Endophytic fungus Serendipita indica reduces arsenic mobilization from root to fruit in colonized tomato plant

The accumulation of arsenic in crop plants has become a worldwide concern that affects millions of people. The major source of arsenic in crop plants is irrigation water and soil. In this study, Serendipita indica, an endophytic fungus, was used to investigate the protection against arsenic and its accumulation in the tomato plant. We found that inoculation of S. indica recovers seed germination, plant growth and improves overall plant health under arsenic stress. A hyper-colonization of fungus in the plant root was observed under arsenic stress, which results in reduced oxidative stress via modulation of antioxidative enzymes, glutathione, and proline levels. Furthermore, fungal colonization restricts arsenic mobilization from root to shoot and fruit by accumulating it exclusively in the root. We observed that fungal colonization enhances the arsenic bioaccumulation factor 1.48 times in root and reduces the arsenic translocation factor by 2.96 times from root to shoot and 13.6 times from root to fruit compared to non colonized plants. Further, investigation suggests that S. indica can tolerate arsenic by immobilizing it on the cell wall and accumulating it in the vacuole. This study shows that S. indica may be helpful for the reduction of arsenic accumulation in crops grown in arsenic-contaminated agriculture fields.

Automated summary

The accumulation of arsenic in crop plants is a global concern. In this study, the endophytic fungus Serendipita indica was found to protect tomato plants from arsenic and reduce its accumulation. The fungus colonized the plant root, reducing oxidative stress and restricting the movement of arsenic from root to shoot and fruit. The study suggests that S. indica can tolerate arsenic by immobilizing it on the cell wall and accumulating it in the vacuole.