EFFECTS OF SALT STRESS ON THE GROWTH TRAITS OF CHICKPEA (CICER ARIETINUM L.) AND PEA (PISUM SATIVUM L.) SEEDLINGS

F Yousef; F Shafique; Q Ali; A Malik

doi:10.54112/bcsrj.v2020i1.29

Authors

F Yousef Institute of Molecular Biology & Biotechnology, University of Lahore, Lahore, Pakistan
F Shafique Institute of Molecular Biology & Biotechnology, University of Lahore, Lahore, Pakistan
Q Ali Institute of Biotechnology and Molecular Biology, The University of Lahore, Lahore
A Malik Institute of Molecular Biology & Biotechnology, University of Lahore, Lahore, Pakistan

DOI:

https://doi.org/10.54112/bcsrj.v2020i1.29

Keywords:

Cicer arietinum, Pisum sativum, salt stress, root length, correlation

Abstract

Chickpea (Cicer arietinum L.) and pea (Pisum sativum L.) both are important legume crops grown throughout the world for protein and they also contain essential vitamins and fibers. Chick pea and pea are very sensitive to abiotic stress that includes heat, drought, cold and salt stress conditions. To access the effects of salt stress on the chick pea and pea an experiment was performed in the Green House of Institute of Molecular Biology and Biotechnology, The University of Lahore, Lahore. The seeds of both genotypes were grown in 18 pots with 2 kg pure sand and applied different concentrations of NaCl stress after 7 days of germination. The application of salt treatments was repeated 4 times each after 7days interval and data of different morphological traits was recorded each time. The treatments were included control, 0.25Molar NaCl, 0.5Molar NaCl concentrations. The data was recorded and pooled analysis of variance was carried out for significance of results. The average root length was recorded as 5.7522±0.0211cm and shoot length (11.139±0.0011cm) while average fresh plant weight was recorded as 0.5811±0.0002g under different salt stress conditions. The finding of our result proved that both varieties chickpea and pea showed variable behavior under salt stress conditions while the pea genotype showed more tolerant against different salt treatments which indicated pea genotypes may be used for future breeding to improve yield and growth of pea crop. The results showed that there was significant and positive correlation among root length, shoot length and leaf length of chickpea and pea seedlings which concluded that root length and shoot length may be used as selection criteria to induced stress tolerance in crop plants.

Downloads

Download data is not yet available.

References

Agrawal, T. (2017). Genetic Diversity in Chickpea (Cicer arietinum L.) under Normal and Late sown conditions, Department of Plant Breeding and Genetics, BAU, Sabour.

Agrawal, T., Kumar, A., Kumar, S., Kumar, A., Kumar, R. R., Kumar, S., and Singh, P. (2018). Correlation and path coefficient analysis for grain yield and yield components in chickpea (Cicer arietinum L.) under normal and late sown conditions of Bihar, India. Journal homepage: http://www. ijcmas. com 7, 2018.

Ahmad, P., Abdel Latef, A. A., Hashem, A., Abd_Allah, E. F., Gucel, S., and Tran, L.-S. P. (2016). Nitric oxide mitigates salt stress by regulating levels of osmolytes and antioxidant enzymes in chickpea. Frontiers in Plant Science 7, 347.

Ahsan, M., and Ali, Q. (2014). Genetic Variability and Correlation Studies among Morphological Traits of Zea mays under Normal and Water Stress Conditions. Persian Gulf Crop Protection 3.

Ali, Q., and Ahsan, M. (2011). Estimation of variability and correlation analysis for quantitative traits in chickpea (Cicer arietinum L.). International Journal of Agro Veterinary and Medical Sciences (IJAVMS) 5, 194-200.

Ali, Q., Ahsan, M., Ali, F., Aslam, M., Khan, N. H., Munzoor, M., Mustafa, H. S. B., and Muhammad, S. (2013). Heritability, heterosis and heterobeltiosis studies for morphological traits of maize (Zea mays L.) seedlings. Advancements in Life sciences 1.

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.

Ali, Q., Ahsan, M., Khaliq, I., Elahi, M., Shahbaz, M., Ahmed, W., and Naees, M. (2011a). Estimation of genetic association of yield and quality traits in chickpea (Cicer arietinum L.). Int. Res. J. Plant Sci 2, 166-169.

Ali, Q., Ahsan, M., and Saleem, M. (2010). Genetic variability and trait association in chickpea (Cicer arietinum L.). Electronic Journal of Plant Breeding 1, 328-333.

Ali, Q., Ali, A., Waseem, M., Muzaffar, A., Ahmad, S., Ali, S., Awan, M., Samiullah, T., Nasir, I., and Tayyab, H. (2014). Correlation analysis for morpho-physiological traits of maize (Zea mays L.). Life Science Journal 11, 9-13.

