iderophore that had a biocontrol effect against Fusariumwilt and improved pepper development. In this study, strain B2 was discovered to become a great solubilizer of phosphate. Phosphate solubilization has been identified and characterized previously from quite a few Bacillus species, like B. amyloliquefaciens (Abdallah et al., 2018), B. subtilis (Ahmad et al., 2017), and B. pumilus (Ansari et al., 2019). Root colonization by the introduced rhizobacteria is needed for the biocontrol agent to successfully establish effective protection. SEM observations showed helpful root colonization because the strain B2 developed a biofilm more than the root surface. By adhering to plant roots, the bacteria will probably be capable to exploit various compounds in root exudates like sugar, amino acid, organic acid, and vitamin for their survival (Morris and Monier, 2003). The ability of strain B2 to type a biofilm is in line with earlier results (Abdallah et al., 2018). Biofilm associated with the plant roots has been discovered to become valuable for biocontrol and plant growth, as discussed in detail by Morris and Monier (2003) and Flemming and Wuertz (2019). Degradation kinetics showed that P. ostreatus P5 could metabolize a mixture of phenolic acids with high efficiency for the reason that the dry weight of strain P5 mycelia increased as phenolic acids had been degraded. This outcome was comparable to these reported by other research (Chen et al., 2011; Xie and Dai, 2015; Zhang et al., 2020). Acinetobacter calcoaceticus CSY-P13 in the cucumber rhizosphere correctly degraded the mixture of ferulicFrontiers in Microbiology | frontiersin.orgAugust 2021 | Volume 12 | ArticleWang et al.Co-application of Bacteria and FungusFIGURE 9 | Correlations involving Fusarium wilt illness incidence and soil FOC and phenolic acids at 60 days immediately after transplanting.acid and p-hydroxybenzoic acid in liquid GCN5/PCAF Inhibitor Source medium (Wu et al., 2018). Liu et al. (2018) reported that Helotiales sp. has the prospective to make use of 3 phenolic acids as carbon sources and degraded them inside 9 days. Caspase 2 Activator manufacturer However, Zhou et al. (2020) located that while Pseudomonas putida A2 could effectively degrade a single kind of phenolic acids, a mixture of phenolic acids definitely inhibited the growth of this strain. It has been reported that microorganisms could transform 1 phenolic acid to another, which may very well be less or even extra phytotoxic to plants. However, we did not detect any intermediate or transformed metabolites when phenolic acids have been present in cultures of strain P5. Within this study, 5 phenolic compounds (p-hydroxybenzoic acid, vanillic acid, ferulic acid, p-coumaric acid, and benzoic acid) have been detected from the continuous cropping soil that grew cucumber. Nonetheless, Chen et al. (2011) reported six phenolic acids (p-hydroxybenzoic acid, vanillic acid, ferulic acid, benzoic acid, cinnamic acid, and 3-phenylpropanoic acid) within the cucumber cropping soil. These little variations might be explained by the diverse cucumber cultivars and organic soil microorganisms, which could degrade or convert phenolic acids (Zhou et al., 2012). This study showed that, compared with CK, total phenolic acids decreased by 35.9 and 63.2 in P5 and B2 + P5 therapies, respectively. These benefits recommended strain P5 can adapt to soil habitats and promote the degradation of soil phenolic acids in combination with all-natural microorganisms. This discovering was verified by the results of Xie et al. (2017), who determined that fungal Phomopsis liquidambari substantially lowered the r