Biogeographic patterns on Kimberley islands, Western Australia

Gibson, Lesley

doi:10.18195/issn.0313-122x.81.2014.255-280

Cited by 3 publications

(4 citation statements)

References 75 publications

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“…As expected given its restricted and insular distribution, diversity and population size for Johnstonei B were much lower than for Johnstonei A. The islands in which Johnstonei B occurs are “land‐bridge islands,” most recently isolated by sea‐level rise approximately 8,000 to 12,000 years ago (Nix & Kalma, ), and share much of their species diversity with the mainland Kimberley (Gibson, ). The high genetic divergence, corresponding to an estimated late Miocene separation, between Johnstonei A and Johnstonei B contrasts with the low divergence among island and mainland populations in other skinks sampled across the same region (within Johnstonei A and Triacantha B, and also Ctenotus inornatus ; Harradine et al., ).…”

Section: Discussionmentioning

confidence: 63%

“…The islands in which Johnstonei B occurs are "land-bridge islands," most recently isolated by sea-level rise approximately 8,000 to 12,000 years ago (Nix & Kalma, 1972), and share much of their species diversity with F I G U R E 3 Spatial clustering analyses of the nDNA lineages Johnstonei A, Triacantha A and Triacantha B. On the left side are GENELAND heat maps of posterior probability of belonging to cluster one, and on the right side are SPACEMIX geogenetic maps with admixture inference, although no significant admixture was found the mainland Kimberley (Gibson, 2014). The high genetic divergence, corresponding to an estimated late Miocene separation, between Johnstonei A and Johnstonei B contrasts with the low divergence among island and mainland populations in other skinks sampled across the same region (within Johnstonei A and Triacantha B, and also Ctenotus inornatus; Harradine et al, 2015).…”

Section: Cryptic Lineagesmentioning

confidence: 99%

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Tropical specialist vs. climate generalist: Diversification and demographic history of sister species of Carlia skinks from northwestern Australia

et al. 2017

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Species endemic to the tropical regions are expected to be vulnerable to future climate change due in part to their relatively narrow climatic niches. In addition, these species are more likely to have responded strongly to past climatic change, and this can be explored through phylogeographic analyses. To test the hypothesis that tropical specialists are more sensitive to climate change than climate generalists, we generated and analyse sequence data from mtDNA and ~2500 exons to compare scales of historical persistence and population fluctuation in two sister species of Australian rainbow skinks: the tropical specialist Carlia johnstonei and the climate generalist C. triacantha. We expect the tropical specialist species to have deeper and finer-scale phylogeographic structure and stronger demographic fluctuations relative to the closely related climate generalist species, which should have had more stable populations through periods of harsh climate in the late Quaternary. Within C. johnstonei, we find that some populations from the northern Kimberley islands are highly divergent from mainland populations. In C. triacantha, one major clade occurs across the deserts and into the mesic Top End, and another occurs primarily in the Kimberley with scattered records eastwards. Where their ranges overlap in the Kimberley, both mitochondrial DNA and nuclear DNA suggest stronger phylogeographic structure and range expansion within the tropical specialist, whereas the climate generalist has minimal structuring and no evidence of recent past range expansion. These results are consistent with the hypothesis that tropical specialists are more sensitive to past climatic change.

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Section: Discussionmentioning

confidence: 63%

Section: Cryptic Lineagesmentioning

confidence: 99%

Tropical specialist vs. climate generalist: Diversification and demographic history of sister species of Carlia skinks from northwestern Australia

et al. 2017

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“…These results suggest that the Kimberley island system is conducive to moderate levels of dispersal. Recent studies of the Kimberley Islands by Palmer et al (2013) and Gibson (2014) suggest that reptile dispersal may be aided by the large tides and frequent high-rainfall events that occur in the region, coupled with abundant vegetation that could function as rafts. Islands that are more isolated by ocean are much less likely to encounter migrants and are more susceptible to the effects of genetic drift (Hutchison & Templeton 1999).…”

Section: Geographic Isolationmentioning

confidence: 99%

Importance of dispersal routes that minimize open‐ocean movement to the genetic structure of island populations

