Abstract
About World’s half population is fed up with rice, a highly popular and staple food worldwide. Due to rice's classification as a glycophyte, soil salinity poses a significant global issue. Salinity negatively influences rice grain yield, reproduction, and growth. One of the main obstacles in the coastal region of the world, salinity is the main obstacle. With conventional and cutting-edge breeding techniques, this issue can be resolved. We have concentrated on the breeding strategies that will be employed to address this problem. With the help of salt-resistant genes and marker-assisted selection, we can develop a salt-tolerant variety. Problems with salinity worldwide have been the topic in this review regarding how it affects rice and other plants.
Reference34 articles.
1. Abdelgadir, E., Oka, M., and Fujiyama, H. (2005). Nitrogen nutrition of rice plants under salinity. Biologia Plantarum 49, 99-104.
2. Ahmad, M., Ali, Q., Hafeez, M., and Malik, A. (2021). Improvement for biotic and abiotic stress tolerance in crop plants. Biological and Clinical Sciences Research Journal 2021.
3. Ali, Q., Ahsan, M., Kanwal, N., Ali, F., Ali, A., Ahmed, W., Ishfaq, M., and Saleem, M. (2016). Screening for drought tolerance: comparison of maize hybrids under water deficit condition. Advancements in Life Sciences 3, 51-58.
4. Ali, U., Shar, T., Ahmad, R., Khatoon, M., Khaskheli, M. A., Laghari, A. H., and Leghari, A. J. (2021). Salinity stress–a threat to rice production breeding strategies to develop salinity tolerance in plants. Mehrgarh Journal of Sciences and Technology 1, 13-17.
5. Amanullah, I., Shah, Z., and Khalil, S. (2016). Phosphorus and zinc interaction influence leaf area index in fine versus coarse rice (Oryza sativa L.) genotypes in Northwest Pakistan. J. Plant Stress Physiol 2, 1-8.
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