Abstract
Plant growth-promoting bacteria (PGPB) and humic substances (HSs) are promising options for reducing the use of pesticides and mineral fertilizers. Although many studies have shown the effects of PGPB and HSs separately, little information is available on plant responses to the combined application of these biostimulants despite the great potential for the simultaneous action of these biological inputs. Thus, the objective of this review is to present an overview of scientific studies that addressed the application of PGPB and HSs to different crops. First, we discuss the effect of these biostimulants on biological nitrogen fixation, the various effects of the inoculation of beneficial bacteria combined with the application of HSs on promoting the growth of nonleguminous plants and how this combination can increase bacterial colonization of plant hosts. We also address the effect of PGPB and HSs on plant responses to abiotic stresses, in addition to discussing the role of HSs in protecting plants against pathogens. There is a lack of studies that address the role of PGPB + HSs in biocontrol. Understanding the factors involved in the promotion of plant growth through the application of PGPB and HSs can assist in the development of efficient biostimulants for agricultural management. This approach has the potential to accelerate the transition from conventional cultivation to sustainable agrosystems.
Highlights
The use of mineral fertilizers and pesticides ensures high productivity in agricultural systems, and their utilization is justified by the need for increased food production for the growing population
humic substances (HSs) have the ability to stimulate the release of organic acids from plant roots, and these compounds represent a source of nutrients for Plant growth-promoting bacteria (PGPB), which can enhance plant root growth and colonization by these microorganisms, generating several benefits for both plant and soil health (Maji et al, 2017; Olivares et al, 2017; Nardi et al, 2021)
The findings suggested an increase in the efficiency of P use and that the application of P-solubilizing microorganisms (PSM) and HSs can become an alternative to reduce the use of soluble P fertilizers without harming plant yield (Giro et al, 2016)
Summary
The use of mineral fertilizers and pesticides ensures high productivity in agricultural systems, and their utilization is justified by the need for increased food production for the growing population. HSs have the ability to stimulate the release of organic acids from plant roots, and these compounds represent a source of nutrients for PGPB, which can enhance plant root growth and colonization by these microorganisms, generating several benefits for both plant and soil health (Maji et al, 2017; Olivares et al, 2017; Nardi et al, 2021) Biological techniques, such as a combination of PGPB and HSs, are promising approaches for improving plant performance and metabolic processes and can reduce financial and environmental costs for agricultural production (Olivares et al, 2017).
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