Synergistic Plant-microbe Interactions between Endophytic Actinobacteria and Their Role in Plant Growth Promotion and Biological Control of Cotton under salt stress
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Figure S1: Confirmation of plant growth promotion traits by a color change or halo zone on the selective medium (A: Siderophore; B: Cellulase; C: Phosphate solubilization; D: Protease; E: Nitrogen; F: Chitin; G: Lipase ). (H-I) response of endophytic strains to V. dahliae. in vitro.
Figure S2: Effect of endophytic actinobacterial strains on the growth of cotton under salt stress compared with an uninoculated control (CK-).
Table S1: The beneficial traits in selected endophytic bacteria from Thymus roseus in vitro.
Table S2: GC-MS identified components of the antibiosis crude extract of XIEG24 and V. dahliae mixture at pH7. Volatile Compounds are listed in ascending order of Retention with at least percentage match ≤70%.
Table S3: GC-MS identified components of the crude extract of XIEG29 at pH7. Volatile compounds are listed in ascending order of Retention Time with at least percentage match ≤70%).
Table S4: GC-MS identified components of the antibiosis crude extract of XIEG57 and V. dahliae mixture at pH7. Volatile Compounds are listed in ascending order of Retention Time with at least percentage match ≤70%