Are dingoes a trophic regulator in arid Australia? A comparison of mammal communities on either side of the dingo fence

The direct and indirect interactions that large mammalian carnivores have with other species can have far-reaching effects on ecosystems. In recent years there has been growing interest in the role that Australia's largest terrestrial predator, the dingo, may have in structuring ecosystems. In...

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Published inAustral ecology Vol. 35; no. 2; pp. 167 - 175
Main Authors LETNIC, MIKE, KOCH, FREYA
Format Journal Article
LanguageEnglish
Published Melbourne, Australia Melbourne, Australia : Blackwell Publishing Asia 01.04.2010
Blackwell Publishing Asia
Blackwell Publishing Ltd
Subjects
Arid zones
Australia
Body size
Carnivores
cats
Comparative studies
Deserts
dingo
dingoes
Ecology
Ecosystems
feral animals
fox
Foxes
Grazing
harvesting
Herbivores
kangaroo
Kangaroos
Land use
Macropodidae
Mammals
mesopredator
Notomys fuscus
Overgrazing
predation
Predators
rabbits
sheep
Sminthopsis
Strzelecki Desert
top predator
trophic cascade
Wildlife
Australia
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Abstract The direct and indirect interactions that large mammalian carnivores have with other species can have far-reaching effects on ecosystems. In recent years there has been growing interest in the role that Australia's largest terrestrial predator, the dingo, may have in structuring ecosystems. In this study we investigate the effect of dingo exclusion on mammal communities, by comparing mammal assemblages where dingoes were present and absent. The study was replicated at three locations spanning 300 km in the Strzelecki Desert. We hypothesized that larger species of mammal subject to direct interactions with dingoes should increase in abundance in the absence of dingoes while smaller species subject to predation by mesopredators should decrease in abundance because of increased mesopredator impact. There were stark differences in mammal assemblages on either side of the dingo fence and the effect of dingoes appeared to scale with body size. Kangaroos and red foxes were more abundant in the absence of dingoes while Rabbits and the Dusky Hopping-mouse Notomys fuscus were less abundant where dingoes were absent, suggesting that they may benefit from lower red fox numbers in the presence of dingoes. Feral cats and dunnarts (Sminthopsis spp.) did not respond to dingo exclusion. Our study provides evidence that dingoes do structure mammal communities in arid Australia; however, dingo exclusion is also associated with a suite of land use factors, including sheep grazing and kangaroo harvesting that may also be expected to influence kangaroo and red fox populations. Maintaining or restoring populations of dingoes may be useful strategies to mitigate the impacts of mesopredators and overgrazing by herbivores.
AbstractList The direct and indirect interactions that large mammalian carnivores have with other species can have far-reaching effects on ecosystems. In recent years there has been growing interest in the role that Australia's largest terrestrial predator, the dingo, may have in structuring ecosystems. In this study we investigate the effect of dingo exclusion on mammal communities, by comparing mammal assemblages where dingoes were present and absent. The study was replicated at three locations spanning 300 km in the Strzelecki Desert. We hypothesized that larger species of mammal subject to direct interactions with dingoes should increase in abundance in the absence of dingoes while smaller species subject to predation by mesopredators should decrease in abundance because of increased mesopredator impact. There were stark differences in mammal assemblages on either side of the dingo fence and the effect of dingoes appeared to scale with body size. Kangaroos and red foxes were more abundant in the absence of dingoes while Rabbits and the Dusky Hopping-mouse Notomys fuscus were less abundant where dingoes were absent, suggesting that they may benefit from lower red fox numbers in the presence of dingoes. Feral cats and dunnarts (Sminthopsis spp.) did not respond to dingo exclusion. Our study provides evidence that dingoes do structure mammal communities in arid Australia; however, dingo exclusion is also associated with a suite of land use factors, including sheep grazing and kangaroo harvesting that may also be expected to influence kangaroo and red fox populations. Maintaining or restoring populations of dingoes may be useful strategies to mitigate the impacts of mesopredators and overgrazing by herbivores.
