Increasing the yield of maize and improving the chemical and biological properties of saline calcareous soil using a combination of nano-biofertilizer and cattle manure

Document Type : Research Paper

Authors

1 Assoc. Prof., Soil and Water Research Institute, Agricultural Reaserch, Education and Extention Organization (AREEO), Karaj, Iran

2 M. Sc., Soil and Water Research Institute, Agricultural Reaserch, Education and Extention Organization (AREEO), Karaj, Iran

3 Ph. D. Graduated, Dept. of Soil Science and Engineering, Faculty of Agricultural Engineering and Technology, College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran

Abstract

Due to the growing need to increase the area under cultivation of Maize and reduce the use of chemical fertilizers to achieve sustainable agriculture, the purpose of this study was to investigate the effect of nano-biofertilizer as new eco-friendly technology along with cattle manure on increasing nutrient efficiency and maize yield in a saline calcareous soil with low organic matter. For this purpose, a field experiment was performed as split-plot factorial in a randomized complete block design with three replications. The factors included nano-biofertilizer at three levels of zero, 1, and 2 (Nb0, Nb1, and Nb2) ton/ha, and cattle manure in three levels 0, 10, and 20 (M0, M1, and M2) ton/ha. The results showed that the independent and interaction effects of these fertilizers on soil properties and yield and growth traits of maize were significant at 1% probability level. The results of interactions showed that Nb2M2 treatment compared to control could increase grain yield (101 %), straw weight (78 %), total yield (82.82 %), grain nitrogen (135 %), grain protein (136 %), protein yield (377 %), soil respiration (61.18 %), soil organic carbon (126.20 %), soil organic matter (125.50 %) and soil nitrogen (140.30 %). Nb1M1 treatment was able to reduce soil C/N by 22.7 %. In the case of soil EC, Nb2M0 treatment had the best performance with a reduction of 41.7 % in soil salinity. Besides, Nb0M2 treatment could reduce soil pH from 7.90 to 7.65. The results of this study showed that the use of nano-biofertilizers with organic matter while having a high potential for increasing the yield (quantitative-qualitative) of corn also can significantly improve the biological and chemical properties of saline calcareous soils.

