School of Earth Sciences - Theses

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    Structural analysis of selected duplex soils
    Knight, Michael John ( 1971)
    The profile characteristics, geographical extent and general environmental relationships of duplex soils are described. They are shown to be an important group in Australia and particularly in Victoria. The variety of approaches and definitions employed by investigators of soil structure are discussed. These are contrasted with the definition used in this thesis which incorporates the concepts of spatial distribution and orientation of vectorial fabric elements in the soil. The importance of describing structural features at a number of scales is emphasized. At each scale an attempt is made to quantitatively describe (where possible) the three or two-dimensional geometrical properties of the soil components. A structural classification of duplex soils that incorporates a number of descriptive geometrical elements is proposed. A detailed study is made of the structure and related chemical, physical and mineralogical properties at an undisturbed site (Boorook) in Western Victoria. The ground surface at the Boorook site is described as being deformed into gilgai microrelief. It is demonstrated that soil structural analysis can be usefully employed to develop a swelling mechanism that explains how the Boorook gilgai probably formed. The data and subsequent analysis tends to place some doubt on mechanisms proposed by past workers. A detailed study is also reported from a site (Hartwell) near Melbourne. The site is described as being illustrative of profiles that show little or no internal and ground surface deformation. An unfolded stoneline is considered to be the principal structural feature. The mechanism for the formation of the stoneline is shown to probably involve gravitational settling of the grains in a fluid-like medium. Regional investigations of profiles throughout Western and Central Victoria and New Guinea are also described. It has been found that the principles and techniques of soil structural analysis can also be applied to buried soil structures. By these means it has been possible to establish that buried fold-like structures seen in section in a road cutting at Terang, are in fact relics of gilgai. Experimental models have assisted the investigations into the structure of duplex soils and have provided additional information on the dynamic interaction of moisture with the soil components. The main processes and sequences in the genetic development of structure of duplex soils as discussed in the light of observations of natural structures and experimental results. Attention is drawn to the differences between the dominant structural processes in the two main horizons of the profile. The approach of soil structural analysis is formalized for profile studies into the discipline of Structural Pedology. The principles of Structural Pedology threaded through the body of the thesis are summarized and shown to be very similar to those of Rock Fabric Analysis. The need for an interdisciplinary approach in this field is emphasized. It is shown that soil structural analysis is not limited to Pedology but rather can be applied to a number of academic and applied problems in a variety of disciplines that include Engineering (Soil Mechanics), Earth Sciences, Agriculture, Soil Erosion and Conservation.