Methods to analyze circular and spherical data are widely used in earth sciences. For instance, structural geologists measure and analyze the orientation of slickenlines (or striae) on fault planes. Circular statistics is also common in paleomagnetic applications. Microstructural investigations include the analysis of the grain shape and quartz c-axis orientation in thin sections. Paleoenvironmentalists reconstruct paleocurrent directions from fossil alignments (Fig. 10.1). In principle, two types of directional data exist in earth sciences: directional data sensu stricto and oriented data. Directional data have a true polarity, such as the paleocurrent direction of a river as documented by flute marks or the flow direction of a glacier as indicated by glacial striae. Oriented data describe axial data and lines without sense of direction, such as the orientation of joints.
CITATION STYLE
Trauth, M. H. (2010). Statistics on Directional Data. In MATLAB® Recipes for Earth Sciences (pp. 311–326). Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-642-12762-5_10
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