ATICI, Ö. Et Al. 2025. Inoculating maize (Zea mays L.) seeds with halotolerant rhizobacteria from wild halophytes improves physiological and biochemical responses of seedlings to salt stress. Biologia Futura .

ATICI, Ö., Aydın, İ., KARAKUŞ, S., & Tiryaki, D., (2025). Inoculating maize (Zea mays L.) seeds with halotolerant rhizobacteria from wild halophytes improves physiological and biochemical responses of seedlings to salt stress. Biologia Futura .

ATICI, Ökkeş Et Al. "Inoculating maize (Zea mays L.) seeds with halotolerant rhizobacteria from wild halophytes improves physiological and biochemical responses of seedlings to salt stress," Biologia Futura , 2025

ATICI, Ökkeş Et Al. "Inoculating maize (Zea mays L.) seeds with halotolerant rhizobacteria from wild halophytes improves physiological and biochemical responses of seedlings to salt stress." Biologia Futura , 2025

ATICI, Ö. Et Al. (2025) . "Inoculating maize (Zea mays L.) seeds with halotolerant rhizobacteria from wild halophytes improves physiological and biochemical responses of seedlings to salt stress." Biologia Futura .

@article{article, author={Ökkeş ATICI Et Al. }, title={Inoculating maize (Zea mays L.) seeds with halotolerant rhizobacteria from wild halophytes improves physiological and biochemical responses of seedlings to salt stress}, journal={Biologia Futura}, year=2025}