Evaluation Effect of Arbuscular Mycorrhiza Fungi, Biochar and Nitrogen Fertilizer on Important Root Characteristics and Grain Phosphorous Absorption of Wheat cv. Chamran
Subject Areas : Journal of Crop Nutrition ScienceSeyed Mohammad Amin sobhani 1 , Adel Modhej 2 , Mohammad Reza Ardakani 3
1 - Graduated, Department of Agronomy, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
2 - Associate professor, Department of Agronomy and Plant Breeding, Shoushtar Branch, Islamic Azad University, Shoushtar, Iran.
3 - Professor, Department of Agronomy, Karaj Branch, Islamic Azad University, Karaj, Iran.
Keywords: Urea, Biofertilizer, root length, root volume, root colonization,
Abstract :
BACKGROUND: Plant nutrition with nitrogen, biochar, and bacteria leads to the improvement of soil quality, enhanced nutrient supply and facilitated root growth, all of which play a significant role in increasing agricultural productivity and improving crop yields.OBJECTIVES: To investigate the yield reaction of Chamran cultivar wheat and root properties to mycorrhiza and biochar at different levels of nitrogen, an experiment was conducted during two crop years (2017-18) in the southwest of Iran.METHODS: The experiment was designed as a factorial study using a randomized complete block design (RCBD) with four replications. The experimental factors included four levels of nitrogen (applied as urea with 46% nitrogen): 0, 50, 100, and 150kg.N.ha-1, two levels of Rhizophagus Irregularis inoculum (without and with application), and three levels of biochar: 0, 4, and 8 ton.ha-1.RESULT: The results of the analysis of variance demonstrated significant effects of urea fertilizer, mycorrhiza and biochar on root length, root diameter and root colonization. In this research, the combined use of biochar and urea fertilizer in plants inoculated with mycorrhiza fungi showed better effects on all investigated traits compared to the use of biochar, nitrogen, and mycorrhiza alone. The highest values for root length, root diameter, root dry weight, root volume and root surface density were obtained from the application of 100 and 150 kg.N.ha-1 of nitrogen, along with 4 and 8 ton.ha-1 of biochar and mycorrhiza. In plants inoculated with mycorrhiza fungi at a biochar level of 4 ton.ha-1, there was a significant increase in root length (24%), root colonization rate (9%), root volume (22%) and root surface density (35%) compared to the control plants. This increase was attributed to the improved ability to absorb nutrients and enhance plant growth.CONCLUSION: According to the results of this research, the application of 100 kg.N.ha-1 of nitrogen and 4 ton.ha-1 of biochar in plants inoculated with mycorrhiza fungi played a vital and effective role in promoting wheat growth and increasing yield by improving the root system.
Abbaspour, F., H. R. Asghari, P. Rezvani Moghaddam, H. Abbasdokht, J. Shabahang. and A. Baig Babaei. 2018. Effect of biochar and chemical fertilizers on some soil properties, yield and quality characteristics of Black seed (Nigella sativa) under water deficit. J. Water Res. Agri. 31(3): 441-457.
Abdelaziz M., R. Pokluda. and M. Abdelwahab. 2007. Influence of compost, microorganisms and NPK fertilizer upon growth, chemical composition and essential oil production of Rosmarinus officinalis L. Notulae Botanicae Horti Agrobotanici cluy- Napoca. 35: 86-90.
Aktinson, C. J., J. D. Fitzgerald. and N. A. Hipps. 2010. Potential mechanisms for achieving agricultural benefits from biochar application to temperate soils. A Review. Plant Soil. 337: 1-18.
Ali Sial, T., Zh. Lan, L. Wang, Y. Zhao, J. Zhang, F. Kumbhar, M. Memon, M. Siddique Lashari. and A. Naqi Shah. 2019. Effects of different Biochars on wheat growth parameters, yield and soil fertility status in a silty clay loam soil. Molecules. 24: 2-19.
Alizadeh Oskouei, P., N. Ali Asgharzadeh. and Sh. Bagheban Siroos. 2014. The effect of arbuscular mycorrhiza fungi on yield and vitamin C concentration of tomato fruit at different levels of phosphorus. J. Agri. Sci. Natural Res. 12(6): 218-228.
