A classification of tephra in volcanic soils. A tool for soil scientists. P. De Paepe and G. Stoops Laboratorium voor Mineralogie, Petrologie en Micropedologie, Universiteit Gent, Belgium Fieldwork and microscopic studies in the frame of the COST-action 622 have shown that there is a need for a uniform and simple system for the description and classification of pyroclastic material in soils and soil thin sections. Although geologists and petrographers dispose of an intemationally accepted, comprehensive system for classification and textural description of igneous and pyroclastic rocks (Schmid, 1981; Fisher & Schmincke, 1984; Le Maítre et al., 1989), soil scientists quite often continue to use local and/or obsolete terms. The aim of this paper is to propose a selection of terms to be used in order to reach a more uniform description of volcanic materials in soil profiles, both in the field and in thin sections. Taking into account that some physical properties of tephra may influence soil properties, following parameters are considered to be of major importance: 1° particle size, 2° vesicularity, 3° crystallinity and texture, and 4° chemical composition. 1° Particle size. Tephra is a collective term used in petrology for unconsolidated accumulations of solid fragmented matter produced by explosive volcanism. Individual pyroclastic fragments, also known as pyroclasts, can be named according to a wide range of criteria, but the most fundamental basis for description purposes in the field and under the microscope is grain size. Hence, the widely used granulometric classification and nomenclature of pyroclasts and well-sorted pyroclastic deposits elaborated under the authority of a subcommission of the Intemational Union of Geological Sciences (IUGS) (Schmid, 1981) should be applied by preference (Table 1). Table 1 Classification and nomenclature of pyroclasts and well-sorted pyroclastic deposits based on clast size (after Schmid, 1981) Clast size Pyroclast Pyroclastic deposit in mm Mainly unconsolidated: tephra Mainly consolidated: pyroclastic rock 64 bomb, block agglomerate bed of blocks or bomb, block tephra agglomerate pyroclastic breccia Lapillus layer, bed of lapilli or lapilli tephra lapilli tuff 2 1/16 coarse ash grain coarse ash coarse (ash) tuff fine ash grain (dust grain) fine ash (dust) fine (ash) tuff (dust tuff) 2° Vesicularity. Vesicles form by expansion of dissolved gases in the molten rock. Their abundance controls the bulk density and alteration rate of volcanic glasses and crystalline rocks. Pumice is light coloured, extremely vesicular silicic glass with low density. Vesicular basaltic ejecta (so-called scoriae) are black or iridescent when fresh, but their colour becomes drab to deep reddish brown with increasing degree of oxidation, rendering them nearly opaque in transmitted light. They seem also more resistant to weathering. 56

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