anthropogenic climate change is forecast to drive regional climate disruption and instability across the globe. This issue is likely to be exacerbated within biodiversity hotspots, both due to the greater potential for species loss but also to the possibility that endemic lineages might not have experienced significant climatic variation in the past, limiting their evolutionary potential to respond to rapid climate change. We assessed the role of climatic stability on the accumulation and persistence of lineages in an obligate freshwater fish group endemic to a biodiversity hotspot. Location Southwest Western Australia (SWWA). Taxa Western pygmy perch ( Nannoperca vittata ) and little pygmy perch ( Nannoperca pygmaea ). Methods We sampled 33 individuals from nine populations spanning the range of both study taxa to explore their phylogeographic history. Using a combination of genomic (ddRAD-seq) and environmental approaches, we investigated population divergence and phylogenetic relationships, delimited species and estimated changes in species distributions since the Pliocene. Results We identified two deep phylogroups comprising three divergent clusters, which showed no historical connectivity since the Pliocene. We conservatively suggest these represent three isolated species with additional intraspecific structure within one widespread species. All lineages showed long-term patterns of isolation and persistence owing to climatic stability. Main conclusions Our results highlighted the role of climatic stability in allowing the persistence of isolated lineages in the SWWA. This biodiversity hotspot is under compounding threat from ongoing climate change and habitat modification, which may further threaten previously undetected cryptic diversity across the region.


Citations (61)


... Gene flow out of the Fitzroy and Lake Eyre basins could indicate natural connectivity between drainage basins. Contemporary or historical connectivity between Lake Eyre Basin and the MDB has been detected in several other fish species (Attard et al. 2022a;Hughes and Hillyer 2006;Unmack et al. 2023), although observed connectivity between the Fitzroy Basin and the MDB is more rare (Thacker et al. 2007). There is also a strong possibility that these patterns are a sign of human-mediated movement. ...

Reference:

Genomic Vulnerability to Climate Change of an Australian Migratory Freshwater Fish, the Golden Perch (Macquaria ambigua)
Phylogeography of a widespread Australian freshwater fish, western carp gudgeon (Eleotridae: Hypseleotris klunzingeri ): Cryptic species, hybrid zones, and strong intra‐specific divergences

... Phylogeographic assessments of freshwater fishes have commonly revealed cryptic species (e.g., Baumsteiger, Kinziger & Aquilar, 2012;Adams et al., 2014;Pinacho-Pinacho et al., 2018), thereby improving knowledge of species richness and diversity in aquatic ecosystems globally (Seehausen & Wagner, 2014). In Australia, for example, the number of recognised (but not necessarily described) species increased by 39 between 2002 and 2013 (Allen, Midgley & Allen, 2002;Unmack, 2013), with many of the newly-defined species revealed by molecular phylogenetic and phylogeographic evidence (Adams et al. 2023). Furthermore, phylogeographic studies have indicated that historical, geological, and/or climatic processes can be determinants of contemporary patterns of biodiversity and distribution across riverine landscapes (e.g., Buckley et al., 2021;Shelley et al., 2020;Waters, Burridge & Craw, 2020). ...

Multi-gene insights into the taxonomy and conservation of Tasmania’s galaxiid fishes
  • Citing Article
  • July 2023

Marine and Freshwater Research

... Previous temporal frameworks for gobioid evolution were exclusively based on a molecular Bayesian framework in which fossils were used solely for node dating (e.g. Thacker, 2015;Thacker et al., 2023). Our study is the first that has analysed fossil and extant gobioid species simultaneously with the aim of deriving a species-level total evidence phylogeny together with dating of the tree. ...

Diversification of the sleepers (Gobiiformes: Gobioidei: Eleotridae) and evolution of the root gobioid families
  • Citing Article
  • June 2023

Molecular Phylogenetics and Evolution

... This study has revealed that carp gudgeons are even more speciose than previously thought, adding several additional candidates to the existing six sexual species plus their various hemiclonal relatives (Thacker, Geiger, & Unmack, 2022, Thacker, Shelley, et al., 2022Unmack et al., 2019). Even ignoring the complication of sympatric hemiclones, many river basins contain at least three or more sexual species, with the geographically extensive MDB notably harboring six sexual taxa (plus multiple hemiclones). ...

Phylogeny, diversification, and biogeography of a hemiclonal hybrid system of native Australian freshwater fishes (Gobiiformes: Gobioidei: Eleotridae: Hypseleotris)

BMC Ecology and Evolution

... Thermal stress and inappetence could be partly due to impacts on renal, liver and osmoregulatory functions and has also been associated with a steep increase in the excretion of pale yellow sloughed intestinal mucosal layer referred to as "pseudofaeces" or faecal casts [16]. These issues are managed in farms with other summer seasonal phenomena, in particular amoebic gill disease, which requires reiterative freshwater bathing [17]. ...