Alizadeh. O. and A. Alizadeh. 2008. Mycorrhiza effects on nutrient absorption in maize under different soil moisture. J. Agri. Sci. 3: 101-108.
Alqarawi, A. A., E. F. Abd Allah. and H. Abeer. 2014. Alleviation of salt-induced adverse impact via mycorrhiza fungi in Ephedra aphylla Forssk. J. Plant Interactions. 9 (1): 802-810.
Anderson, W. K. and A. Impiglia. 2002. Management of dryland wheat. In: Curtis BC, Rajaram S, Gómez Macpherson H (Eds). Bread Wheat: Improvement and Production. Food and Agriculture Organization (FAO).
Berta, G., A. Fusconi. and J. E. Hooker. 2002. Arbuscular mycorrhiza modification to plant root systems: scale, mechanisms and consequences. In: Gianinazzi, S., Schüepp, H. Barea J. M. and Haselwandter K. (Eds.), Mycorrhiza Technology in Agriculture, from Genes to Bioproducts (pp. 71-85). Basel, Switzerland: Birkhäuser Verlag.
Chaudhry, U. K., S. Shahzad, M. N. Naqqash, A. Saboor, S. Yaqoob, M. S. Abbas. and F. Saeed. 2016. Integration of biochar and chemical fertilizer to enhance quality of soil and wheat crop (Triticum aestivum L.). J. Biodiversity and Environmental Sci. 9(1): 348-358.
Davis, J. G., D. G. Westfall, J. J. Mortvedt. and J. J. Shanahan. 2002. Fertilizing winter wheat. Agron. J. 84: 1198-1203.
Dianat maharluei, Z., M. J. Yasrebi, M. Sepehri. and R. Ghasemi. 2018. Effect of Rice Husk Biochar and Piriformospora Indica Endophytic fungus on Corn yield in Zn contaminated soil. J. Soil Management and Sustainable. 8(3): 61-78.
Egamberdiyeva, D. 2007. The effect of plant growth promoting bacteria on growth and nutrient uptake of maize in two different soils. Applied Soil Ecol. 36: 184-189.
Fathi Gerdelidani, A. and H. Mir Seyed Hosseini. 2015. Different aspects of the effects of biochar in improving soil quality. International conference on applied research in agriculture. June 2014.
Feiziasl, V., A. Fotovat, A. R. Astarae. and A. Lakzyan. 2014. Effects of nitrogen fertilizer rates and application time on root characteristics of dryland wheat genotypes. Iranian J. Dryland Agri. 3(1)5: 40-60.
Ganjali, A., M. Kafi, A. R. Bagheri. and F. Shahriari Ahmadi. 2003. Allometric relationship for root and shoot characteristics of chickpea seedlings (Cicer arietinum). J. Agri. Sci. Tech. 18: 167-80.
Garg, N. and S. Chandel. 2010. Arbuscular mycorrhiza networks: Process and functions. A review. Agron. Sustainable Development. 30: 581-599.
Gholami, A. and A. R. Koocheki. 2001. Mycorrhiza in sustainable agriculture. Shahrood Univ. Press. 212 pp. (Abstract in English)
Giovannetti M. and B. Mosse. 1980. An evaluation of techniques for measuring vesicular-arbuscular mycorrhiza infection in roots. New Phytologist. 84: 489-500.
Jemal, K. and A. Abebe. 2016. Determination of bio-char rate for improved production of Lemmon grass. Intl. J Advanced Biol. Biomedical Res. 4(2):149-157.
Jiriaie, M., E. Fateh. and A. Aynehband. 2014. Evaluation of Mycorrhiza and Azospirillum effect on some characteristics of wheat cultivars in establishment stage. Crop Prod. 7 (1): 45-62.
Kapoor, R., B. Giri. and G. Mukerji. 2001. Mycorrhization of coriander (Coriandrum sativum L) to enhance the concentration and quality of essential oil. J. Sci. Food and Agri. 82: (4) 339-342.
