Cite
Barley Plants Overexpressing Ferrochelatases (HvFC1 and HvFC2) Show Improved Photosynthetic Rates and Have Reduced Photo-Oxidative Damage under Drought Stress than Non-Transgenic Controls.
MLA
Nagahatenna, Dilrukshi S. K., et al. “Barley Plants Overexpressing Ferrochelatases (HvFC1 and HvFC2) Show Improved Photosynthetic Rates and Have Reduced Photo-Oxidative Damage under Drought Stress than Non-Transgenic Controls.” Agronomy, vol. 10, no. 9, Sept. 2020, p. 1351. EBSCOhost, https://doi.org/10.3390/agronomy10091351.
APA
Nagahatenna, D. S. K., Parent, B., Edwards, E. J., Langridge, P., & Whitford, R. (2020). Barley Plants Overexpressing Ferrochelatases (HvFC1 and HvFC2) Show Improved Photosynthetic Rates and Have Reduced Photo-Oxidative Damage under Drought Stress than Non-Transgenic Controls. Agronomy, 10(9), 1351. https://doi.org/10.3390/agronomy10091351
Chicago
Nagahatenna, Dilrukshi S. K., Boris Parent, Everard J. Edwards, Peter Langridge, and Ryan Whitford. 2020. “Barley Plants Overexpressing Ferrochelatases (HvFC1 and HvFC2) Show Improved Photosynthetic Rates and Have Reduced Photo-Oxidative Damage under Drought Stress than Non-Transgenic Controls.” Agronomy 10 (9): 1351. doi:10.3390/agronomy10091351.