Your search keyword '"Radford IJ"' showing total 15 results

1. Conservation prioritisation of genomic diversity to inform management of a declining mammal species

Author

von Takach, B, Cameron, SF, Cremona, T, Eldridge, MDB, Fisher, DO, Hohnen, R, Jolly, CJ, Kelly, E, Phillips, BL, Radford, IJ, Rick, K, Spencer, PBS, Trewella, GJ, Umbrello, LS, Banks, SC, von Takach, B, Cameron, SF, Cremona, T, Eldridge, MDB, Fisher, DO, Hohnen, R, Jolly, CJ, Kelly, E, Phillips, BL, Radford, IJ, Rick, K, Spencer, PBS, Trewella, GJ, Umbrello, LS, and Banks, SC

Published

2024

2. Population genomics of a predatory mammal reveals patterns of decline and impacts of exposure to toxic toads

Author

von Takach, B, Ranjard, L, Burridge, CP, Cameron, SF, Cremona, T, Eldridge, MDB, Fisher, DO, Frankenberg, S, Hill, BM, Hohnen, R, Jolly, CJ, Kelly, E, MacDonald, AJ, Moussalli, A, Ottewell, K, Phillips, BL, Radford, IJ, Spencer, PBS, Trewella, GJ, Umbrello, LS, Banks, SC, von Takach, B, Ranjard, L, Burridge, CP, Cameron, SF, Cremona, T, Eldridge, MDB, Fisher, DO, Frankenberg, S, Hill, BM, Hohnen, R, Jolly, CJ, Kelly, E, MacDonald, AJ, Moussalli, A, Ottewell, K, Phillips, BL, Radford, IJ, Spencer, PBS, Trewella, GJ, Umbrello, LS, and Banks, SC

Abstract

Mammal declines across northern Australia are one of the major biodiversity loss events occurring globally. There has been no regional assessment of the implications of these species declines for genomic diversity. To address this, we conducted a species-wide assessment of genomic diversity in the northern quoll (Dasyurus hallucatus), an Endangered marsupial carnivore. We used next generation sequencing methods to genotype 10,191 single nucleotide polymorphisms (SNPs) in 352 individuals from across a 3220-km length of the continent, investigating patterns of population genomic structure and diversity, and identifying loci showing signals of putative selection. We found strong heterogeneity in the distribution of genomic diversity across the continent, characterized by (i) biogeographical barriers driving hierarchical population structure through long-term isolation, and (ii) severe reductions in diversity resulting from population declines, exacerbated by the spread of introduced toxic cane toads (Rhinella marina). These results warn of a large ongoing loss of genomic diversity and associated adaptive capacity as mammals decline across northern Australia. Encouragingly, populations of the northern quoll established on toad-free islands by translocations appear to have maintained most of the initial genomic diversity after 16 years. By mapping patterns of genomic diversity within and among populations, and investigating these patterns in the context of population declines, we can provide conservation managers with data critical to informed decision-making. This includes the identification of populations that are candidates for genetic management, the importance of remnant island and insurance/translocated populations for the conservation of genetic diversity, and the characterization of putative evolutionarily significant units.

Published

2022

3. The significance of topographic complexity in habitat selection and persistence of a declining marsupial in the Kimberley region of Western Australia

Author

Hohnen, R, Tuft, K, Legge, S, Walters, N, Johanson, L, Carver, S, Radford, IJ, and Johnson, CN

Subjects

Zoology

Abstract

Mammalian species in northern Australia are declining. The resources that many species from this region require to persist in the landscape remain poorly understood. We examined habitat selection and diet of the scaly-tailed possum (Wyulda squamicaudata, hereafter called Wyulda) in the north-west Kimberley, Western Australia, in relation to variation in complexity of rocky habitat, habitat heterogeneity, and recent fire history. We fitted GPS tags to 23 Wyulda between January 2013 and February 2014 and analysed step selection between GPS fixes to describe habitat choice. We assessed diet by microscopic analysis of plant fragments from 47 faecal samples. Individual Wyulda preferentially foraged in locations with high rock complexity and high habitat heterogeneity in a wide variety of habitats, but denned exclusively in complex rock piles. They used savannas of a range of post-fire ages, including recently burnt (1–2 months after fire) and long unburnt (>24 months after fire). They were highly frugivorous with, on average, 77% of plant fragments per scat sample identified as fruit epidermal layers. Overall, rock complexity appears to be an important landscape attribute for Wyulda, as it may provide den sites and protect fire-sensitive landscape features such as fruiting trees and habitat heterogeneity.