The direct and indirect interactions that large mammalian carnivores have with other species can have far-reaching effects on ecosystems. In recent years there has been growing interest in the role that Australia's largest terrestrial predator, the dingo, may have in structuring ecosystems. In this study we investigate the effect of dingo exclusion on mammal communities, by comparing mammal assemblages where dingoes were present and absent. The study was replicated at three locations spanning 300 km in the Strzelecki Desert. We hypothesized that larger species of mammal subject to direct interactions with dingoes should increase in abundance in the absence of dingoes while smaller species subject to predation by mesopredators should decrease in abundance because of increased mesopredator impact. There were stark differences in mammal assemblages on either side of the dingo fence and the effect of dingoes appeared to scale with body size. Kangaroos and red foxes were more abundant in the absence of dingoes while Rabbits and the Dusky Hopping-mouse Notomys fuscus were less abundant where dingoes were absent, suggesting that they may benefit from lower red fox numbers in the presence of dingoes. Feral cats and dunnarts ( Sminthopsis spp.) did not respond to dingo exclusion. Our study provides evidence that dingoes do structure mammal communities in arid Australia; however, dingo exclusion is also associated with a suite of land use factors, including sheep grazing and kangaroo harvesting that may also be expected to influence kangaroo and red fox populations. Maintaining or restoring populations of dingoes may be useful strategies to mitigate the impacts of mesopredators and overgrazing by herbivores. [PUBLICATION ABSTRACT]
The direct and indirect interactions that large mammalian carnivores have with other species can have far‐reaching effects on ecosystems. In recent years there has been growing interest in the role that Australia's largest terrestrial predator, the dingo, may have in structuring ecosystems. In this study we investigate the effect of dingo exclusion on mammal communities, by comparing mammal assemblages where dingoes were present and absent. The study was replicated at three locations spanning 300 km in the Strzelecki Desert. We hypothesized that larger species of mammal subject to direct interactions with dingoes should increase in abundance in the absence of dingoes while smaller species subject to predation by mesopredators should decrease in abundance because of increased mesopredator impact. There were stark differences in mammal assemblages on either side of the dingo fence and the effect of dingoes appeared to scale with body size. Kangaroos and red foxes were more abundant in the absence of dingoes while Rabbits and the Dusky Hopping‐mouse Notomys fuscus were less abundant where dingoes were absent, suggesting that they may benefit from lower red fox numbers in the presence of dingoes. Feral cats and dunnarts ( Sminthopsis spp.) did not respond to dingo exclusion. Our study provides evidence that dingoes do structure mammal communities in arid Australia; however, dingo exclusion is also associated with a suite of land use factors, including sheep grazing and kangaroo harvesting that may also be expected to influence kangaroo and red fox populations. Maintaining or restoring populations of dingoes may be useful strategies to mitigate the impacts of mesopredators and overgrazing by herbivores.
AbstractThe direct and indirect interactions that large mammalian carnivores have with other species can have far-reaching effects on ecosystems. In recent years there has been growing interest in the role that Australia's largest terrestrial predator, the dingo, may have in structuring ecosystems. In this study we investigate the effect of dingo exclusion on mammal communities, by comparing mammal assemblages where dingoes were present and absent. The study was replicated at three locations spanning 300 km in the Strzelecki Desert. We hypothesized that larger species of mammal subject to direct interactions with dingoes should increase in abundance in the absence of dingoes while smaller species subject to predation by mesopredators should decrease in abundance because of increased mesopredator impact. There were stark differences in mammal assemblages on either side of the dingo fence and the effect of dingoes appeared to scale with body size. Kangaroos and red foxes were more abundant in the absence of dingoes while Rabbits and the Dusky Hopping-mouse Notomys fuscus were less abundant where dingoes were absent, suggesting that they may benefit from lower red fox numbers in the presence of dingoes. Feral cats and dunnarts (Sminthopsis spp.) did not respond to dingo exclusion. Our study provides evidence that dingoes do structure mammal communities in arid Australia; however, dingo exclusion is also associated with a suite of land use factors, including sheep grazing and kangaroo harvesting that may also be expected to influence kangaroo and red fox populations. Maintaining or restoring populations of dingoes may be useful strategies to mitigate the impacts of mesopredators and overgrazing by herbivores.
Author LETNIC, MIKE
KOCH, FREYA
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Burrows N. D., Algar D., Robinson A. D., Sinagra J., Ward B. & Liddelow G. (2003) Controlling introduced predators in the Gibson Desert of Western Australia. J. Arid Environ. 55, 691-713.
