Effect of Silicon Application on Growth Response of Alfalfa Seedlings Grown under Aluminum Stress in Pots |
Yoon, Il-Kyu
(Division of Applied Life Science (BK21) and Institute of Agriculture & Life Science (IALS), Gyeongsang National University)
Kim, Min-Jun (Division of Applied Life Science (BK21) and Institute of Agriculture & Life Science (IALS), Gyeongsang National University) Min, Chang-Woo (Division of Applied Life Science (BK21) and Institute of Agriculture & Life Science (IALS), Gyeongsang National University) Khan, Inam (Division of Applied Life Science (BK21) and Institute of Agriculture & Life Science (IALS), Gyeongsang National University) Lee, Byung-Hyun (Division of Applied Life Science (BK21) and Institute of Agriculture & Life Science (IALS), Gyeongsang National University) |
1 | Awasthi, J.P., Saha, B., Regon, P., Sahoo, S., Chowra, U., Pradhan, A., Roy, A. and Panda, S.K. 2017. Morpho-physiological analysis of tolerance to aluminum toxicity in rice varieties of north east India. PLoS ONE. 12:e0176357. DOI |
2 | Choi, K.C. and Chun, W.B. 1994. Effect of lime and phosphate applications on growth and nitrogen fixation of alfalfa in low acidic soil. Journal of the Korean Society of Grassland and Forage Science. 14(2):88-92. |
3 | Deshmukh, R.K., Ma, J.F. and Belanger, R.R. 2017. Role of silicon in plants. Frontiers in Plant Science. 8:1858. DOI |
4 | Hodson, M.J. and Sangster, A.D. 1993. The interaction between silicon and aluminum in Sorghum bicolor (L.) Moench: Growth analysis and X-ray microanalysis. Annals of Botany. 72(5):389-400. DOI |
5 | Jeffrey, S.W. and Humphrey, G.F. 1975. New spectrophotometric equations for determining chlorophylls a, b, c1 and c2 in higher plants, algae and natural phytoplankton. Biochemie und Physiologie der Pflanzen. 167(2):191-194. DOI |
6 | Wang, S., Ren, X., Huang, B., Wang, G., Zhou, P. and An, Y. 2016. Aluminum-induced reduction of plant growth in alfalfa (Medicago sativa) is mediated by interrupting auxin transport and accumulation in roots. Scientific Reports. 6(1):30079. DOI |
7 | Kim, J.B. 2021. Strategies for revitalizing of domestic forages. In: Proceedings of 2021 Symposium and Conference of Korean Society of Grassland and Forage Science. pp. 9-22 |
8 | Krstic, D., Djalovic, I., Nikezic, I. and Bjelic, D. 2012. Aluminum in acid soils: Chemistry, toxicity and impact on maize plants. In: A. Aladjadjiyan (Ed.), Food production-approaches, challenges and tasks. IntechOpen, London, UK. pp. 231-242. |
9 | Pontigo, S., Godoy, K., Jimenez, H., Moraga, A.G., Mora, M.L. and Cartes, P. 2017. Silicon-mediated alleviation of aluminum toxicity by modulation of Al/Si uptake and antioxidant performance in ryegrass plants. Frontiers in Plant Science. 8:642. DOI |
10 | Kabir, A.H., Hossain, M.M., Khatun, M.A., Mandal, A. and Haider, S.A. 2016. Role of silicon counteracting cadmium toxicity in alfalfa (Medicago sativa L.). Frontiers in Plant Science. 7:1117. |
11 | Rasoolizadeh, A., Labbe, C., Sonah, H., Deshmukh, R.K., Belzile, F., Menzies, J.G. and Belanger, R.R. 2018. Silicon protects soybean plants against Phytophthora sojae by interfering with effectorreceptor expression. BMC Plant Biology. 18:97. DOI |
12 | Vega, I., Rumpel, C., Ruiz, A., Mora, M.L., Calderini, D.F. and Cartes, P. 2020. Silicon modulates the production and composition of phenols in barley under aluminum stress. Agronomy. 10(8):1138. DOI |
13 | Sheng, H. and Chen, S. 2020. Plant silicon-cell wall complexes: Identification, model of covalent bond formation and biofunction. Plant Physiology and Biochemistry. 155:13-19. DOI |
14 | Singh, V.P., Tripathi, D.K., Kumar, D. and Chauhan, D.K. 2011. Influence of exogenous silicon addition on aluminum tolerance in rice seedlings. Biological Trace Element Research. 144:1260-1274. DOI |
15 | Stass, A., Wang, Y., Eticha, D. and Horst, W.J. 2006. Aluminum rhizotoxicity in maize grown in solutions with Al3+ or Al(OH)4-as predominant solution Al species. Journal of Experimental Botany. 57(15):4033-4042. DOI |
16 | Sengar, R.S., Gupta, S., Gautam, M., Sharma, A. and Sengar, K. 2008. Occurrence, uptake, accumulation and physiological responses of nickel in plants and its effects on environment. Research Journal of Phytochemistry. 2(2):44-60. DOI |
17 | Zengin, F. 2013. Physiological behavior of bean (Phaseolus vulgaris L.) seedlings under metal stress. Biological Research. 46(1):79-85. DOI |
18 | Wang, Y., Stass, A. and Horst, W.J. 2004. Apoplastic binding of aluminum is involved in silicon-induced amelioration of aluminum toxicity in maize. Plant Physiology. 136(3):3762-3770. DOI |
19 | Wei, T., Li, X., Yashir, N., Li, H., Sun, Y., Hua, L., Ren, X. and Guo, J. 2021. Effect of exogenous silicon and methyl jasmonate on the alleviation of cadmium-induced phytotoxicity in tomato plants. Environmental Science and Pollution Research. doi:10.1007/s11356-021-14252-3 DOI |
20 | Yokota, S. and Ojima, K. 1995. Physiological response of root tip of alfalfa to low pH and aluminum stress in water culture. Plant Soil. 171:163-165. DOI |
21 | Siecinska, J. and Nosalewicz, A. 2016. Aluminum toxicity to plants as influenced by the properties of the root growth environment affected by other co-stressors. Reviews of Environmental Contamination and Toxicology. 243:1-26. |
22 | Eneji, A.E., Inanaga, S., Muranaka, S., Li, J., Hattori, T., An, P. and Tsuji, W. 2008. Growth and nutrient use in four grasses under drought stress as mediated by silicon fertilizers. Journal of Plant Nutrition. 31(2):355-365. DOI |