Published

2016

4. Stemming the tide: progress towards resolving the causes of decline and implementing management responses for the disappearing mammal fauna of northern Australia

Author

Ziembicki, MR, Woinarski, JCZ, Webb, JK, Vanderduys, E, Tuft, K, Smith, J, Ritchie, EG, Reardon, TB, Radford, IJ, Preece, N, Perry, J, Murphy, BP, McGregor, H, Legge, S, Leahy, L, Lawes, MJ, Kanowski, J, Johnson, CN, James, A, Griffiths, AD, Gillespie, G, Frank, ASK, Fisher, A, and Burbidge, AA

Published

2015

5. Stemming the tide : progress towards resolving the causes of decline and implementing management responses for the disappearing mammal fauna of northern Australia

Author

Ziembicki,MR, Woinarski,JCZ, Webb,JK, Vanderduys,E, Tuft,K, Smith,J, Ritchie,EG, Reardon,TB, Radford,IJ, Preece,N, Perry,J, Murphy,BP, McGregor,H, Legge,S, Leahy,L, Lawes,MJ, Kanowski,J, Johnson,CN, James,A, Griffiths,AD, Gillespie,G, Frank,ASK, Fisher,A, Burbidge,AA, Ziembicki,MR, Woinarski,JCZ, Webb,JK, Vanderduys,E, Tuft,K, Smith,J, Ritchie,EG, Reardon,TB, Radford,IJ, Preece,N, Perry,J, Murphy,BP, McGregor,H, Legge,S, Leahy,L, Lawes,MJ, Kanowski,J, Johnson,CN, James,A, Griffiths,AD, Gillespie,G, Frank,ASK, Fisher,A, and Burbidge,AA

Published

2015

6. Chromosome counts for the Australian weed known as Senecio madagascariensis (Asteraceae)

Author

Radford, IJ, primary, Liu, Q, additional, and Michael, PW, additional

Published

1995

7. Seedling establishment, mortality, tree growth rates and vigour of Acacia nilotica in different Astrebla grassland habitats: Implications for invasion

Author

Radford, IJ, Nicholas, Mike, Brown, J, and Kriticos, Darren

Published

2002

8. Population genomics of a predatory mammal reveals patterns of decline and impacts of exposure to toxic toads.

Author

von Takach B, Ranjard L, Burridge CP, Cameron SF, Cremona T, Eldridge MDB, Fisher DO, Frankenberg S, Hill BM, Hohnen R, Jolly CJ, Kelly E, MacDonald AJ, Moussalli A, Ottewell K, Phillips BL, Radford IJ, Spencer PBS, Trewella GJ, Umbrello LS, and Banks SC

Subjects

Animals, Bufo marinus genetics, Predatory Behavior, Australia epidemiology, Metagenomics, Marsupialia genetics

Abstract

Mammal declines across northern Australia are one of the major biodiversity loss events occurring globally. There has been no regional assessment of the implications of these species declines for genomic diversity. To address this, we conducted a species-wide assessment of genomic diversity in the northern quoll (Dasyurus hallucatus), an Endangered marsupial carnivore. We used next generation sequencing methods to genotype 10,191 single nucleotide polymorphisms (SNPs) in 352 individuals from across a 3220-km length of the continent, investigating patterns of population genomic structure and diversity, and identifying loci showing signals of putative selection. We found strong heterogeneity in the distribution of genomic diversity across the continent, characterized by (i) biogeographical barriers driving hierarchical population structure through long-term isolation, and (ii) severe reductions in diversity resulting from population declines, exacerbated by the spread of introduced toxic cane toads (Rhinella marina). These results warn of a large ongoing loss of genomic diversity and associated adaptive capacity as mammals decline across northern Australia. Encouragingly, populations of the northern quoll established on toad-free islands by translocations appear to have maintained most of the initial genomic diversity after 16 years. By mapping patterns of genomic diversity within and among populations, and investigating these patterns in the context of population declines, we can provide conservation managers with data critical to informed decision-making. This includes the identification of populations that are candidates for genetic management, the importance of remnant island and insurance/translocated populations for the conservation of genetic diversity, and the characterization of putative evolutionarily significant units., (© 2022 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.)