Fleming P. J. S., Allen L. R., Lapidge S. J., Robley A., Saunders G. R. & Thomson P. C. (2006) A strategic approach to mitigating the effects of wild canids: proposed activities of the Invasive Animals Cooperative Research Centre. Aust. J. Exp. Agric. 46, 753-62.
Caughley G., Grigg G. C., Caughley J. & Hill G. J. E. (1980) Does dingo predation control the densities of kangaroos and emus? Aust. Wildl. Res. 7, 1-12.
Moseby K. E., Owens H., Brandle R., Bice J. K. & Gates J. (2006) Variation in population dynamics and movement patterns between two geographically isolated populations of the dusky hopping mouse (Notomys fuscus). Wildl. Res. 33, 223-32.
Holden C. & Mutze G. (2002) Impact of rabbit haemorrhagic disease on introduced predators in the Flinders Ranges, South Australia. Wildl. Res. 29, 615-26.
Strahan R. (1995) The Australian Museum Complete Book of Australian Mammals. Angus and Robertson, Sydney.
Landsberg J., James C. D., Morton S. R. et al. (1997) The Effects of Artificial Sources of Water on Rangeland Biodiversity. Environment Australia and CSIRO, Canberra.
Read J. L. (1997) Stranded on desert islands? Factors shaping animal populations in Lake Eyre South. Glob. Ecol. Biogeogr. Lett. 6, 431-8.
Beyer H. L., Merrill E. H., Varley N. & Boyce M. S. (2007) Willow on Yellowstone's northern range: evidence for a trophic cascade? Ecol. Appl. 17, 1563-71.
Wootton J. T. (1997) Estimates and tests of per capita interaction strength: diet, abundance, and impact of intertidally foraging birds. Ecol. Monogr. 67, 45-64.
Berger K. M., Gese E. M. & Berger J. (2008) Indirect effects and traditional trophic cascades: a test involving wolves, coyotes and pronghorn. Ecology 89, 818-28.
Corbett L. K. & Newsome A. E. (1987) The feeding ecology of the dingo. III. Dietary relationships with widely fluctuating prey populations in arid Australia: an hypothesis of alternation of predation. Oecologia 74, 215-27.
Caughley G., Grice D., Barker R. & Brown B. (1988) The edge of the range. J. Anim. Ecol. 57, 771-85.
Dawson T. J., McTavish K. J., Munn A. J. & Holloway J. (2006) Water use and the thermoregulatory behaviour of kangaroos in arid regions: insights into the colonization of arid rangelands in Australia by the Eastern Grey Kangaroo (Macropus giganteus). J. Comp. Physiol. B 176, 45-53.
Elmhagen B. & Rushton S. P. (2007) Trophic control of mesopredators in terrestrial ecosystems: top-down or bottom-up. Ecol. Lett. 10, 197-206.
Caughley G., Grigg G. C. & Smith L. (1985) The effect of drought on kangaroo populations. J. Wildl. Manage. 49, 679-85.
Grice D., Caughley G. & Short J. (1985) Density and distribution of emus. Aust. Wildl. Res. 12, 69-73.
Marsack P. & Campbell G. (1990) Feeding behaviour and diet of dingoes in the Nullarbor region, Western Australia. Aust. Wildl. Res. 17, 349-57.
Newsome A. E., Catling P. C., Cooke B. D. & Smyth R. (2001) Two ecological universes separated by the dingo fence in semi-arid Australia: interactions between landscapes, herbivory and carnivory, with and without dingoes. Rangel. J. 23, 71-98.
Dawson T. J. (1995) Kangaroos: Biology of the Largest Marsupials. University of New South Wales Press, Sydney.
Clarke K. R. (1993) Nonparametric multivariate analyses of changes in community structure. Aust. J. Ecol. 18, 117-43.
Risbey D. A., Calver M. C., Short J., Bradley J. S. & Wright W. (2000) The impact of cats and foxes on the small vertebrate fauna of Heirisson Prong, Western Australia. II. A field experiment. Wildl. Res. 27, 223-35.
Soulé M. E., Estes J. A., Berger J. & Martinez Del Rio C. (2003) Ecological effectiveness: conservation goals for interactive species. Conserv. Biol. 17, 1238-50.