Keywords


Alikhani, H. A., Etesami, H. and Mohammadi, L. 2018.Evaluation of the effect of rhizospheric and Non-rhizospheric phosphate solubilizing bacteria on improving the growth indices of wheat under salinity and drought stress. Journal of Soil Biology 6 (1): 1-15. (In Persion with English abstract).##Arora, N. K. 2018. Agricultural sustainability and food security. Environmental Sustainability 1: 217-219.##Aryanpour, H., Movahedi Naeini, S. A. and Ahmadian, A. 2017. Application of nano- and micro-sized particles of cattle manure on soybean growth. Environmental Health Engineering and Management Journal 4 (4): 239-244.##Awais, M., Tariq, M., Ali, A., Ali, Q., Khan, A., Tabassum, B. and Husnain, T. 2017. Isolation, characterization and inter-relationship of phosphate solubilizing bacteria from the rhizosphere of sugarcane and rice. Biocatalysis and Agricultural Biotechnology 11: 312-321.##Babaei, K., Sharifi, S. R., Pirzad, A. and Khalilzadeh, R. 2017. Effects of bio-fertilizer and nano Zn-Fe oxide on physiological traits, antioxidant enzymes activity and yield of wheat (Triticum aestivum L.) under salinity stress. Journal of Plant Interactions 12 (1): 381-389.##Bhardwaj, D., Ansari, M. W., Sahoo, R. K. and Tuteja, N. 2014. Biofertilizers function as key player in sustainable agriculture by improving soil fertility, plant tolerance and crop productivity. Microbial Cell Factories 13: 66.##Blouin, M., Barrere, J., Meyer, N., Lartigue, S., Barot, S. and Mathieu, J. 2019. Vermicompost significantly affects plant growth. A meta-analysis. Agronomy for Sustainable Development 39 (34): 1-15.##Carter, M. R. and Gregorich, E. G. 2008. Soil sampling and methods of analysis. 2nd Ed. Canadian Society of Soil Science. 1224 p.##Cavite, H. J. M., Mactal, A. G., Evangelista, E. V. and Cruz, J. A. 2021. Growth and yield response of upland rice to application of plant growth-promoting rhizobacteria. Journal of Plant Growth Regulation 40: 495-508.##Dal Cortivo, C., Ferrari, M., Visioli, G., Lauro, M., Fornasier, F., Barion, G., Panozzo, A. and Vamerali, T. 2020. Effects of seed-applied biofertilizers on rhizosphere biodiversity and growth of common wheat (Triticum aestivum L.) in the field. Frontiers in Plant Science 11 (72): 1-14.##Dimkpa, C. O., Andrews, J., Sanabria, J., Bindraban, P. S., Singh, U., Elmer, W. H.,  Torresday, J. L. G. and White, J. C. 2020. Interactive effects of drought, organic fertilizer, and zinc oxide nanoscale and bulk particles on wheat performance and grain nutrient accumulation. Science of the Total Environment 722 (137808): 1-12.##Dordas, C. A., Lithourgidis, A. S., Matsi, T. and Barbayiannis, N. 2008. Application of liquid cattle manure and inorganic fertilizers affect dry matter, nitrogen accumulation, and partitioning in maize. Nutrient Cycling in Agroecosystems 80: 283-296.##Elanchezhian, R., Kumar, D., Ramesh, K., Biswas, A. K., Guhey, A. and Patra, A. K. 2017. Morpho-physiological and biochemical response of maize (Zea mays L.) plants fertilized with nano-iron (Fe3O4) micronutrient. Journal of Plant Nutrition 40 (14): 1969-1977.##Elemike, E. E., Uzoh, I. M., Onwudiwe, D. C. and Babalola, O. O. 2019. The role of nanotechnology in the fortification of plant nutrients and improvement of crop production. Applied Sciences  9 (499): 2-32.##Emami, A. 1996. Methods of plant analysis. Publication No. 982. Soil and Water Research Institute, Tehran, Iran. (In Persian).##Farnia, A. and Omidi, M. M. 2015. Effect of nano-zinc chelate and nano-biofertilizer on yield and yield components of maize (Zea mays L.), under water stress condition. Indian Journal of Natural Science 5 (9): 4614-4707.##Geng, Y., Cao, G., Wang, L. and Wang, S. 2019. Effects of equal chemical fertilizer substitutions with organic manure on yield, dry matter, and nitrogen uptake of spring maize and soil nitrogen distribution. PLoS ONE 14 (7): e0219512.##Ghobadi, R., Ghobadi, M., Jalali Honarmand, S., Mondani, F. and Farhadi, B. 2017. Economic analysis of effect of water and nitrogen levels on grain yield and yield components of maize (Zea mays L.) cv. SC 704. Iranian Journal of Crop Sciences 19 (3): 220-238. (In Persion with English Abstract).##Guo, L., Wu, G., Li, Y., Li, C., Liu, W., Meng, J., Liu, H., Yu, X. and Jiang, G. 2016. Effects of cattle manure compost combined with chemical fertilizer on topsoil organic matter, bulk density and earthworm activity in a wheat–maize rotation system in Eastern China. Soil and Tillage Research 156: 140-147.##Jackson, M. C. 1964. Soil chemical analysis. Constable Co. Ltd. London. pp: 183-192.##Janmohammadi, M., Navid, A., Segherloo, A. E. and Sabaghnia, N. 2016. Impact of nano-chelated micronutrients and biological fertilizers on growth performance and grain yield of maize under deficitirrigation condition. Biologika 62 (2): 134-147.##Karami, A., Homaeea, M., Afzalinia, S., Ruhipour, H. and Basirat, S. 2012. Organic resource management: Impacts on soil aggregate stability and other soil physico-chemical properties. Agriculture. Ecosystem and Environment 148: 22-28.