Ali, Q., Tahir, M. H. N., Sadaqat, H. A., Arshad, S., Farooq, J., Ahsan, M., Waseem, M., and Iqbal, A. (2011b). Genetic variability and correlation analysis for quantitative traits in chickpea genotypes (Cicer arietinum L.). African Journal of Bacteriology Research 3, 6-9.

Babbar, A., Prakash, V., Tiwari, P., and Iquebal, M. (2012). Genetic variability for chickpea (Cicer arietinum L.) under late sown season. Legume Research-An International Journal 35, 1-7.

Dahl, W. J., Foster, L. M., and Tyler, R. T. (2012). Review of the health benefits of peas (Pisum sativum L.). British Journal of Nutrition 108, S3-S10.

Flowers, T. J., Gaur, P. M., Gowda, C. L., Krishnamurthy, L., Samineni, S., Siddique, K. H., Turner, N. C., Vadez, V., Varshney, R. K., and Colmer, T. D. (2010). Salt sensitivity in chickpea. Plant, cell & environment 33, 490-509.

Gaur, P., Tripathi, S., Gowda, C., Ranga Rao, G., Sharma, H., Pande, S., and Sharma, M. (2010). Chickpea Seed Production Manual. Patancheru 502 324, Andhra Pradesh, India: International Crops Res. Institute for the Semi-Arid Tropics.

Gaur, P. M., Jukanti, A. K., and Varshney, R. K. (2012). Impact of genomic technologies on chickpea breeding strategies. Agronomy 2, 199-221.

Jukanti, A. K., Gaur, P. M., Gowda, C., and Chibbar, R. N. (2012). Nutritional quality and health benefits of chickpea (Cicer arietinum L.): a review. British Journal of Nutrition 108, S11-S26.

Khalil, M., Rashid, M., Ali, Q., and Malik, A. (2020). Genetic Evaluation for Effects of Salt and Drought Stress on Growth Traits of Zea mays Seedlings. Genetics and Molecular Research 19.

Kluth, H., Mantei, M., Elwert, C., and Rodehutscord, M. (2005). Variation in precaecal amino acid and energy digestibility between pea (Pisum sativum) cultivars determined using a linear regression approach. British Poultry Science 46, 325-332.

Mazhar, T., Ali, Q., and Malik, M. S. R. A. (2020). Effects of salt and drought stress on growth traits of Zea mays seedlings. Life Science Journal 17.

Mustafa, H. S. B., Ahsan, M., Aslam, M., Ali, Q., Bibi, T., and Mehmood, T. (2013). Genetic variability and traits association in maize (Zea mays L.) accessions under drought stress. Journal of Agricultural Research (03681157) 51.

Okçu, G., Kaya, M. D., and Atak, M. (2005). Effects of salt and drought stresses on germination and seedling growth of pea (Pisum sativum L.). Turkish journal of agriculture and forestry 29, 237-242.

Parihar, A., Dixit, G., Pathak, V., and Singh, D. (2014). Assessment of the genetic components and trait associations in diverse set of fieldpea (Pisum sativum L.) genotypes. Bangladesh Journal of Botany 43, 323-330.

Rodríguez‐Serrano, M., ROMERO‐PUERTAS, M. C., Zabalza, A., Corpas, F. J., Gomez, M., Del Rio, L. A., and Sandalio, L. M. (2006). Cadmium effect on oxidative metabolism of pea (Pisum sativum L.) roots. Imaging of reactive oxygen species and nitric oxide accumulation in vivo. Plant, Cell & Environment 29, 1532-1544.

Tahir, M., Rashid, M., Ali, Q., and Malik, A. (2020). Evaluation of Genetic Variability in Wheat and Maize under Heavy Metal and Drought Stress. Genetics and Molecular Research 19.

Varshney, R. K., Song, C., Saxena, R. K., Azam, S., Yu, S., Sharpe, A. G., Cannon, S., Baek, J., Rosen, B. D., and Tar'an, B. (2013). Draft genome sequence of chickpea (Cicer arietinum) provides a resource for trait improvement. Nature biotechnology 31, 240-246.

Waseem, M., Ali, Q., Ali, A., Samiullah, T. R., Ahmad, S., Baloch, D., Khan, M. A., Ali, S., Muzaffar, A., and Abbas, M. A. (2014). Genetic analysis for various traits of Cicer arietinum under different spacing. Life Sci J 11, 14-21.

Zubair, M., Shakir, M., Ali, Q., Rani, N., Fatima, N., Farooq, S., Shafiq, S., Kanwal, N., Ali, F., and Nasir, I. A. (2016). Rhizobacteria and phytoremediation of heavy metals. Environmental Technology Reviews 5, 112-119.