Effect of deterioration on germination and enzymes activity in dry bean (Phaseolus vulgaris L. cv. Sadri) under salinity stress condition

Ghanbari, Majid; Makhtassi-bidgoli, Ali; Talebi-Siah Saran, Parniyan; Pirani, Hassan

doi:10.22077/escs.2018.1337.1275

Document Type : Original Article

Authors

¹ Ph.D, Crop Physiology, Department of Agronomy, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran.

² Assistant Professor, Department of Agronomy, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran

³ MSc. Graduate Student, Department of Horticulture, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran

⁴ MSc. Student, Department of Horticulture, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran.

https://doi.org/10.22077/escs.2018.1337.1275

Abstract

Introduction
Legumes are one of the most important crops to be effective in amending and fertilizing soils. Among legumes, bean, lentil, chickpea, broad bean and pea are most susceptible to salinity (Cobely, 1996). Abiotic stresses affect different aspects of plant growth, such as reduction and delay in germination, decrease in development rate, decrease in plant organs growth, decrease in plant life duration and finally decrease in dry matter production. Among abiotic stresses, salinity stress is considered to be the most influential type of stress in the production of legumes in the world and can greatly reduce production on many arable lands. One of the primary effects of salinity is the reduction of water content of plant tissues. Reducing water availability is due to an increase in the osmotic potential of salt in the root zone (Ghanbari et al., 2016). Seed priming is one of the methods for improving seed quality in which the seeds are exposed to water under controlled conditions, so that different metabolic and physiological activity occur at different levels of moisture inside the seed for germination before the radicle emergence and then seeds are dried to reach initial moisture (Farooq et al., 2006).

Material & Methods
To evaluate the effect of salinity and seed aging on germination characteristics of bean seeds, Sadri variety, a factorial experiment was conducted in a completely randomized design with four replications in Agriculture Laboratory, Faculty of Agricultural Sciences, University of Guilan in 2014. The treatments consisted of two groups of seeds (natural and aged) and five salinity treatments (0, 2, 4, 6 and 8 dS m-1). Before testing, seeds were disinfected with 10% sodium hypochlorite solution for 15 minutes (Ghanbari et al., 2016) and washed three times with distilled water. For aging, dried beans were exposed to a temperature of 41 °C and high relative humidity (100%) for 72 hours in an oven placed in a desiccator. Then, 25 seeds were put in each sterile petri dish with filter paper. To each petri dish, five milliliters of NaCl solution with potentials of 2, 4, 6, 8 dS/m were added and distilled water was added as control treatment. After applying the treatments, the petri dishes were covered with parafilm and were placed in the germinator at 25 °C in the dark for 8 days (Ghanbari et al., 2016).

Results
The results showed that there were significant differences between treatments for all the variables. In addition, the interaction of seed aging with salinity stress had highly significant difference at the probability level of 5% of plumule fresh weight and there were significant differences at the probability level of 1% for radicle and plumule dry weight, allometric index, seedling tissue water percentage and seed vigor, while regarding of means and percentage of germination and plumule length were not observed significant differences. Research on the effect of seed aging and salinity stress on bean germination characteristics showed that increasing the aging period and increasing levels of salinity stress negatively affected the bean germination characteristics and by the effect on plant water relations, toxicity due to ion accumulation, plasma reduction, molecular structure change of nucleic acids and decreased activity of enzymes eventually led to decreases in germination indices (Ghanbari and Karamnia, 2016).

Conclusion
Increasing levels of salinity stress and aging the seeds reduced the activity of germination, mean time and germination percentage, and seedling growth. the results of seed deterioration can be destroyed the buildings the cell membrane with attack free radicals produced due to lipid peroxidation over the period deterioration noted. Therefore, seed aging and increase levels of salinity stress on the germination and its related factors in bean seed had a negative impact and through its impact on plant water relations, toxicity of ion concentration, reducing the plasma membrane integrity, change the molecular structure of nucleic acids and reduction of activity of enzymes eventually reduced the germination indices.

Keywords

References

Agah, F., Nabavi Kalat, S.M., 2013. Study of seed priming on improvement seed germination indicators of Lentil (Lens culinaris Medik.) under salinity stress. Journal of Seed Science and Technology. 3(2), 53-61. [In Persian with English Summary].

Aghabarati, A., Maralian, H., 2011. The effect of seed deterioration on germination and vigor of maple Acer cineracens Boiss. Quarterly Journal of Natural Ecosystems Iran. 2(2), 25-35. [In Persian with English Summary].

