Register      Login
Australian Journal of Zoology Australian Journal of Zoology Society
Evolutionary, molecular and comparative zoology
Shopping Cart: ( empty )
You are here: Home > Journals > ZO > ZO05023
RESEARCH ARTICLE
Contents Vol 53(5)

Foraging ecology of the thermophilic Australian desert ant, Melophorus bagoti

Barbara Muser A , Stefan Sommer B , Harald Wolf A and Rüdiger Wehner B C
+ Author Affiliations
- Author Affiliations

A Department of Neurobiology, University of Ulm, Albert-Einstein-Allee 11, D-89081 Ulm, Germany.

B Institute of Zoology, University of Zürich, Winterthurerstrasse 190, CH-8057 Zürich, Switzerland.

C Corresponding author. Email: rwehner@zool.unizh.ch

Australian Journal of Zoology 53(5) 301-311 https://doi.org/10.1071/ZO05023
Submitted: 25 May 2005  Accepted: 31 August 2005   Published: 11 November 2005

Abstract

The paper describes the foraging ecology of the Australian desert ant, Melophorus bagoti, a thermophilic, diurnal scavenger with ground-nesting colonies. Overlapping foraging ranges, low foraging success rates, and intercolony aggression suggest intense competition for food between colonies. Daily foraging starts when soil surface temperatures approach 50°C. Workers search individually and collect predominantly dead insects. Occasionally, they consume plant secretions. Foraging activity peaks on mid-summer days. On cloudy days the onset of foraging is delayed, and the foraging activity is low. Ants do not forage on rainy days. Typically, workers start their above-ground activities with a few short exploration runs. On average, they perform one foraging run on the first day of their outdoor lives. With age they gradually increase foraging site fidelity and daily foraging effort. Individual foraging efficiency is low at the beginning but grows with experience. However, due to a high mortality rate and, hence, high forager turnover, average rates of foraging success for a colony remain rather low. The outdoor activity gradually decreases towards the end of summer and appears to stop completely during the winter months.


Acknowledgments

We thank Ben D. Hoffmann and two anonymous referees for helpful comments on an earlier version of the manuscript, and the Parks and Wildlife Commission, Northern Territory, for permission to work in the West MacDonnell National Park, Australia. Financial support came from the Swiss National Science Foundation and the G. and A. Claraz Foundation (both grants to RW).


References

Andersen A. N. (2000). ‘The Ants of Northern Australia: a Guide to the Monsoonal Fauna.’ (CSIRO Publishing: Melbourne.)

Andersen, A. N. (2003). Ant biodiversity in arid Australia: productivity, species richness and community organisation. Records of the South Australian Museum Monograph Series , 79–92.
Batschelet E. (1981). ‘Circular Statistics in Biology.’ (Academic Press: New York.)

Briese, D. T. , and Macauley, B. J. (1980). Temporal structure of an ant community in semi-arid Australia. Australian Journal of Ecology 5, 121–134.
Marsh A. C. (1987). Adaptations of myrmicine ant genus Ocymyrmex for exploiting a hot arid environment. In ‘Chemistry and Biology of Social Insects’. (Eds J. Eder and H. Rembold.) p. 542. (J. Peperny: München.)

Marsh A. C. (1990). The biology and ecology of Namib Desert ants. In ‘Namib Ecology: 25 Years of Namib Research’. (Ed. M. K. Seely.) pp. 109–114. Transvaal Museum Monograph No. 7. (Transvaal Museum: Pretoria.)

Schmid-Hempel P. (1983). Foraging ecology and colony structure of two sympatric species of desert ants Cataglyphis bicolor and Cataglyphis albicans. Ph.D. Thesis, University of Zürich.

Schmid-Hempel, P. , and Schmid-Hempel, R. (1984). Life duration and turnover of foragers in the ant Cataglyphis bicolor (Hymenoptera, Formicidae). Insectes Sociaux 31, 345–360.
Crossref | GoogleScholarGoogle Scholar | Shattuck S. O. (1999). ‘Australian Ants. Their Biology and Identification.’ (CSIRO Publishing: Melbourne.)

Shattuck S. O. , and Barnett N. J. (2001). ‘Australian Ants Online.’ Available from http://www.ento.csiro.au/science/ants [Verified 8 August 2005].

Sinclair, D. F. (1985). On tests of spatial randomness using mean nearest neighbor distance. Ecology 66, 1084–1085.
Wehner R. (1987). Spatial organization of foraging behavior in individually searching desert ants, Cataglyphis (Sahara Desert) and Ocymyrmex (Namib Desert). In ‘From Individual to Collective Behavior in Social Insects’. (Eds J. M. Pasteels and J.-L. Deneubourg.) pp. 15–42. (Birkhäuser: Basel.)

Wehner R. , Harkness R. D. , and Schmid-Hempel P. (1983). Foraging strategies in individually searching ants, Cataglyphis bicolor (Hymenoptera: Formicidae). In ‘Akademie der Wissenschaften und der Literatur, Mainz, Mathematisch-Naturwissenschaftliche Klasse’. (Ed. M. Lindauer.) pp. 1–79, two maps. (Fischer: Stuttgart.)

Wehner, R. , Marsh, A. C. , and Wehner, S. (1992). Desert ants on a thermal tightrope. Nature 357, 586–587.
Crossref | GoogleScholarGoogle Scholar |

Wehner, R. , Meier, C. , and Zollikofer, C. (2004). The ontogeny of foraging behaviour in desert ants, Cataglyphis bicolor.  Ecological Entomology 29, 240–250.
Crossref | GoogleScholarGoogle Scholar |