The role of climate and local regolith–landscape processes in determining the pedological characteristics of æolian dust deposits across south-eastern Australia

Abstract

Fine-grained æolian sediments are an important component of many loessic soil–landscape systems across south-eastern Australia. These loessic soils are commonly related to the deposition of ‘parna’, a red, clayey, calcareous material proposed to have been transported predominantly as silt-sized pellets and companion silt grains. However, it is apparent that loessic soils of south-eastern Australia do not necessarily exhibit or retain the morphological features regarded as typical of parna. This may be due to variations in post-depositional pedogenic processes operating over long periods of time. It is important to understand this inconsistency in loessic soil expression because the physico-chemical and structural attributes of these profiles may significantly affect catchment-wide processes such as salinisation and erosion. In this paper, the pedological features of a range of previously identified loessic profiles occurring across south-eastern Australia are examined to assess the relative importance of climate and local landscape processes on profile characteristics. Most of the sampling sites occur in mid- to upper-slope positions, while the annual average rainfall of the sites ranges from 440 mm to 650 mm. The deepest profiles in the driest locations tend to yield whole-coloured, slightly alkaline, slightly saline and sodic subsoils with moderate cation exchange capacities. Profiles in the wettest locations are generally characterised by smaller cation exchange capacities, are acidic, non-saline and non-sodic, and feature prominent mottling and sesquioxide nodules. Measurements and predictions of the structural attributes of the profiles indicate that all topsoils are quite stable to wetting, whereas subsoils exhibit variable stabilities, depending on physico-chemical properties. These results appear to demonstrate a broad climosequence effect on loessic soil attributes. The climosequence effect was compared to the changes in loessic profile characteristics down a case study toposequence in southern New South Wales. The toposequence indicates that local landscape features such as slope and drainage have also been important in determining the properties of these materials, as has re-working by colluvial processes. We conclude that to explain adequately the current characteristics of profiles containing fine-grained æolian sediments, particularly their salinisation potential and stability to erosion, it is critical to consider both the past and present climate and the local soil-forming processes.