Variability of the rhizospheric mycodiversity of the Algerian Pistacia atlantica Desf.

Abstract Mycobionts make up most of the genetic diversity of underground life. Despite their abundance, their impact on terrestrial ecosystem processes is still poorly understood. Estimates suggest that 95% of plant species rely entirely on microbial symbiotes for growth and survival, underlining their importance in soil as a regulator of plant species richness and diversity. In this study, we explore an inventory of the fungal rhizobiome of two populations of Atlas pistachio in Laghouat (Algeria), a typical hot and arid region. Six healthy trees of different age classes were randomly sampled from each site during April 2016. In spite of the arid climate in our study area, microscopic identification revealed important fungal richness belonging to four phyla: Ascomycota, Glomeromycota and Basidiomycota with the exclusive presence of Mucoromycota in dayate Saadi. The fungal strains recorded indicate a high abundance of the Acaulospora sp. and Glomus sp. genera for the Glomeromycota phylum and Fusarium sp. genus for the other phyla. Shannon-Wiener diversity and evenness indices proved to be the highest at dayate Saadi. Dayate El Gouffa, however, is the least disturbed. Most of the strains recorded correspond to genera with a strong affinity for environments rich in organic matter, with high levels of total limestone, basic pH, and high levels of clay and fine silts as shown in the dayate Saadi soils. As for the dayate El Gouffa soils, they show a low organic matter content. They are less calcareous, with a very basic pH and predominance of coarse silts and coarse sands. The high rate of these granulometric fractions could explain the presence of Gigaspora sp. only in this daya. Our results indicated the strong impact of soils proprities on the rhizobiome community composition and might be explained by differences in the degree of fungi selectivity for each sampled site.