Published

2022

9. Population genomics and conservation management of a declining tropical rodent.

Author

von Takach B, Penton CE, Murphy BP, Radford IJ, Davies HF, Hill BM, and Banks SC

Subjects

Animals, Australia, Conservation of Natural Resources, Genetic Variation, Genome, Genomics, Mammals, Genetics, Population, Metagenomics, Rodentia genetics

Abstract

Conservation management is improved by incorporating information about the spatial distribution of population genetic diversity into planning strategies. Northern Australia is the location of some of the world's most severe ongoing declines of endemic mammal species, yet we have little genetic information from this regional mammal assemblage to inform a genetic perspective on conservation assessment and planning. We used next-generation sequencing data from remnant populations of the threatened brush-tailed rabbit-rat (Conilurus penicillatus) to compare patterns of genomic diversity and differentiation across the landscape and investigate standardised hierarchical genomic diversity metrics to better understand brush-tailed rabbit-rat population genomic structure. We found strong population structuring, with high levels of differentiation between populations (F ST  = 0.21-0.78). Two distinct genomic lineages between the Tiwi Islands and mainland are also present. Prioritisation analysis showed that one population in both lineages would need to be conserved to retain at least ~80% of alleles for the species. Analysis of standardised genomic diversity metrics showed that approximately half of the total diversity occurs among lineages (δ = 0.091 from grand total γ = 0.184). We suggest that a focus on conserving remnant island populations may not be appropriate for the preservation of species-level genomic diversity and adaptive potential, as these populations represent a small component of the total diversity and a narrow subset of the environmental conditions in which the species occurs. We also highlight the importance of considering both genomic and ecological differentiation between source and receiving populations when considering translocations for conservation purposes.

Published

2021

10. Overlapping den tree selection by three declining arboreal mammal species in an Australian tropical savanna.

Author

Penton CE, Woolley LA, Radford IJ, and Murphy BP

Abstract

Tree cavities are important denning sites for many arboreal mammals. Knowledge of cavity requirements of individual species, as well as potential den overlap among species, is integral to their conservation. In Australia's tropical savannas, development of tree cavities is enhanced by high termite activity, and, conversely, reduced by frequent fires. However, it is poorly understood how the availability of tree cavities in the tropical savannas impacts tree cavity use and selection by cavity-dependent fauna. There has been a severe decline among arboreal mammal species in northern Australia over recent decades. Investigation of their cavity requirements may illuminate why these species have declined drastically in some areas but are persisting in others. Here we examined this issue in three species of arboreal mammals ( Trichosurus vulpecula , Mesembriomys gouldii , Conilurus penicillatus ) on Melville Island, northern Australia. We radiotracked individuals to their den sites to evaluate whether the species differ in their den tree and tree-cavity selection. The strongest influence on den tree selection was the presence of large cavities (> 10 cm entrance diameter), with all three species using larger cavities most frequently. Conilurus penicillatus , the smallest species, differed the most from the other species: it frequently was found in smaller, dead trees and its den sites were closer to the ground, including in hollow logs. The two larger species had broader den tree use, using larger live trees and dens higher up in the canopy. Dens of C. penicillatus are likely to be more susceptible to predation and destruction by high-intensity savanna fires. This may have contributed to this species' rapid decline, both on Melville Island and on the mainland. However, the apparent preference for larger tree cavities by all three arboreal species is concerning due to the limited availability of large trees across Australian savannas, which are subject to frequent, high-intensity fires., (© The Author(s) 2020. Published by Oxford University Press on behalf of the American Society of Mammalogists.)

Published

2020

11. Occupancy of the Invasive Feral Cat Varies with Habitat Complexity.

Author

Hohnen R, Tuft K, McGregor HW, Legge S, Radford IJ, and Johnson CN

Abstract

The domestic cat (Felis catus) is an invasive exotic in many locations around the world and is thought to be a key factor driving recent mammal declines across northern Australia. Many mammal species native to this region now persist only in areas with high topographic complexity, provided by features such as gorges or escarpments. Do mammals persist in these habitats because cats occupy them less, or despite high cat occupancy? We show that occupancy of feral cats was lower in mammal-rich habitats of high topographic complexity. These results support the idea that predation pressure by feral cats is a factor contributing to the collapse of mammal communities across northern Australia. Managing impacts of feral cats is a global conservation challenge. Conservation actions such as choosing sites for small mammal reintroductions may be more successful if variation in cat occupancy with landscape features is taken into account., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

12. Influence of Fire Mosaics, Habitat Characteristics and Cattle Disturbance on Mammals in Fire-Prone Savanna Landscapes of the Northern Kimberley.

