Abstract:
Small property size is often cited as one of the major causes of rangeland degradation in Australia.However, there is some conjecture as to the importance of this effect and the process by which smallproperty sizes lead to rangeland degradation. Relatively little empirical analysis of these issues hasbeen undertaken, especially in a dynamic context which is all important in the case of rangelanddegradation.Regression and dynamic programming techniques are employed in this study to investigate and measurethe impact of property sizes on the use and state of one of Australia's most important rangelands, theQueensland mulga rangeland. Regression analysis of cross sectional data reveals significantcorrelations between property size, stocking rate and degradation. These correlations are confirmed in anormative stochastic dynamic programming model which demonstrates that it is economically optimalfor graziers managing smaller properties to adopt higher stocking rates. For these graziers, thelongterm costs of land degradation are exceeded by short-term financial benefits of heavier stocking.Thus government policy aimed at arresting the serious degradation occurring in the mulga rangelandsshould focus on measures to facilitate property build-up..