Cita APA (7a ed.)
Pabuayon, I. C. M., Kitazumi, A., Cushman, K. R., Singh, R. K., Gregorio, G. B., Dhatt, B., . . . de los Reyes, B. G. (2021). Novel and transgressive salinity tolerance in recombinant inbred lines of rice created by physiological coupling-uncoupling and network rewiring effects. Frontiers Media.
Cita Chicago Style (17a ed.)
Pabuayon, Isaiah C. M., Ai Kitazumi, Kevin R. Cushman, Rakesh Kumar Singh, Glenn B. Gregorio, Balpreet Dhatt, Masoud Zabet-Moghaddam, Harkamal Walia, y Benildo G. de los Reyes. Novel and Transgressive Salinity Tolerance in Recombinant Inbred Lines of Rice Created by Physiological Coupling-uncoupling and Network Rewiring Effects. Frontiers Media, 2021.
Cita MLA (9a ed.)
Pabuayon, Isaiah C. M., et al. Novel and Transgressive Salinity Tolerance in Recombinant Inbred Lines of Rice Created by Physiological Coupling-uncoupling and Network Rewiring Effects. Frontiers Media, 2021.
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