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The variation of phosphorous content, grain yield, and rhizosphere microbial biomass among durum wheat cultivars under salinity stress

2019; Taylor & Francis; Volume: 66; Issue: 12 Linguagem: Inglês

10.1080/03650340.2019.1691170

1476-3567

Khaoula Boudabbous, Imen Bouhaouel, Chahine Karmous, Nadhira Benaissa, Youssef Trifa, Ali Sahli, Hajer Slim Amara,

Plant nutrient uptake and metabolism

The effectiveness of plant–soil synergies is largely modulated by interaction between cultivar and rhizosphere microbiome. We evaluated the agronomic performance of six durum wheat cultivars, in two semi-arid locations in Tunisia that differed in their irrigation water salinity: S1 (6 dS m−1) and S2 (12 dS m−1). The two-consecutive-year field experiments assessed the effects of the microbial biomass carbon (MBC), leaf phosphorus (LP) and rhizosphere phosphorus (P) on the grain yield (GY) and yield components at tillering and flowering stages. Overall, in saline conditions, cultivars differed in above- and below-ground traits, particularly, with tolerant cultivars presenting relatively greater MBC, P and LP. Furthermore, in S2, GY positively correlated with MBC (r = 0.69), LP (r = 0.80) and P (r = 0.79). Additionally, in S2, MBC positively correlated with P (r = 0.87) and LP (r = 0.85) at flowering. This result was further confirmed by multiple linear regression (step-wise) analysis, which revealed that MBC and LP were the determinant components of GY variability under S2. The present study demonstrates that LP and soil P are mandatory for improving the management of durum wheat. Salinity tolerance was largely affected by the cultivars’ rhizosphere MBC.