Mostajeran, A., B. Amooaghaie. and G. Emtiazi. 2007. The effect Azospirillum and pH irrigation water on yield and protein content of wheat cultivars. Iranian J. Biol. 18: 248-260.
Naseri, R., M. Barary, M. J. Zarea, K. Khavazi. and Z. Tahmasebi. 2019a. Wheat- Root system influenced by application of Phosphate solubilizing bacteria and Mycorrhiza fungi under different levels of Phosphorous chemical fertilizer. J. Soil Biol. 6(2): 137-155.
Naseri, R., M. Barary, M. J. Zarea, K. Khavazi. and Z. Tahmasebi. 2019b. Evaluation of root and grain yield of Wheat cultivars affected by Phosphate solubilizing bacteria and Mycorrhiza Fungi under dry land conditions. Iranian J. Field Crop Res. 17(1)53: 83-98.
Olsen, S. R. and L. E. Sommers. 1982. Phosphorus. pp. 403-430. In: A. L. Page, et al. (eds.) Methods of soil analysis: Part 2. Chemical and microbiological properties. Agron. Mongr. 9. 2nd ed. ASA and SSSA, Madison, WI. USA.
Pal, A. and S. Pandey. 2017. Role of Arbuscular Mycorrhiza Fungi on Plant Growth and Reclamation of Barren Soil with Wheat (Triticum aestivum L.) crop. Intl. J. Soil Sci. 12: 25-31.
Philips, J. and D. Hayman. 1970. Improved procedures for cleaning roots and staining parasitic and vesicular arbuscular mycorrhiza fungi for rapid assessment of infection. J. Transactions of the British Mycol.Soc. 55: 158-161.
Riad, G. S., S. M. Youssef, N. A. L. Abu El-Azm. and E. M. Ahmed. 2018. Amending sandy soil with Biochar or/and superabsorbent polymer mitigates the adverse effects of drought stress on Green pea. Egyptian J. Horticulture. 45(1): 169-183.
Rostami, F. and M. E. Ghobadi. 2018. Investigation on the effect of bentunite sulfur and nitrogen on the root growth of wheat cv. Sirvan at the ripening stage. The second international conference and the third national conference on agriculture, environment and food security, Jiroft, Jiroft Univ. 6 pages.
Safapour, M., M. R. Ardakani, S. Khaghani, M. Teymoori, H. Hezaveh. and S. Mafakheri. 2012. Phytohormonal and polyamines changes of three red bean (Phaseolus vulgaris L.) genotypes as affected by tripartite symbiosis with Mycorrhiza and Rhizobium. Archive Des Sci. 4: 214-229.
Sen, A, M. D. Pandey, S. M. Sharma, R. K. Singh. and A. Kumar. 2003. Determination of nitrogen level and seed rate for surface seeding of wheat (Triticum aestivum L.). International Conference on Communication for Development in the Information Age: Extending the Benefits of Tech. All. 07-09 J. 2003 Eds. Basavaprabhu Jirli Editor in Chief, Diapk De, K. Ghadei and Kendadmath, G. C., Department of Extension Education, Institute Agri. Sci. Banaras Hindu University. Varanasi. India.
Seyed sharifi, R., F. Afsari. and R. Seyed Sharifi. 2018. Application of nitrogen rates at different growth stages effects on dry matter remobilization and effective traits at dry matter accumulation of grain barley (Hordeum Vulgare L.). Plant Process and Function. 6(19): 337-350.
Sika, M. P. 2012. Effect of biochar on chemistry, nutrient uptake and fertilizer mobility in sandy soil. MSc. Thesis. Department of Soil Sci. Stellenbosch Univ. Stellenbosch.
Svoboda, P. and J. Haberle. 2006. The effect of nitrogen fertilization on root distribution of winter. Plant, Soil and Environment. 52(7): 308-313.
Vamerial, T. M., S. Saccomani, G. Bona, M. Mosca. and A. Ganis. 2003. A Comparison of root characteristics in relation to nutrient and water stress in two maize hybrids. Plant and Soil. 15: 167-255.