The ecology and conservation of the antilopine wallaroo (Macropus antilopinus)
Ritchie, Euan (2007) The ecology and conservation of the antilopine wallaroo (Macropus antilopinus). PhD thesis, James Cook University.
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Research into the factors which limit the distribution and abundance of species has a long tradition in ecology, and knowledge of such factors is vital for guiding the conservation of biodiversity. However, few studies have investigated the way in which intraspecific and interspecific differences in the niche requirements of species vary geographically, despite growing demand for such information in the face of large-scale environmental change, particularly the predicted effects of global warming.
The antilopine wallaroo (Macropus antilopinus) is a large macropod endemic to the extensive tropical savannas of northern Australia. This thesis investigates the ecology and conservation of the antilopine wallaroo across its distribution; in addition, I provide comparative information on other sympatric macropod species. At 50 sites across northern Australia, I collected detailed information on the abundance and social behaviour of a number of macropod species as well as and data on climate, fire history, habitat and resource availability. Using these data I constructed habitat models for species at varying spatial scales. Interpreting broadscale patterns of species’ distributions and abundance also requires an understanding of the individual requirements of species-specific characteristics, such as socioecology and behaviour. Therefore, I also conducted an intensive study of the behaviour of the antilopine wallaroo at one site in north Queensland.
The antilopine wallaroo occurred at 68% of the sites that I surveyed, and the abundance of this species varied substantially across its distribution. The factors influencing the distribution and abundance of the antilopine wallaroo varied according to the spatial scale of analysis. At the largest scale (complete distribution), availability of water, frequency of fire, geology (soil fertility) and land management were the most important factors, whereas within Queensland and at smaller bioregional scales, the abundance of a potential competitor (eastern grey kangaroo, M. giganteus) and aspects of habitat structure and composition were of greater importance. In contrast, the abundance of eastern grey kangaroos and common wallaroos (M. robustus) was strongly influenced by climate. The abundance of antilopine wallaroos increased after fire whereas the abundance of common wallaroos declined.
The antilopine wallaroo was the most gregarious macropod and group sizes increased significantly with population density. The eastern grey kangaroo and whiptail wallaby (M. parryi) were less gregarious than the antilopine wallaroo, and the common wallaroo and agile wallaby (M. agilis) were essentially solitary. Compared with other large tropical macropods, the antilopine wallaroo’s pattern of reproduction was strongly seasonal, centred around the monsoon season. There was marked seasonal variation in the associations between sex and size classes of the antilopine wallaroo, which appear related to reproduction and sexual segregation in this species.
Climate change poses a significant risk to the continued survival of the antilopine wallaroo. The relatively restricted distribution, dependence on water and seasonal breeding pattern of the antilopine wallaroo makes this species the most vulnerable of the four large macropods in northern Australia. The capacity for climate change to alter habitat structure and influence fire regimes within this region is also likely to result in changes to both local and regional macropod communities.
Preliminary genetic data suggest that there has been recent restriction of gene flow between populations of antilopine wallaroos in Queensland and the rest of the species’ distribution, which may be associated with an arid ecological barrier to dispersal at the base of the Gulf of Carpentaria. My results also indicate that hybridisation between the antilopine wallaroo and common wallaroo has occurred across the former species’ range. Further work is therefore required to resolve the taxonomic status of the antilopine wallaroo and the phylogeny of large macropods.
The results of my study provide the most comprehensive information to date on the ecology and conservation of the antilopine wallaroo, and also filled a significant gap in our overall knowledge of macropodid marsupials by expanding our limited knowledge of the tropically-occurring members of this group. More broadly, my research has demonstrated spatial variation in the niche requirements of a large herbivore and has identified many of the key environmental and biological factors influencing the distribution and abundance of species that live in tropical savannas. In addition it has made a substantial contribution to a more comprehensive understanding of the global ecology and evolution of large herbivores.
|Item Type:||Thesis (PhD)|
|Keywords:||antilopine wallaroos, Macropus antilopinus, population distribution, climate, ecology, tropical savannas, north Queensland, northern Australia, abundance, population density, conservation, eastern grey kangaroos, sympatric macropods, common wallaroo, sexual selection, population growth|
|FoR Codes:||06 BIOLOGICAL SCIENCES > 0602 Ecology > 060208 Terrestrial Ecology @ 34%|
06 BIOLOGICAL SCIENCES > 0602 Ecology > 060207 Population Ecology @ 33%
06 BIOLOGICAL SCIENCES > 0602 Ecology > 060201 Behavioural Ecology @ 33%
|SEO Codes:||96 ENVIRONMENT > 9608 Flora, Fauna and Biodiversity > 960806 Forest and Woodlands Flora, Fauna and Biodiversity @ 100%|
|Deposited On:||14 Jul 2009 10:03|
|Last Modified:||13 Feb 2011 05:34|
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