Biology and Biotechnology of Environmental Stress Tolerance in Plants (Aryadeep Roychoudhury)

Role of Endophytes, Plant Growth Promoting Rhizobacteria

Chadha, N., Mishra, M., Rajpal, K., Bajaj, R., Choudhary, D. K., & Varma, A., (2015).

An ecological role of fungal endophytes to ameliorate plants under biotic stress. Arch.

Microbiol., 197, 869–881.

Chakraborty, N., Chakraborty, N., Acharyya, P., & Acharya, K., (2021). Isolation,

characterization and identification of novel broad-spectrum bacterial antagonist(s) to

control Fusarium wilt of eggplant. Physiologic. Mol. Plant Pathol., 116, 101711.

Chen, C., Xin, K., Liu, H., Cheng, J., Shen, X., Wang, Y., & Zhang, L., (2017). Pantoea

alhagi, a novel endophytic bacterium with the ability to improve growth and drought

tolerance in wheat. Sci. Rep., 7, 1–14.

Chen, T., Johnson, R., Chen, S., Lv, H., Zhou, J., & Li, C., (2018). Infection by the

fungal endophyte Epichloë bromicola enhances the tolerance of wild barley (Hordeum

brevisubulatum) to salt and alkali stresses. Plant Soil., 428, 353–370.

Cherif, H., Marasco, R., Rolli, E., Ferjani, R., Fusi, M., & Soussi, A., (2015). Oasis desert

farming selects environment-specific date palm root endophytic communities and cultivable

bacteria that promote resistance to drought. Env. Microbiol. Rep., 7, 668−678.

Chu, X., Fu, J., Sun, Y., Xu, Y., Miao, Y., Xu, Y., & Hu, T., (2016). Effect of arbuscular

mycorrhizal fungi inoculation on cold stress-induced oxidative damage in leaves of Elymus

nutans griseb. S. Afr. J. Bot., 104, 21–29.

Coccina, A., Cavagnaro, T. R., Pellegrino, E. E., Ercoli, L., McLaughlin, M., & Watts-

Williams, S. J., (2019). The mycorrhizal pathway of zinc uptake contributes to zinc

accumulation in barley and wheat grain. BMC Plant. Biol., 19, 133–147.

Cohen, A. C., Bottini, R., Pontin, M., Berli, F. J., Moreno, D., & Boccanlandro, H., (2015).

Azospirillum brasilense ameliorates the response of Arabidopsis thaliana to drought mainly

via enhancement of ABA levels. Physiol. Plantarum., 153, 79−90.

Cramer, G. R., Urano, K., Delrot, S., Pezzotti, M., & Shinozaki, K., (2011). Effects of abiotic

stress on plants: A systems biology perspective. BMC Plant Biol., 11, 163.

Creus, C. M., Sueldo, R. J., & Barassi, C. A., (1997). Shoot growth and water status in

Azospirillum-inoculated wheat seedlings grown under osmotic and salt stresses. Plant

Physiol. Biochem., 35, 939–944.

Daei, G., Ardekani, M., Rejali, F., Teimuri, S., & Miransari, M., (2009). Alleviation of salinity

stress on wheat yield, yield components, and nutrient uptake using arbuscular mycorrhizal

fungi under field conditions. J. Plant Physiol., 166, 217–225.

Dastogeer, K. M. G., Chakraborty, A., Sarker, M. S. A., & Akter, M. A., (2020). Roles of

fungal endophytes and viruses in mediating drought stress tolerance in plants. Int. J. Agric.

Biol., 24, 1497‒1512.

Dell’Amico, J., Torrecillas, A., Rodríguez, P., Morte, A., & Sánchez-Blanco, M. J., (2002).

Responses of tomato plants associated with the arbuscular mycorrhizal fungus Glomus

clarum during drought and recovery. J. Agric. Sci., 138, 387–393.

Diagne, N., Ngom, M., Djighaly, P. I., Fall, D., Hocher, V., & Svistoono, S., (2020). Roles of

arbuscular mycorrhizal fungi on plant growth and performance: Importance in biotic and

abiotic stressed regulation. Diversity, 12, 370.

Egamberdieva, D., Wirth, S. J., Shurigin, V. V., Hashem, A., & Abdallah, E. F., (2017).

Endophytic bacteria improve plant growth, symbiotic performance of chickpea (Cicer

arietinum L.) and induce suppression of root rot caused by Fusarium solani under salt

stress. Front. Microbiol., 8, 1887−1899.