Biotechnical characteristics of root systems of typical Mediterranean species

Vegetation can significantly contribute to stabilise sloping terrain by adding cohesion to soil: this reinforcement depends on the morphological characteristics of the root systems and the tensile strength of single roots. The paper presents the results of research carried out in order to evaluate t...

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Bibliographic Details
Published in:Plant and Soil
Main Authors: C. Mattia, F. Gentile, G.B. Bischetti
Format: Article in Journal/Newspaper
Language:English
Published: SPRINGER 2005
Subjects:
Atriplex halimu
Biotechnical propertie
Hillslope stability
Lygeum spartum
Pistacia lentiscu
Root systems
Settore AGR/08 - Idraulica Agraria e Sistemazioni Idraulico-Forestali
Prince of Wales Island
Online Access:http://hdl.handle.net/2434/6183
https://doi.org/10.1007/s11104-005-7930-5
Description
Summary:Vegetation can significantly contribute to stabilise sloping terrain by adding cohesion to soil: this reinforcement depends on the morphological characteristics of the root systems and the tensile strength of single roots. The paper presents the results of research carried out in order to evaluate the biotechnical characteristics of the root system of three typical Mediterranean plant species which can affect slope stability. The species considered in the present study are Lygeum spartum L. (a perennial herbaceous monocotyledonous), Atriplex halimus L. and Pistacia lentiscus L. (two dicotyledonous shrub species). The plant specimens were collected in the Basilicata region (Southern Italy) by in situ excavation to obtain the whole root systems. Single root specimens for each species were sampled and tested for tensile strength measurement, and the complete root systems were analysed to evaluate the root density distribution with depth in terms of Root Area Ratio. The resulting data have been used to calculate the reinforcing effect in terms of increased shear strength of the soil using the model of Wu (1976, Investigation of landslides on Prince of Wales Island. Geotech. Eng. Rep. 5 Civil Eng. Dep. Ohio State Univ. Columbus, Ohio, USA) and Waldron (1977, Soil Sci. Soc. Am. J. 41(3), 843-849), a simple and widespread model based on the reinforced earth theory. The results show that root reinforcement exerted by L. spartum is stronger than the reinforcement exerted by P. lentiscus and A. halimus in the upper layers of the soil, while P. lentiscus presents higher reinforcement values in deeper horizons. A. halimus presents lower values than either of the other species studied.

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