Pepe, M.; Leonardos, E.D.; Marie, T.R.J.G.; Kyne, S.T.; Hesami, M.; Jones, A.M.P.; Grodzinski, B.
A Noninvasive Gas Exchange Method to Test and Model Photosynthetic Proficiency and Growth Rates of In Vitro Plant Cultures: Preliminary Implication for Cannabis sativa L. Biology 2022, 11, 729.
https://doi.org/10.3390/biology11050729
AMA Style
Pepe M, Leonardos ED, Marie TRJG, Kyne ST, Hesami M, Jones AMP, Grodzinski B.
A Noninvasive Gas Exchange Method to Test and Model Photosynthetic Proficiency and Growth Rates of In Vitro Plant Cultures: Preliminary Implication for Cannabis sativa L. Biology. 2022; 11(5):729.
https://doi.org/10.3390/biology11050729
Chicago/Turabian Style
Pepe, Marco, Evangelos D. Leonardos, Telesphore R. J. G. Marie, Sean T. Kyne, Mohsen Hesami, Andrew Maxwell Phineas Jones, and Bernard Grodzinski.
2022. "A Noninvasive Gas Exchange Method to Test and Model Photosynthetic Proficiency and Growth Rates of In Vitro Plant Cultures: Preliminary Implication for Cannabis sativa L." Biology 11, no. 5: 729.
https://doi.org/10.3390/biology11050729
APA Style
Pepe, M., Leonardos, E. D., Marie, T. R. J. G., Kyne, S. T., Hesami, M., Jones, A. M. P., & Grodzinski, B.
(2022). A Noninvasive Gas Exchange Method to Test and Model Photosynthetic Proficiency and Growth Rates of In Vitro Plant Cultures: Preliminary Implication for Cannabis sativa L. Biology, 11(5), 729.
https://doi.org/10.3390/biology11050729
