Biotechnologie, Agronomie, Société et Environnement (Jan 2013)
Growth and nutrition of Tetraclinis articulata (Vahl) Mast. cultivated in different rhizosphere soils collected from Tetraclinis stand
Abstract
Five representative plant species (Withania frutescens Pauquy, Lavandula multifida L., Pistacia atlantica Desf., Olea europaea L. subsp. oleaster (Hoffmanns. & Link) Negodi and Tetraclinis articulata [Vahl] Mast.) were selected from Moroccan Tetraclinis woodland in order to evaluate their mycorrhizal potential and to compare the impact of their rhizosphere soil on growth and nutrition of Tetraclinis articulata seedlings. We observed that roots of selected plants were highly colonized by Arbuscular Mycorrhizal (AM) fungi. Lavandula multifida roots showed the highest colonization percentage (100%). We recovered AM fungal spores from the rhizosphere soils of the five plant species and we found that the spores number from L. multifida and T. articulata rhizosphere was significantly different from that of other plants. We assessed the mycorrhizal potential of the indigenous soils by using the Most Probable Number (MPN) approach. We found that MPN in soils collected near the five plant species was significantly higher than the one in the bare soil. The average of MPN per 100 g of dry soil was 11.8 (from 5.6 to 25.0) in the bare soil and 228.5 (from 108.0 to 476.0) in L. multifida rhizosphere. This result indicates that the soil surrounding the target plants can be used as inoculum for mycorrhization. We conducted a nursery experiment in which L. multifida soil yielded a high mycorrhizal percentage in T. articulata plants, thus contributing to improve the plant growth. However, the highest formation of arbuscules in T. articulata grown in Lavandula soil did not significantly affect the growth or the nutrition of plants compared to Tetraclinis soil, except for potassium concentration. Our investigation clearly showed that L. multifida soil can be used as biofertilizer to inoculate nurseries for T. articulata production. This will greatly contribute to sustain Tetraclinis woodland.
