Abstrakt: |
Major weathering sequences in soils are well established; however, knowledge on rates of mineral transformations remains unknown, because it is often difficult to date precisely soil processes. This work was carried out on soils developed on recent < 188 y sand dunes on the W coast of Oléron Island France. The coast has been protected against marine and wind erosion by constructing five consecutives barriers close to the coastline since 1820 1820, 1864, 1876, 1889, 1948 defining the maximum age of the soil parent material, as before the areas between the barriers were under water. Soils on the older dunes have low clay content > 94 of sand and exhibit a bleached E horizon that overlies a yellowish brown B horizon. The process responsible for their formation is podzolization promoted by the high permeability of the material and complexing organic matter produced by coniferous vegetation. Initial mineralogy of C horizons is homogenous and constituted of chlorite, illite, illitesmectite mixedlayer minerals, and kaolinite, quartz, calcite 8 related to shell fragments, and feldspars. The initial claymineral assemblage of the E horizons is dominated by illite wellcrystallized WCI and poorly crystallized PCI and chlorite. With progressive podzolization, poorly crystallized illite is first transformed to illitesmectite mixedlayer minerals and in a further step into smectite. In addition, transformation of wellcrystallized illite leads to formation of ordered illitesmectite mixedlayer minerals in the E horizons, which is not commonly described in soils. In the B horizons, illitesmectite mixedlayer minerals are present with traces of smectite, as well as Al and Fe oxihydroxides as revealed by DCB and oxalate chemical extractions. This chronosequence illustrates that over short distances and short time < 188 y intense mineral weathering and soil development occur. Major claymineral changes occur between 132 and 188 y in agreement with development of the pine forest producing acidic litter. |