##Kour, D., Rana, K. L., Yadav, A. N., Yadav, N., Kumar, M., Kumar, V., Vyas, P., Dhaliwal, H. S. and Saxena, A. K. 2020. Microbial biofertilizers: Bioresources and eco-friendly technologies for agricultural and environmental sustainability. Biocatalysis and Agricultural Biotechnology 23 (101487): 1-11.##Kumar, M. S., Reddy, G. C., Phogat, M. and Korav, S. 2018. Role of bio-fertilizers towards sustainable agricultural development: A review. Journal of Pharmacognosy and Phytochemistry 7 (6): 1915-1921.##Kumari, P., Meena, M. and Upadhyay, R. 2018. Characterization of plant growth promoting rhizobacteria (PGPR) isolated from the rhizosphere of Vigna radiata (mung bean). Biocatalysis and Agricultural Biotechnology 16: 155-162.##Lalitha, S. 2017. Plant growth–promoting microbes: A boon for sustainable agriculture. In: Dhanarajan, A. (Ed.). Sustainable agriculture towards food security. Springer Singapore. pp: 125-158.##Lithourgidis, A. S., Matsi, T., Barbayiannis, N. and Dordas, C. A. 2007. Effect of liquid cattle manure on corn yield, composition, and soil properties. Agronomy Journal  99 (4): 1041-1047.##Mahanty, T., Bhattacharjee, S., Goswami, M., Bhattacharyya, P., Das, B., Ghosh, A. and Tribedi, P. 2017. Biofertilizers: A potential approach for sustainable agriculture development. Environmental Science and Pollution Research 24 (4): 3315-3335.##Mahdi, S. S., Hassan, G., Samoon, S., Rather, H., Dar, S. A. and Zehra, B. 2010. Bio-fertilizers in organic agriculture. Journal of Phytology 2 (10): 42-54.##Mahmood, F., Khan, I., Ashraf, U., Shahzad, T., Hussain, S., Shahid, M., Abid, M. and Ullah, S. 2017. Effects of organic and inorganic manures on maize and their residual impact on soil physico-chemical properties. Journal of Soil Science and Plant Nutrition17 (1): 22-32.##Martínez, E., Domingo, F., Roselló, A., Serra, J., Boixadera, J. and Lloveras, J. 2016. The effects of dairy cattle manure and mineral N fertilizer on irrigated maize and soil N and organic C. European Journal of Agronomy 83: 78-85.##Meya, A. I., Ndakidemi, P. A., Mtei, K. M., Swennen, R. and Merck, R. 2020. Optimizing soil fertility management strategies to enhance banana production in volcanic soils of the Northern Highlands, Tanzania.Agronomy 10 (289): 2-21.##Naveed, S., Rehim, A., Imran, M., Bashir, M. A., Anwar, M. F. and Ahmad, F. 2018. Organic manures: An efficient move towards maize grain biofortification. International Journal of Recycling of Organic Waste in Agriculture 7: 189-197.##Newman, E. I. 1996. A method of estimating the total length of root in a sample. Journal of Apply Ecology 3: 139-145.##Nouraein, M. 2019. Effect of nanofertilizers and biofertilizers on yield of maize: Biplot analysis. Botanica 25 (2): 121-130.##Raliya, R., Saharan, V., Dimkpa, C. and Biswas, P. 2018. Nanofertilizer for precision and sustainable agriculture: Current state and future perspectives. Journal of Agricultural and Food Chemistry 66 (26): 6487-6503.##Rehman, H. U., Aziz, T., Farooq, M., Wakeel, A. and Rengel, Z. 2012. Zinc nutrition in rice production systems. Plant and Soil 361 (1-2): 203-226.##Sah, S., Singh, N. and Rajni S. 2017. Iron acquisition in maize (Zea mays L.) using Pseudomonas siderophore. 3 Biotech 7 (2): 121.##Sandini, I. E., Pacentchuk, F., Hungria, M., Nogueira, M. A., Cruz, S. P., Nakatani, A. S. and Araujo, R. S. 2019. Seed inoculation with Pseudomonas fluorescens promotes growth, yield and reduces nitrogen application in maize. International Journal of Agriculture and Biology 22: 1369-1375.##Schlegel, A. J., Assefa, Y., Bond, H. D., Wetter, S. M. and Stone, L. R. 2015. Corn response to long-term applications of cattle manure, swine effl uent, and inorganic nitrogen fertilizer. Agronomy Journal 107 (5): 700-710.##Shah, F. and Wu, W. 2019. Soil and crop management Sstrategies to ensure higher crop productivity within sustainable environments. Sustainability 11 (1485): 1-19.##Sparks, D. L. 1996. Method of soil analysis. Part 3. Chemical methods. American Society of Agronomy. Wisconsin, USA. 1390 p.##Stewart, Z. P., Pierzynski, G. M. B., Middendorf, J. and Prasad, P. V. V. 2020. Approaches to improve soil fertility in sub-Saharan Africa.Journal of Experimental Botany 71 (2): 632-641.##Viruel, E., Erazzu, L. E., Martínez Calsina, L., Ferrero, M. A., Lucca, M. E. and Siñeriz, F. 2014. Inoculation of maize with phosphate solubilizing bacteria: Effect on plant growth and yield.Journal of Soil Science and Plant Nutrition14 (4): 819-831.##Yaduvanshi, N. P. S. 2003. Substitution of inorganic fertilizers by organic manures and the effect on soil fertility in a rice-wheat rotation on reclaimed sodic soil in India. Journal of Agricultural Science 140: 161-168.##Zhao, Y., Yan, Z., Qin, J. and Xiao, Z. 2014. Effects of long-term cattle manure application on soil properties and soil heavy metals in corn seed production in Northwest China. Environmental Science and Pollution Research 21: 7586-7595.##Zhao, Y. N., He, X. H., Huang, X. C., Zhang, Y. Q. and Shi, X. J. 2016. Increasing soil organic matter enhances inherent soil productivity while offsetting fertilization effect under a rice cropping system.Sustainability8 (879): 1-12.##