Dr David Eldridge

Dr David Eldridge

Adjunct Professor
Field of Research
Dryland Science

Head of the Arid Ecology Lab

Research & Current Projects


My work aims to understand more about the impacts of human induced land uses in drylands and the links between land-use change and environmental change. Drylands are important because they support about 40% of the global human population, are used extensively for pastoralism, are often centres of human conflict, and are likely to experience substantial changes in land use due to predicted changes in climate. Specifically, my research seeks to understand the relationships among plants, microbes and soil processes and how these change with changes in land use and climate.

My work is multidisciplinary, covering broad areas of rangeland ecology, ecosystem engineering (the effects of organisms on soil processes), soil biology, soil chemistry, restoration ecology and microbiology. The focus of my research is on the semi-arid woodlands of eastern Australia, but I have long-term research interests in the western United States, the Middle East and China.

Current Projects

I am a Senior Principal Research Scientist with the NSW Office of Environment and Heritage, so my research is of an applied nature. I have four main areas of research:

1. The nature and effects of woody encroachment – Woody encroachment is a global phenomenon whereby grasslands are converted to would land and shrub land, presenting substantial challenges for pastoralists, but opportunities to alter ecosystem services such as hydrology and carbon sequestration. 

2. Impacts of herbivore activity – Grazing by domestic and wild herbivores is a substantial land-use in drylands but has considerable impacts on soils, plants, animals and existing functions.

3. Ecosystem engineering – The loss of native soil disturbing animals has been linked to clear reductions in ecosystem functions in drylands, my research aims to quantify these effects and examines the importance of reintroduced animals for restoring degraded ecosystems.

4. Ecology of biological soil crusts – Biocrusts enhance soil function in drylands but are susceptible to overgrazing and changing climates.

See also:




Journal of Arid Environments

Restoration Ecology

Research students

Jingyi Ding 

Max Mallen-Cooper

Orsi Dekker


See Google Scholar profile 

+61 2 9385 2194

Room G14C, Samuels Building (F25), UNSW, Kensington 2052