Author

Radford IJ, Gibson LA, Corey B, Carnes K, and Fairman R

Subjects

Animals, Australia, Biodiversity, Cattle, Geography, Surveys and Questionnaires, Fires, Grassland, Mammals physiology

Abstract

Patch mosaic burning, in which fire is used to produce a mosaic of habitat patches representative of a range of fire histories ('pyrodiversity'), has been widely advocated to promote greater biodiversity. However, the details of desired fire mosaics for prescribed burning programs are often unspecified. Threatened small to medium-sized mammals (35 g to 5.5 kg) in the fire-prone tropical savannas of Australia appear to be particularly fire-sensitive. Consequently, a clear understanding of which properties of fire mosaics are most instrumental in influencing savanna mammal populations is critical. Here we use mammal capture data, remotely sensed fire information (i.e. time since last fire, fire frequency, frequency of late dry season fires, diversity of post-fire ages in 3 km radius, and spatial extent of recently burnt, intermediate and long unburnt habitat) and structural habitat attributes (including an index of cattle disturbance) to examine which characteristics of fire mosaics most influence mammals in the north-west Kimberley. We used general linear models to examine the relationship between fire mosaic and habitat attributes on total mammal abundance and richness, and the abundance of the most commonly detected species. Strong negative associations of mammal abundance and richness with frequency of late dry season fires, the spatial extent of recently burnt habitat (post-fire age <1 year within 3 km radius) and level of cattle disturbance were observed. Shrub cover was positively related to both mammal abundance and richness, and availability of rock crevices, ground vegetation cover and spatial extent of ≥4 years unburnt habitat were all positively associated with at least some of the mammal species modelled. We found little support for diversity of post-fire age classes in the models. Our results indicate that both a high frequency of intense late dry season fires and extensive, recently burnt vegetation are likely to be detrimental to mammals in the north Kimberley. A managed fire mosaic that reduces large scale and intense fires, including the retention of ≥4 years unburnt patches, will clearly benefit savanna mammals. We also highlighted the importance of fire mosaics that retain sufficient shelter for mammals. Along with fire, it is clear that grazing by introduced herbivores also needs to be reduced so that habitat quality is maintained.

Published

2015

13. Mammals of Australia's tropical savannas: a conceptual model of assemblage structure and regulatory factors in the Kimberley region.

Author

Radford IJ, Dickman CR, Start AN, Palmer C, Carnes K, Everitt C, Fairman R, Graham G, Partridge T, and Thomson A

Subjects

Animals, Australia, Desert Climate, Geography, Rain, Regression Analysis, Species Specificity, Surveys and Questionnaires, Grassland, Mammals physiology, Models, Theoretical, Tropical Climate

Abstract

We construct a state-and-transition model for mammals in tropical savannas in northern Australia to synthesize ecological knowledge and understand mammalian declines. We aimed to validate the existence of alternative mammal assemblage states similar to those in arid Australian grasslands, and to speculate on transition triggers. Based on the arid grassland model, we hypothesized that assemblages are partitioned across rainfall gradients and between substrates. We also predicted that assemblages typical of arid regions in boom periods would be prevalent in savannas with higher and more regular rainfall. Data from eight mammal surveys from the Kimberley region, Western Australia (1994 to 2011) were collated. Survey sites were partitioned across rainfall zones and habitats. Data allowed us to identify three assemblage states: State 0:--low numbers of mammals, State II:--dominated by omnivorous rodents and State III:--dominated by rodents and larger marsupials. Unlike arid grasslands, assemblage dominance by insectivorous dasyurids (State I) did not occur in savannas. Mammal assemblages were partitioned across rainfall zones and between substrates as predicted, but-unlike arid regions-were not related strongly to yearly rainfall. Mammal assemblage composition showed high regional stability, probably related to high annual rainfall and predictable wet season resource pulses. As a consequence, we speculate that perpetually booming assemblages in savannas allow top-down control of the ecosystem, with suppression of introduced cats by the dingo, the region's top predator. Under conditions of low or erratic productivity, imposed increasingly by intense fire regimes and introduced herbivore grazing, dingoes may not limit impacts of cats on native mammals. These interacting factors may explain contemporary declines of savanna mammals as well as historical declines in arid Australia. The cat-ecosystem productivity hypothesis raised here differs from the already-articulated cat-habitat structure hypothesis for mammal declines, and we suggest approaches for explicit testing of transition triggers for competing hypotheses.

