Bülbül, S. Et Al. 2024. Heliotropium thermophilum adapts to high soil temperature in natural conditions due to its highly active antioxidant system protecting its photosynthetic machinery. FUNCTIONAL PLANT BIOLOGY , vol.51, no.7 .

Bülbül, S., Sezgin Muslu, A., SAĞLAM, A., & KADIOĞLU, A., (2024). Heliotropium thermophilum adapts to high soil temperature in natural conditions due to its highly active antioxidant system protecting its photosynthetic machinery. FUNCTIONAL PLANT BIOLOGY , vol.51, no.7.

Bülbül, Sevgi Et Al. "Heliotropium thermophilum adapts to high soil temperature in natural conditions due to its highly active antioxidant system protecting its photosynthetic machinery," FUNCTIONAL PLANT BIOLOGY , vol.51, no.7, 2024

Bülbül, Sevgi Et Al. "Heliotropium thermophilum adapts to high soil temperature in natural conditions due to its highly active antioxidant system protecting its photosynthetic machinery." FUNCTIONAL PLANT BIOLOGY , vol.51, no.7, 2024

Bülbül, S. Et Al. (2024) . "Heliotropium thermophilum adapts to high soil temperature in natural conditions due to its highly active antioxidant system protecting its photosynthetic machinery." FUNCTIONAL PLANT BIOLOGY , vol.51, no.7.

@article{article, author={Sevgi Bülbül Et Al. }, title={Heliotropium thermophilum adapts to high soil temperature in natural conditions due to its highly active antioxidant system protecting its photosynthetic machinery}, journal={FUNCTIONAL PLANT BIOLOGY}, year=2024}