The origin of Mediterranean red soils has been the subject of numerous studies. Complex genetic processes, and massive inputs of allochtonous materials such as wind-blown Saharan dust and volcanic ashes, have been advocated to interpret their genesis. The present study was carried out in a traditional olive grove nearby Sassari (Sardinia, Italy), where the land use remained unchanged for the last 150 years, on Terra Rossa developed on Miocene marine limestone.
Polygenetic evolution and bioturbation: micromorphological study of a Terra Rossa soil in a traditional olive crop (Sardinia, Italy) / Zucca, Claudio; Fiori, Valeria; Akça, Erhan; Kapur, Selim; Aksit, Ihsan; Madrau, Salvatore. - (2012), pp. 1937-1937. (Intervento presentato al convegno Soil science for the benefit of mankind and environment: Eurosoil 2012: 4. International congress of the European Soil Science Societies: Book of abstracts).
Polygenetic evolution and bioturbation: micromorphological study of a Terra Rossa soil in a traditional olive crop (Sardinia, Italy)
Zucca, Claudio;Fiori, Valeria;Kapur, Selim;Madrau, Salvatore
2012-01-01
Abstract
The origin of Mediterranean red soils has been the subject of numerous studies. Complex genetic processes, and massive inputs of allochtonous materials such as wind-blown Saharan dust and volcanic ashes, have been advocated to interpret their genesis. The present study was carried out in a traditional olive grove nearby Sassari (Sardinia, Italy), where the land use remained unchanged for the last 150 years, on Terra Rossa developed on Miocene marine limestone.| File | Dimensione | Formato | |
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