Agrawal, R., 2003. Seed Technology. Pub. Co. PVT, LTD, New Delhi, India.

Ahmadloo, F., M. Tabari., Behtari, B., 2012. Effect of water stress and accelerated ageing on some physiological characteristics of Pinus brutia Ten. Seeds. Iranian Journal of Rangelands and Forests Plant Breeding and Genetic Research. 19 (2), 345-358. [In Persian with English Summary].

Bailly, C., 2004. Active oxygen species and antioxidants in seed biology. Seed Science Research. 14, 93-107.

Basra, S.M.A., Ahmad, N., Khan, M.M., Iqbal, N., Cheema, M.A., 2003. Assessment of cotton seed deterioration during accelerated ageing. Seed Science and Technology. 31, 373-409.

Balouchi, H.R., Bagheri, F., Kaid Nezami, R.,Movahedi Dehnavi, M., Yadavi, A., 2013. Effect of seed aging on germination and seedling growth indices in three cultivars of Brassica napus L. Journal of Plant Research. 26(4), 397-411. [In Persian with English Summary].

Bernal, L., Kamacho, A., Carballo, A., 2000. Effect of seed aging on the enzymic antioxidant system of maize cultivars (abstract). In: Black, M., Bradford, K.J., Vazqez-Ramos, J., (Eds). Seed Biology. CABI Publishing., United Kingdom. p. 157-160.

Bernfeld, P., 1955. Amylase α and β. Methods in Enzymology. 1, 149-158.

Bonner, F.T., 1998. Testing tree seed for vigor. A review. Seed Technology. 20, 5-17.

Dehghanshoar, M., Hamidi, A., Mobasser, S., 2005. Methods of strength evaluation seed. Agricultural Research and Education Organization, the Training and Equipping Deputy of Human Resources, Dissemination of Agricultural Education, Tehran. P. 193. [In Persian].

Eisvand, H.R., Arefi, H.M., 2007. Effects of some plant growth regulators on physiological quality of Bromus aged seed. Iranian Journal of Rangelands and Forest Plant Breeding and Genetic Research. 15(2), 159-171. [In Persian with English Summary].

Fallah, A., Babaei, M., 2006. The assessment of salinity stress on germination of rice. Journal of Agricultural Sciences and Natural Resources. 4, 12-18. [In Persian with English Summary].

Gama, P.B.S., Inanana, S., Tanaka, K., Nakazawa, R., 2007. Physiological response of common bean (Phaseolus vulgaris L.) seedlings to salinity stress. African Journal of Biotechnology. 6, 79-88.

Ghanbari, M., Karamnia, S., 2016. Evaluation of the effect of seed aging on some characteristics of bean germination (Phaseolus vulgaris L.) landraces of Guilan province under salinity stress conditions. The 6th Iranian Pulse Crops Symposium, 4 May, Khoram-Abad. [In Persian with English Summary].

Ghanbari, M., Mansour Ghanaei Pashaki, K., Safaei Abdolmanaf, S., Aziz Ali-abadi, K., 2016. Effect of salt stress and hydropriming on germination characteristics of mungbean (Vigna radiata (L.) Wilczek). Iranian Journal of Pulses Research, 7(1), 65-80. [In Persian with English Summary].

Gholami, P., Ghorbani, J., Ghaderi, S., Salarian, F., Karimzadeh, A., 2010. Assessment of germination indices for Vicia monantha under salinity and drought stress. Scientific Journal of Grassland. 4(1), 1-11. [In Persian with English Summary].

Hoseini, F., Siadat, S.A., Bakhshandeh, A.M., Chab, A.N., 2011. Evaluate the effect of oxygen tension on germination and seedling growth of five components of wheat. Iranian Journal of Field Crops Research. 9(4), 631-638. [In Persian with English Summary].

ISTA. 2004. International Rules for Seed Testing. International Seed Testing Association. Zurich, Switzerland.

Jaleel, C.A., Kishorekumar, A., Manivannan, P., Sankar, B., Gomathinayagam, M., Panneerselvam, R., 2008. Salt stress mitigation by calcium chloride in Phyllanthus amarus. Acta Botanica Croatica. 67(1), 53-62.

Kapilan, R., 2015. Accelerated aging declines the germination characteristics of the maize seeds. Scholars Academic Journal of Biosciences. 3(8), 708-711.

Khalesro, S., Aghaalikhani, M., 2007. Effect of salinity and water deficit stress on seed germination. Pajouhesh & Sazandegi. 77, 153-163. [In Persian with English Summary].