Quinn G. P. & Keough M. J. (2002) Experimental Design and Data Analysis for Biologists. Cambridge University Press, Cambridge.
Sinclair A. R., Mduma S. & Brashares J. S. (2003) Patterns of predation in a diverse predator-prey system. Nature 18, 288-90.
Letnic M., Tamayo B. & Dickman C. R. (2005) The responses of mammals to La Niña (El Niño Southern Oscillation)-associated rainfall, predation and wildfire in Central Australia. J. Mamm. 86, 689-703.
Ripple W. J. & Beschta R. L. (2007) Restoring Yellowstone's aspen with wolves. Biol. Conserv. 138, 514-9.
Saunders G., Coman B., Kinnear J. & Braysher M. (1995) Managing Vertebrate Pests: Foxes. Australian Government Printing Service, Canberra.
Allen L. R. & Sparkes E. C. (2001) The effect of dingo control on sheep and beef cattle in Queensland. J. Appl. Ecol. 38 , 76-87.
Morton S. R. (1978) An ecological study of Sminthopsis crassicaudata (Marsupialia: Dasyuridae) I. Distribution, study areas and methods. Aust. Wildl. Res. 5, 151-62.
Jansen A. & Robertson A. I. (2001) Relationships between livestock management and the ecological condition of riparian habitats along an Australian floodplain river. J. Appl. Ecol. 38, 63-75.
Ludwig J., Tongway D., Freudenberger D., Noble J. & Hodgkinson K. (1997) Landscape Ecology Function and Management: Principles from Australia's Rangelands. CSIRO, Canberra.
Read J. & Bowen Z. (2001) Population dynamics, diet and aspects of the biology of feral cats and foxes in arid South Australia. Wildl. Res. 28, 195-203.
Shepherd N. C. (1981) Predation of red kangaroos, Macropus rufus, by the dingo, Canis familiaris dingo (Blumenbach), in North-Western New South Wales. Aust. Wildl. Res. 8, 255-62.
Glen A. S. & Dickman C. R. (2005) Complex interactions among mammalian carnivores in Australia, and their implications for wildlife management. Biol. Rev. 80, 387-401.
Shapira I., Sultan H. & Shanas U. (2008) Agricultural farming alters predator-prey interactions in nearby natural habitats. Anim. Conserv. 11, 1-8.
White P. J. & Garrott R. A. (2005) Yellowstone's ungulates after wolves- expectations, realizations, and predictions. Biol. Conserv. 125, 141-52.
2007; 17
2000; 27
1987; 74
1990; 17
2006; 33
2004; 26
1997; 67
1997
1978; 5
2006; 176
2005; 86
2007
1988; 57
1995
1981; 8
2005; 80
2003; 17
1999; 400
2008; 11
2003; 18
2001; 28
2002
2007; 30
2007; 10
2007; 32
2001; 23
1997; 6
1985; 49
2003; 55
1996; 77
2009; 12
2004; 31
1993; 18
2002; 29
2007; 138
2006; 46
2006; 43
1991; 88
2005; 125
2007; 274
1982; 9
2008; 89
1980; 7
2001; 38
2001; 11
1985; 12
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Strahan R. (e_1_2_6_52_1) 1995
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Snippet The direct and indirect interactions that large mammalian carnivores have with other species can have far-reaching effects on ecosystems. In recent years there...
The direct and indirect interactions that large mammalian carnivores have with other species can have far‐reaching effects on ecosystems. In recent years there...
AbstractThe direct and indirect interactions that large mammalian carnivores have with other species can have far-reaching effects on ecosystems. In recent...
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SubjectTerms Arid zones
Australia
Body size
Carnivores
cats
Comparative studies
Deserts
dingo
dingoes
Ecology
Ecosystems
feral animals
fox
Foxes
Grazing
harvesting
Herbivores
kangaroo
Kangaroos
Land use
Macropodidae
Mammals
mesopredator
Notomys fuscus
Overgrazing
predation
Predators
rabbits
sheep
Sminthopsis
Strzelecki Desert
top predator
trophic cascade
Wildlife
Title Are dingoes a trophic regulator in arid Australia? A comparison of mammal communities on either side of the dingo fence
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Volume 35
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