Effect of some Inorganic Substances to Improve Growth of Coriander (Coriandrum sativum L.) and Properties of Sandy Soil under Salinity Condition
الكلمات المفتاحية:
Coriandrum sativum L، Bentonite، Nano-selenium، micronutrients mixture، salinityالملخص
Understanding the interactions among soil properties, salinity and the inorganic substances application is great importance for improving growth of Coriander [Coriandrum sativum L.] in sandy soils. In the present study, twenty seeds of Coriander were sown during the growing season 2016 to investigate the effect of some inorganic substances [Bentonite, Nano-selenium and Micronutrients mixture] on Coriander growth and properties of sandy soil under salinity condition. A split plot design replicated thrice-was used in this study. The results indicated significant succeed in enhancing all estimated soil properties, such as available nutrients in soil, EC, pH and bulk density. Besides, traits of coriander plant i.e., plant height, fresh, dry weights and plant chemical composition. Therefore, it could be recommended that adding of inorganic substances can improve the sandy soil properties and growth parameters of coriander plant.
المراجع
Mishra B., Dubey P., Aishwath O., Kant K., Sharma Y., Vishal M. [2017]. Effect of plant growth promoting rhizobacteria on coriander [Coriandrum sativum] growth and yield under semi-arid condition of India. Indian J. Agric. Sci. ; 87:607–612.
Yang, Y and Y, Guo. [2018]. Elucidating the molecular mechanisms mediating plant salt-stress responses. New Phytol. 217:523–539. doi: 10.1111/nph.14920.
Nissaf, K; M. Moussa, I. Gasmi and H. Bousnina. [2015]. Effect of clay amendment on physical and chemical characteristics of sandy soil in arid areas: the case of ground south - eastern Tunisian. App. Sci. Report. 11 [2], 43-48.
Zhang, Y.Z. [2019]. Review on research progress of bentonite. Adv. Environ. Prot., 9, 496–501.
Yssaad, H and B.B Amine. [2013]. Effect of Salinity and Bentonite on the Characteristics of Mineral Soil and Behavior of Leguminous Plants [Vicia faba L.]. In Developments in Soil Salinity Assessment.
Zhou, L.; Monreal, C.M.; Xu, S.T.; McLaughlin, N.B.; Zhang, H.Y.; Hao, G.C and J.H. Liu, [2019]. Effect of ben tonite- humic acid application on the improvement of soil structure and maize yield in a sandy soil of a semi-arid region. Geo derma, 338, 269–280.
Rayhani, M.H.T.; Yanful, E.K.; Fakher, A. [2007]. Desiccation-induced cracking and its effect on the hydraulic conductivity of clayey soils from Iran. Can. Geotech. J., 44, 276–283.
Pennanen, A; X. U. Tailin and H. Hartikainen. [2002]. Protective role of selenium in plant subjected to severe UV irradiation stress .J.AApple Bot.,76:66-76
Kuznetsov, VV; V.P. Kholodova,V.I.V. Kuznetsov and B.A. Yagodin. [2003]. Selenium regulates the water status of plants exposed to drought. Doklady Biological Sciences 390, 266-268.
Rozita, K.A; S. Bolandnazara, F. Z. Nahandia and S. Oustanb. [2017]. The effects of selenium on some physiological traits and K, Na concentration of garlic [Allium sativum L.] under NaCl stress. Information Processing in Agriculture 5 [2018] 156– 161.
Habibi, G. [2013]. Effect of drought stress and selenium spraying on photosynthesis and antioxidant activity of spring barley. Acta Agric. Slov. 101 [1], 31–39.
Nawaz, F; M. Y. Ashraf, R. Ahmad and E. A. Waraich. [2013]. Selenium [Se] seed priming induced growth and biochemical changes in wheat under water deficit conditions. Biol. Trace Elem. Res. 151, 284–293.
Rehm, G and S.Albert. [2006]. Micronutrients and Production of Hard Red Spring Wheat. Minnesota Crop News. March 7, 2006, p: 1-3.
Abdalla, F.E; M.M. Zeinab and A.A. El-Sayed . [1992]. Effect of micronutrients foliar application on uptake of macronutrients by wheat and faba bean. Afr. J. Agric. Sci., 19[1]: 181-192.
APHA, [2005]. Standard Methods of Water and Wastewater. 21st Edn., American Public Health Association, Washington, DC., ISBN: 0875530478, pp: 2-61.
Hesse, P. R. [1971]." A Text Book of Soil chemical Analysis". John Murry [publishers] Ltd, 50Albermarle Street , London.
Dewis, J and F. Feritas. [1970]. ''Physical and chemical methods of soil and water analysis'', FAO, Rome, soil Bulletin., No.10.
Jackson, M. L. [1967]. "Soil Chemical Analysis Advanced Course" publisher By the author, Dept. of soils, Univ. of Wise ., Madison 6, Wishensin, U.S.A.
Mathieu, C and F. Pieltain. [2003]. Chemical Analysis of Soils. Selected methods, France, pp; 387.
Olsen, S. R and L. E. Sommers. [1982]. Phosphorus. P. 403-130. in Page, A. L. (eds) Methods of soil Analysis. Part2: Chemical and Microbiological properties. Am. Soc. of Agron., Inc. Madison, Wis, USA.
AOAC, [1980]. Official methods of analysis (13th ed.). Washington, DC: Association of Official Analytical Chemists.
Peterburgski, A. V. [1968]. "Handbook of Agronomic Chemistry". Kolop.
Gomez, K. A and A. A. Gomez. [1984]. ''Statistical Procedures for Agricultural Research''. John Wiley and Sons, Inc., New York, 680.
Huang, B; J. Xin, H. Dai and W. Zhou. [2017]. Effects of Interaction between Cadmium [Cd] and Selenium [Se] on Grain Yield and Cd and Se Accumulation in a Hybrid Rice [Oryza sativa] System. J. Agric. Food Chem., 65 [43], pp 9537–9546.
Mounika, Y; G. Thanuja Sivaram, P. Syam Sundar Reddy and M. Ramaiah. [2018]. Influence of Biofertilizers and Micronutrients on Growth, Seed Yield and Quality of Coriander [Coriandrum sativum L.] cv. Sadhana.Int. J. Curr. Microbiol. App. Sci., 7[1]: 2099- 2107.
Teimouri, S; J. Hasanpour and A. A. Tajali. [2014]. Effect of Selenium spraying on yield and growth indices of Wheat (Triticum aestivum L.) under drought stress condition. International journal of Advanced Biological and Biomedical Research Volume 2, Issue 6, 2091-2103.
Nawaz, F; M. Y. Ashraf, R. Ahmad and E. A. Waraich. [2013]. Selenium [Se] seed priming induced growth and biochemical changes in wheat under water deficit conditions. Biol. Trace Elem. Res. 151, 284–293.
Arulnathan, N; R. Karunakaran1, V. Balakrishanan, M. Chellapandian and K. Geetha [2016]. Synthesis and characterization of nano selenium as feed supplement. International Journal of Science, Environment and Technology, Vol. 5, No 4, 2296 –2300.