Published

2014

14. Can hybridization cause local extinction: a case for demographic swamping of the Australian native Senecio pinnatifolius by the invasive Senecio madagascariensis?

Author

Prentis PJ, White EM, Radford IJ, Lowe AJ, and Clarke AR

Subjects

Australia, Conservation of Natural Resources, Demography, Extinction, Biological, Genetic Variation, Hybridization, Genetic physiology, Senecio genetics, Senecio physiology

Abstract

Hybridization between native and invasive species can have several outcomes, including enhanced weediness in hybrid progeny, evolution of new hybrid lineages and decline of hybridizing species. Whether there is a decline of hybridizing species largely depends on the relative frequencies of parental taxa and the viability of hybrid progeny. Here, the individual- and population-level consequences of hybridization between the Australian native Senecio pinnatifolius and the exotic Senecio madagascariensis were investigated with amplified fragment length polymorphism (AFLP) markers, and this information was used to estimate the annual loss of viable seeds to hybridization. A high frequency (range 8.3-75.6%) of hybrids was detected in open pollinated seeds of both species, but mature hybrids were absent from sympatric populations. A hybridization advantage was observed for S. madagascariensis, where significantly more progeny than expected were sired based on proportional representation of the two species in sympatric populations. Calculations indicated that S. pinnatifolius would produce less viable seed than S. madagascariensis, if hybridization was frequency dependent and S. madagascariensis reached a frequency of between 10 and 60%. For this native-exotic species pair, prezygotic isolating barriers are weak, but low hybrid viability maintains a strong postzygotic barrier to introgression. As a result of asymmetric hybridization, S. pinnatifolius would appear to be under threat if S. madagascariensis increases numerically in areas of contact.

Published

2007

15. Invasiveness and comparative life-history traits of exotic and indigenous Senecio species in Australia.

Author

Radford IJ and Cousens RD

Abstract

A comparative ecological study of closely related invasive and non-invasive species, Senecio madagascariensis and S. lautus (Asteraceae), investigated what traits might confer invasive ability in very similar species. Life-history attributes of the weed S. madagascariensis were compared to five habitat-specific subspecies of S. lautus: S. l. alpinus, S. l. dissectifolius, S. l. lanceolatus and two forms of S. l. maritimus. Field populations of each taxon were monitored to compare their population ecology. Relative rates of phenological development were compared at a single location. Seed germination was studied in a laboratory experiment. Transplant experiments were conducted in a range of S. madagascariensis and S. lautus habitats to compare performance in different environments. In monitored field populations S. madagascariensis produced seedlings and reproductive cohorts more frequently, flowered for longer periods, produced more seeds and had fewer germinable achenes in the soil compared to S. lautus taxa. S. madagascariensis achenes had higher rates of germination than S. lautus in both light and dark conditions. S. madagascariensis was found to have higher rates of survival than S. lautus taxa in a range of habitats and to be faster to flower in both transplant and standard glasshouse environments. Overall S. madagascariensis performed better than S. lautus ecotypes in terms of seedling, growth and fecundity measurements and second best for achenes. Despite relatively good performance in terms of life-history traits there is no evidence that S. madagascariensis is invading S. lautus habitats. We speculate that physiological and morphological adaptations to specialised environments are a better explanation for success of Senecio taxa/ecotypes than generalised life-history trait performance. We suggest that invasiveness is essentially unpredictable, due to habitat/plant specific interactions between invader and area of introduction. In the absence of predictive theory, quarantine authorities should use a combination of methods to assess invasive potential including a database of known weeds, performance comparisons between congeneric natives and exotics in a range of habitats at proposed point of introduction and monitoring of introduced species to determine if they spread.

Published

2000