Evaluation of Low Temperature and Salinity as a Treatment of Atlantic Salmon against Amoebic Gill Disease

Microorganisms

... By challenging well-established phylogenies based on a few genes, especially mitochondrial DNA (mtDNA) genes, genomic analyses have allowed the most significant leap forward in the fields of ecology, evolution and systematics for decades (Lexer et al., 2013;Dufresnes et al., 2023). In Palearctic amphibians and reptiles, the implementation of high-throughput sequencing in phylogeography has demonstrated a prominent role of hybridization in the diversification of species complexes through hybrid speciation (e.g., Dufresnes et al., 2019;Zinenko et al., 2016), pervasive and potentially adaptive introgression (e.g., Yang et al., 2021), which can blur molecular-based species identification and delimitation (Unmack et al., 2022;Dufresnes et al., 2023), especially when these processes generate mitonuclear discordance (e.g., Gvoždík et al., 2023). Revisiting evolutionary and taxonomic hypotheses with genomic methods such as double-digest Restriction-Associated DNA (ddRAD-seq) has therefore become a standard in herpetological research (e.g., Dufresnes et al., 2019;Gvoždík et al., 2023;Thanou et al., 2023;Mochales-Riaño et al., 2023). ...

Plotting for change: an analytical framework to aid decisions on which lineages are candidate species in phylogenomic species discovery
  • Citing Article
  • October 2021

Biological Journal of the Linnean Society

... Genetic markers provided the strongest discrimination among capture locations, with genetic differentiation primarily among Kangaroo Island locations and between Kangaroo Island and the mainland. Depth, currents and other barriers of dispersal and movement are likely limiting gene flow across the Kangaroo Island locations, as well as between Kangaroo Island and the mainland (i.e., Investigator Strait and Backstairs Passage) (Volk et al., 2021;Hammer et al., 2021). This degree of connectivity is likely associated with the frequently closed estuarine systems along Kangaroo Island increasing genetic isolation between adjacent locations (Rumbelow et al., 2010), while the more permanently open and connected systems along the mainland are more likely to promote gene flow within Spencer Gulf, Gulf St Vincent, and eastern locations (Coorong, Robe, Glenelg River and Hopkins River) . ...

Surprising Pseudogobius: Molecular systematics of benthic gobies reveals new insights into estuarine biodiversity (Teleostei: Gobiiformes)
  • Citing Article
  • March 2021

Molecular Phylogenetics and Evolution

... Some naturally occurring hybrids provide unexpected opportunities to observe the earliest stages of gametogenesis during sexual differentiation of the gonads. In hybridogenetic frogs, such as P. esculentus [85,104,109] and P. grafi (status: manuscripts in preparation [110,111], as well as in hybridogenetic fish Hypseleotris [112,113], micronuclei appear in interphase gonocytes with highly dispersed chromatin, suggesting that they are in the G0/G1 phase and are equivalent to Q-prospermatogonia in mammals. Our observations of interphase gonocytes in hybridogenetic frogs lead us to accept the thesis that genome elimination occurs in the G0/G1 phase. ...

Uniparental Genome Elimination in Australian Carp Gudgeons

Genome Biology and Evolution

... Tank goby Glossogobius giuris (Hamilton 1822) is a member of the genus Glossogobius (Gill, 1859), belonging to the family Gobiidae and subfamily Gobiinae. This benthic species is widely distributed across diverse aquatic environments, including streams, rivers, wetlands, lakes, and estuaries throughout the Indo-Pacific region (Hammer et al., 2021). One distinctive feature of this species is its pelvic fins, which are fused to form an adhesive disc that allows them to cling to the substrate (Murdy and Hoese, 2002;Campang and Ocampo, 2015). ...

Unravelling the taxonomy and identification of a problematic group of benthic fishes from tropical rivers (Gobiidae: Glossogobius)

... Effective population size and demographic rate estimation can be performed with microsatellites, e.g., in wild Atlantic sturgeon, Acipenser oxyrinchus oxyrinchus [250]. Translocations and reintroductions have been used to prevent the extinction of freshwater fish populations of the hardyhead, C. fluviatilis, in The Murray-Darling Basin in south-eastern Australia [203]. The guided artificial gene flow strategy was based on genetic analyses of 14 microsatellite loci and enabled the rescue of this species from extinction. ...

Range‐wide population genetics study informs on conservation translocations and reintroductions for the endangered Murray hardyhead ( Craterocephalus fluviatilis )
  • Citing Article
  • August 2020

Aquatic Conservation Marine and Freshwater Ecosystems