Harradine

Andrew

Thomas

et al. 2015

Conservation Biology

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Islands present a unique scenario in conservation biology, offering refuge yet imposing limitations on insular populations. The Kimberley region of northwestern Australia has more than 2500 islands that have recently come into focus as substantial conservation resources. It is therefore of great interest for managers to understand the driving forces of genetic structure of species within these island archipelagos. We used the ubiquitous bar-shouldered skink (Ctenotus inornatus) as a model species to represent the influence of landscape factors on genetic structure across the Kimberley islands. On 41 islands and 4 mainland locations in a remote area of Australia, we genotyped individuals across 18 nuclear (microsatellite) markers. Measures of genetic differentiation and diversity were used in two complementary analyses. We used circuit theory and Mantel tests to examine the influence of the landscape matrix on population connectivity and linear regression and model selection based on Akaike's information criterion to investigate landscape controls on genetic diversity. Genetic differentiation between islands was best predicted with circuit-theory models that accounted for the large difference in resistance to dispersal between land and ocean. In contrast, straight-line distances were unrelated to either resistance distances or genetic differentiation. Instead, connectivity was determined by island-hopping routes that allow organisms to minimize the distance of difficult ocean passages. Island populations of C. inornatus retained varying degrees of genetic diversity (N A = 1.83 -7.39), but it was greatest on islands closer to the mainland, in terms of resistance-distance units. In contrast, genetic diversity was unrelated to island size. Our results highlight the potential for islands to contribute to both theoretical and applied conservation, provide strong evidence of the driving forces of population structure within undisturbed landscapes, and identify the islands most valuable for conservation based on their contributions to gene flow and genetic Keywords: bar-shouldered skink (Ctenotus inornatus); CIRCUITSCAPE program; connectivity; genetic drift; island biogeography; isolation by resistance; landscape genetics; aislamiento por resistencia; biogeografía de islas; conectividad; deriva génica; genética de paisajes; programa CIRCUITSCAPE; Ctenotus inornatus La Importancia de las Rutas de Dispersión que Minimizan el Movimiento en Mar Abierto de la Estructura Genética de las Poblaciones Insulares ResumenLas islas presentan un escenario único para la biología de la conservación ya que ofrecen refugio pero a la vez imponen limitaciones sobre las poblaciones insulares. La región Kimberley del noroeste de Australia tiene más de 2500 islas que recientemente han llamado la atención como recursos sustanciales para la conservación. Por esto es de gran interés para los manejadores el entender las fuerzas conductoras de la estructura genética de las especies en estos archipiélagos. Usamos a la especie ubicua Ctenotu...

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“…The study of islands has had a significant and enduring impact on both conservation biology and our knowledge of palaeobiogeography in Australia. Studies have included elucidating the effects of fragmentation, isolation, and extinction of both ancient and extant faunas, determining the importance of appropriate sizes for natural reserves, and providing insights into genetic diversity, evolution, and conservation in extant faunas (Mills et al, 2004;Barnosky et al, 2005;Laurance, 2010;Moro and Lagdon, 2013;Gibson, 2014;McDowell et al, 2015). Much of the Australian north-west shelf was exposed during the Last Glacial Maximum (LGM), which lasted from 26 to 19 ka, after which rapid deglaciation began, causing sea levels to rise and the shelf to be flooded by c. 7 ka (Veth et al, 2007;Reeves et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Palaeoecology and sea level changes: Decline of mammal species richness during late Quaternary island formation in the Montebello Islands, north-western Australia

Piper

Veth

2021

Palaeontol Electron

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Changes in sea level and the formation of islands impact the distributions and abundances of local flora and fauna, with palaeo-environmental investigations providing a context for biological conservation. The palaeo-environmental knowledge of the north-west of Australia during the late Quaternary is sparse, particularly the impact of island formation on local faunas.In 1991 and 1993 Peter Veth and colleagues conducted archaeological surveys of the Montebello Islands, an archipelago situated 70 -90 km from the present-day coastline of north-west Australia. A group of three caves were found during this survey on the eastern side of Campbell Island. Two of the caves, Noala and Hayne's Caves, were analysed by Veth and colleagues in the early 1990s; the last cave, Morgan's Cave, remained unanalysed because it contained negligible archaeological material. It provides an opportunity to refine the interpretation of palaeo-environmental conditions, further information on the original pre-European fauna of the north-west shelf, the formation of the islands due to sea level rise, and the impact of sea level rise on local faunas.The fossil fauna assemblage of Morgan's Cave was sorted, identified to the lowest taxonomic level possible, and counted for analysis on relative abundance for paleoenvironmental interpretation. There are marked patterns of species loss and changing relative abundances in certain species, consistent with island formation due to sea level rise. This palaeoecological interpretation can be used in conservation efforts on nearby Barrow Island, a Class A ecological reserve, and management of faunas in conservation reserves and on islands.

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Biogeographic patterns on Kimberley islands, Western Australia

Cited by 3 publications

References 75 publications

Tropical specialist vs. climate generalist: Diversification and demographic history of sister species of Carlia skinks from northwestern Australia

Tropical specialist vs. climate generalist: Diversification and demographic history of sister species of Carlia skinks from northwestern Australia

Importance of dispersal routes that minimize open‐ocean movement to the genetic structure of island populations

Palaeoecology and sea level changes: Decline of mammal species richness during late Quaternary island formation in the Montebello Islands, north-western Australia

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