Kurt, Z. And ATEŞ, S. 2024. Application of Silicon Iron and Silver Nanoparticles Improve Vegetative Development and Physiological Characteristics of Boysenberry Plants Grown under Salinity Stress In Vitro Cultivation Conditions. Horticulturae , vol.10, no.10 .

Kurt, Z., & ATEŞ, S., (2024). Application of Silicon Iron and Silver Nanoparticles Improve Vegetative Development and Physiological Characteristics of Boysenberry Plants Grown under Salinity Stress In Vitro Cultivation Conditions. Horticulturae , vol.10, no.10.

Kurt, Zehra, And SEVİNÇ ATEŞ. "Application of Silicon Iron and Silver Nanoparticles Improve Vegetative Development and Physiological Characteristics of Boysenberry Plants Grown under Salinity Stress In Vitro Cultivation Conditions," Horticulturae , vol.10, no.10, 2024

Kurt, Zehra And ATEŞ, SEVİNÇ. "Application of Silicon Iron and Silver Nanoparticles Improve Vegetative Development and Physiological Characteristics of Boysenberry Plants Grown under Salinity Stress In Vitro Cultivation Conditions." Horticulturae , vol.10, no.10, 2024

Kurt, Z. And ATEŞ, S. (2024) . "Application of Silicon Iron and Silver Nanoparticles Improve Vegetative Development and Physiological Characteristics of Boysenberry Plants Grown under Salinity Stress In Vitro Cultivation Conditions." Horticulturae , vol.10, no.10.

@article{article, author={Zehra Kurt And author={SEVİNÇ ATEŞ}, title={Application of Silicon Iron and Silver Nanoparticles Improve Vegetative Development and Physiological Characteristics of Boysenberry Plants Grown under Salinity Stress In Vitro Cultivation Conditions}, journal={Horticulturae}, year=2024}