Exploiting synergistic interactions of Medicago sativa L. and Paraburkholderia tropica for enhanced biodegradation of diesel fuel hydrocarbons

The biotechnological application of microorganisms for rhizoremediation of contaminated sites requires the development of plant-microbe symbionts capable of plant growth promotion and hydrocarbon degradation. Studies focusing on microbial consortia are often difficult to reproduce, thereby necessitating the need for culturable single bacterial species for biotechnological applications.

Through genomic analyses and plant growth experiments, we examined the synergistic interactions of Medicago sativa L. and Paraburkholderia tropica for enhanced remediation of diesel fuel-contaminated soils. Comparative genomics revealed strong potential of P. tropica for plant growth-promotion, chemotaxis and motility, root nodulation and colonization, and diesel fuel degradation.

Plant growth experiments confirmed that P. tropica thrived in the contaminated soils and effectively enhanced M. sativa growth. Geochemical analysis showed that the M. sativa + P. tropica treatment resulted in an efficient degradation of diesel fuel hydrocarbons within two months, offering great prospects for enhanced biodegradation of organic pollutants.