A forgotten habitat? Granite inselbergs conserve reptile diversity in fragmented agricultural landscapes
Article first published online: 7 OCT 2008
© 2008 The Authors. Journal compilation © 2008 British Ecological Society
Journal of Applied Ecology
Volume 45, Issue 6, pages 1742–1752, December 2008
How to Cite
Michael, D. R., Cunningham, R. B. and Lindenmayer, D. B. (2008), A forgotten habitat? Granite inselbergs conserve reptile diversity in fragmented agricultural landscapes. Journal of Applied Ecology, 45: 1742–1752. doi: 10.1111/j.1365-2664.2008.01567.x
- Issue published online: 21 OCT 2008
- Article first published online: 7 OCT 2008
- Received 20 May 2008; accepted 22 August 2008; Handling Editor: Simon Thirgood
- fragmented landscapes;
- granite inselbergs;
- inselberg management;
- landscape ecology theory;
- reptile diversity
- 1Rocky outcrop ecosystems support unique biological communities, high levels of species endemism and are important in the conservation of biodiversity worldwide. Some rocky ecosystems occur in fragmented landscapes, and as such, play a key role in conserving reptile biodiversity in modified environments.
- 2We present a case study of reptile diversity in granite landforms from south-eastern Australia, using a conceptual framework based on landscape ecology theory. We stratified inselbergs by landform and assessed the relevance of patch size, matrix, habitat complexity and hierarchy theories in explaining reptile responses. Regression modelling was used to relate species richness, abundance and diversity to theory and habitat variables.
- 3We found all theories to be generally applicable in interpreting reptile responses in this system but certain habitat attributes needed to be measured carefully to accurately predict reptile responses. We found that reptile species richness and diversity were congruent with predictions of patch size (island biogeography theory) and habitat structure (complexity theory), although both concepts were confounded by landform. Matrix condition had a significant influence on reptile diversity with low predicted values in relictual landscapes.
- 4At the outcrop patch-level, reptile diversity was negatively related to exotic grass cover, stem density, vegetation structure and grazing intensity, whereas native grass cover and total rock cover increased diversity.
- 5Synthesis and applications. The conservation of rock-dwelling reptiles in fragmented agricultural landscapes worldwide can be guided by concepts based on landscape ecology and will involve strategic management of ‘inselberg landscapes’, by addressing issues relevant to both the outcrop and surrounding matrix. Thus, matrix (landscape-level) management should focus on maintaining maximum habitat heterogeneity, whereas outcrop (patch-level) management will require controlling grazing regimes, invasive weeds and woody regrowth, thereby maintaining solar infiltration levels necessary for reptile thermoregulation.