Çakmakcı, Ö. And Şensoy, S. 2025. Nano-silica modulates salt stress response in lettuce by enhancing growth, antioxidant activity, and mineral uptake. Plant, Soil and Environment , vol.71, no.8 , 553-564.

Çakmakcı, Ö., & Şensoy, S., (2025). Nano-silica modulates salt stress response in lettuce by enhancing growth, antioxidant activity, and mineral uptake. Plant, Soil and Environment , vol.71, no.8, 553-564.

Çakmakcı, Özlem, And Suat Şensoy. "Nano-silica modulates salt stress response in lettuce by enhancing growth, antioxidant activity, and mineral uptake," Plant, Soil and Environment , vol.71, no.8, 553-564, 2025

Çakmakcı, Özlem And Şensoy, Suat. "Nano-silica modulates salt stress response in lettuce by enhancing growth, antioxidant activity, and mineral uptake." Plant, Soil and Environment , vol.71, no.8, pp.553-564, 2025

Çakmakcı, Ö. And Şensoy, S. (2025) . "Nano-silica modulates salt stress response in lettuce by enhancing growth, antioxidant activity, and mineral uptake." Plant, Soil and Environment , vol.71, no.8, pp.553-564.

@article{article, author={Özlem Çakmakcı And author={Suat Şensoy}, title={Nano-silica modulates salt stress response in lettuce by enhancing growth, antioxidant activity, and mineral uptake}, journal={Plant, Soil and Environment}, year=2025, pages={553-564} }