The role of soil microbiome in plant growth and development under stress conditions

Authors

  • Ceren Küçümen Aslan
  • Furkan Ayaz

Keywords:

Plant, Growth, Microbiome

Abstract

Stress-related factors have a negative influence on plant growth and yield. Numerous approaches are used to alleviate these disadvantageous effects on the plant growth. Using soil microbiome and plant growth-promoting bacteria (PGPB) is another method for eradicating the adverse effects that stress-induced conditions have on plants. Numerous studies have shown that plant growth-promoting bacteria (PGPB) increase plant yield under a range of different stress conditions. In this proceeding review we will briefly discuss these issues.

References

Taiz, L., Zeiger, E., Møller, I. M., & Murphy, A. (2015). Plant Physiology and development. Ankara: Palme Yayıncılık

Chen, C., Wang, M., Zhu, J., Tang, Y., Zhang, H., Zhao, Q., ... & Shen, Z. (2022). Long-term effect of epigenetic modification in plant–microbe interactions: modification of DNA methylation induced by plant growth-promoting bacteria mediates promotion process. Microbiome, 10(1), 1-19.

Egamberdiyeva, D. (2007). The effect of plant growth promoting bacteria on growth and nutrient uptake of maize in two different soils. applied soil ecology, 36(2-3), 184-189.

Abdelaal, K., AlKahtani, M., Attia, K., Hafez, Y., Király, L., & Künstler, A. (2021). The role of plant growth-promoting bacteria in alleviating the adverse effects of drought on plants. Biology, 10(6), 520.

Souza, R. D., Ambrosini, A., & Passaglia, L. M. (2015). Plant growth-promoting bacteria as inoculants in agricultural soils. Genetics and molecular biology, 38, 401-419.

Chakraborty, U., Chakraborty, B. N., Chakraborty, A. P., & Dey, P. L. (2013). Water stress amelioration and plant growth promotion in wheat plants by osmotic stress tolerant bacteria. World Journal of Microbiology and Biotechnology, 29(5), 789-803.

Kohler, J., Hernández, J. A., Caravaca, F., & Roldán, A. (2008). Plant-growth-promoting rhizobacteria and arbuscular mycorrhizal fungi modify alleviation biochemical mechanisms in water-stressed plants. Functional Plant Biology, 35(2), 141-151.

Marulanda, A., Azcón, R., Chaumont, F., Ruiz-Lozano, J. M., & Aroca, R. (2010). Regulation of plasma membrane aquaporins by inoculation with a Bacillus megaterium strain in maize (Zea mays L.) plants under unstressed and salt-stressed conditions. Planta, 232(2), 533-543.

Vandana, U. K., Rajkumari, J., Singha, L. P., Satish, L., Alavilli, H., Sudheer, P. D., ... & Pandey, P. (2021). The endophytic microbiome as a hotspot of synergistic interactions, with prospects of plant growth promotion. Biology, 10(2), 101.

Tiwari, M., Pati, D., Mohapatra, R., Sahu, B. B., & Singh, P. (2022). The Impact of Microbes in Plant Immunity and Priming Induced Inheritance: A Sustainable Approach for Crop protection. Plant Stress, 100072.

Downloads

Published

2023-03-22