Khazaei, H.R., Nezami, A., Dashti, M., Mehr-abadi, H.R., 2010. Effect of seed priming on seed germination characteristics of triticale under salinity stress condition. New Findings of Agriculture. 4(4), 303-318. [In Persian with English Summary].

Machado Neto, N.B., Custodio, C.C., Takaki, M., 2001. Evaluation of naturally and artificially aged seeds of (Phaseolus vulgaris L.). Seed Science and Technology. 29, 137-149.

Mahdavi, B., Modarres-Sanavy, S.A.M., 2007. Germination and seedling growth in grasspea (Lathyrus stivus) cultivars under salinity condition. Pakistan Journal of Biological Sciences. 10(2), 273-279. [In Persian with English Summary].

Mashi, A., Galeshi, S., 2007. The effect of salinity on germination indexes of four Hull-less barley genotypes. Journal of Agricultural Sciences and Natural Resources. 13(6), 45-57. [In Persian with English Summary].

Masumi Zavvarian, A., Yousefi Rad, M., Moghaddasi, M.S., 2013. Effects of salinity stress on germination indices and the activity of alpha-amylase and peroxidase Milk Thistle seed (Silybum marianum L.). In: Abstract Book of The Second National Congress of Organic and Conventional Agriculture Symposium, May 14-15, 2013. Mohaghegh Ardebili University. P. 274. [In Persian with English Summary].

McDonald, M.B., 1999. Seed deterioration: Physiology, repair and assessment. Seed Science and Technology. 27, 177-237.

Mohsen Nasab, F., Sharafi Zadeh, M., Siyadat, A., 2010. The study of effect of seed aging (accelerated aging) on germination and seedling growth of wheat varieties in vitro condition. Scientific Research Quarterly Journal Crop Physiology. 2(3), 59-71. [In Persian with English Summary].

Munns, R., James, R.A., Läuchli, A., 2006. Approaches to increasing the salt tolerance of wheat and other cereals. Journal of Experimental Botany. 57, 1025-1043.

Munnus, R., 2005. Genes and salt tolerance: Bringing them together. New Physiology. 167, 645-663.

Nelson navamaniraj, K., Srimathi, P., Ponnuswamy, A.S., Sudhagar, R.J., 2008. Performance of scarified and nonscarified seed of Bixa orellana to accelerated aging test for the prediction of seed storability. Journal of Agriculture and Biological Sciences. 4(5), 591-594.

Rahimian Mashhadi, H., A. Bagheri Kazemabad and A. Paryab. 1991. Effects of PEG and NaCl induced water potential and different temperatures on germination and seedling vigor of several wheat (Triticum spp) populations. Agricultural Science and Technology Journal. 5(1), 37-46. [In Persian with English Summary].

Sharma, A.D., Thakur, M., Rana, M., Singh, K., 2004. Effect of plant growth hormones and abiotic stresses on germination, growth and phosphates activities in Sorghum bicolor L. Moench seeds. African Journal of Biotechnology. 3, 308-312.

Soltani, A., Gholipoor, M., Zeinali, E., 2006. Seed reserve utilization and seedling growth of wheat as affected by drought and salinity. Environment and Experiment Botany. 55, 195-200.

Soltani, A., Galeshi, S., Zenali, E., Latifi, N., 2001. Germination seed reserve utilization and growth of chickpea as affected by salinity and seed size. Seed Science and Technology. 30, 51-60. [In Persian with English Summary].

Soltani, E., Kamkar, B., Galeshi,S., Akram Ghaderi, F., 2008. The effect of seed deterioration on seed reserves depletion and heterotrophic seedling growth of wheat. Journal of Agricultural Sciences and Natural Resources. 15(1), 182-193. [In Persian with English Summary].

Tajbakhsh, M., 1996. Seed, (cognition - Certification and control it). Ahrar Tabriz Press. P. 131. [In Persian].

Environmental Stresses in Crop Sciences

Effect of deterioration on germination and enzymes activity in dry bean (Phaseolus vulgaris L. cv. Sadri) under salinity stress condition

References

References

Volume 12, Issue 2
Open Access Policy
July 2019
Pages 585-594

Effect of deterioration on germination and enzymes activity in dry bean (Phaseolus vulgaris L. cv. Sadri) under salinity stress condition

References

References

Volume 12, Issue 2 Open Access PolicyJuly 2019Pages 585-594

Volume 12, Issue 2
Open Access Policy
July 2019
Pages 585-594