Response of sweet corn (Zea mays L. var. saccharata) to vermicompost and inorganic fertilizer application

Jeffrey P. Villaver

Abstract


This study was conducted to determine the appropriate rate of vermicompost that would influence the agronomic performance and evaluate the effect of combining the different vermicompost rates and the specific rate of inorganic fertilizer that could effectively promote the growth and yield of sweet corn. The experiment was conducted in a Randomized Complete Block Design (RCBD) with ten (10) treatments and three (3) replications. The treatments are as follows: T1 – 120-90-60 kg ha-1 inorganic fertilizer or farmers’ practice, T2 – 5 t ha-1 vermicompost  + 102-76.5-51 kg ha-1 inorganic fertilizer, T3 – 10 t ha-1 vermicompost + 96-72-48 kg ha-1 inorganic fertilizer, T4 – 20 t ha-1 vermicompost + 84-63-42 kg ha-1 inorganic fertilizer, T5 – 40 t ha-1 vermicompost + 60-45-30 kg ha-1 inorganic fertilizer, T6 – no application (control group), T7 – 5 t ha-1 vermicompost, T8 – 10 t ha-1 vermicompost, T9 – 20 t ha-1 vermicompost, and T10 – 40 t ha-1 vermicompost. Results of the study revealed that the different treatments influenced the ear yield (husked and unhusk), kernels per ear, weight per ear, percentage of marketable ears, percentage of barren plants, and percentage of double ears. The treatments 1 to 5 yielded significantly higher compared to the control treatment (T6) which implies that the application of vermicompost with 50 - 85% of the farmers’ practice had significant improvement in sweet corn production. The application of 20 t ha-1 vermicompost + 70% of farmers’ practice achieved the highest yield at 12.50 and 15.80 t ha-1 husked and unhusk ears respectively. Highest percentage of double ears at 29.69% was attained on the plants applied with 40 t ha-1 vermicompost + half of farmers’ practice. The yields of sweet corn applied with vermicompost alone were not comparable to treatments applied with inorganic fertilizers.

https://doi.org/10.26803/ijhss.12.6.2


Keywords


inorganic fertilizer; maize; NPK fertilizer; vermicompost; yield components

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References


Akgüngör, S., Miran, B., & Abay, C. (2010). Consumer willingness to pay for organic food in urban Turkey. Journal of International Food & Agribusiness Marketing, 22(3–4), 299–313.

Andow, D. A. (2019). Corn IPM and Trichogramma. Ecological Interactions And Biological Control.

Anser Ali, M., & Hussain, S. (2012). Nutritional and physiological significance of potassium application in maize hybrid crop production. Pak J Nutri, 11(2), 187–202.

Aryal, K. P., Chaudhary, P., Pandit, S., & Sharma, G. (2009). Consumers’ willingness to pay for organic products: A case from Kathmandu valley. Journal of Agriculture and Environment, 10, 15–26.

Asghar, A., Ali, A., Syed, W. H., Asif, M., Khaliq, T., & Abid, A. A. (2010). Growth and yield of maize (Zea mays L.) cultivars affected by NPK application in different proportion. Pakistan Journal of Science, 62(4), 211–216.

Ayoola, O. T., & Makinde, E. (2009). Maize growth, yield and soil nutrient changes with N-enriched organic fertilizers. African Journal of Food, Agriculture, Nutrition and Development, 9(1), 580–592.

Baral, B. R., Adhikari, P., & Shrestha, J. (2016). Productivity and Economics of Hybrid Maize (Zea mays L.) under different Fertilizer Doses in the Inner Terai Region of Nepal. Journal of AgriSearch, 3(1), 13–16.

Basha, M. B., Mason, C., Shamsudin, M. F., Hussain, H. I., & Salem, M. A. (2015). Consumers attitude towards organic food. Procedia Economics and Finance, 31, 444–452.

Bekele, A., Kibret, K., Bedadi, B., Balemi, T., & Yli-Halla, M. (2018). Effects of lime, vermicompost and chemical P fertilizer on yield of maize in Ebantu District, Western highlands of Ethiopia. African Journal of Agricultural Research, 13(10), 477–489.

Belfry, K. D., & Van Eerd, L. L. (2016). Establishment and impact of cover crops intersown into corn. Crop Science, 56(3), 1245–1256.

Briz, T., & Ward, R. W. (2009). Consumer awareness of organic products in Spain: An application of multinominal logit models. Food Policy, 34(3), 295–304.

Canatoy, R. C. (2018). Effects of vermicompost on the growth and yield of sweet corn in Bukidnon, Philippines. Asian Journal of Soil Science and Plant Nutrition, 1–8.

Cruz, C. A., Meneses, N. B., da Cunha, T. P. L., Nowaki, R. H. D., & Barbosa, J. C. (2015). Influence of amount and parceling of nitrogen fertilizer on productivity and industrial revenue of sweet corn (“Zea mays†L.). Australian Journal of Crop Science, 9(10), 895.

Cutulle, M. A., Armel, G. R., Kopsell, D. A., Wilson, H. P., Brosnan, J. T., Vargas, J. J., Hines, T. E., & Koepke-Hill, R. M. (2018). Several pesticides influence the nutritional content of sweet corn. Journal of Agricultural and Food Chemistry, 66(12), 3086–3092.

Densilin, D. M., Srinivasan, S., Manju, P., & Sudha, S. (2011). Effect of individual and combined application of biofertilizers, inorganic fertilizer and vermicompost on the biochemical constituents of chilli (Ns-1701). J Biofertil Biopestici, 2(106), 2.

Fahrurrozi, F., Muktamar, Z., Dwatmadji, D., Setyowati, N., Sudjatmiko, S., & Chozin, M. (2017). Growth and yield responses of three sweet corn (Zea mays L. var. Saccharata) varieties to local-based liquid organic fertilizer.

Gardner, J., Hoffmann, M. P., Pitcher, S. A., & Harper, J. K. (2011). Integrating insecticides and Trichogramma ostriniae to control European corn borer in sweet corn: Economic analysis. Biological Control, 56(1), 9–16.

Ghosh, B. C., Bera, N., Das, D., & Swain, D. K. (2013). Effect of varying soil and vermicompost mixtures on growing media and yield and quality of sweet corn. International Conference on Food and Agricultural Sciences, 55, 38–42.

Guilabert, M., & Wood, J. A. (2012). USDA certification of food as organic: An investigation of consumer beliefs about the health benefits of organic food. Journal of Food Products Marketing, 18(5), 353–368.

Hadgu, K. M., Rossing, W. A., Kooistra, L., & van Bruggen, A. H. (2009). Spatial variation in biodiversity, soil degradation and productivity in agricultural landscapes in the highlands of Tigray, northern Ethiopia. Food Security, 1(1), 83–97.

Hair, J. F., Black, W. C., Babin, B. J., Anderson, R. E., & Tatham, R. L. (1998). Multivariate data analysis (Vol. 5). Prentice hall Upper Saddle River, NJ.

Hati, K. M., Swarup, A., Mishra, B., Manna, M. C., Wanjari, R. H., Mandal, K. G., & Misra, A. K. (2008). Impact of long-term application of fertilizer, manure and lime under intensive cropping on physical properties and organic carbon content of an Alfisol. Geoderma, 148(2), 173–179.

Joshi, R., Singh, J., & Vig, A. P. (2015). Vermicompost as an effective organic fertilizer and biocontrol agent: Effect on growth, yield and quality of plants. Reviews in Environmental Science and Bio/Technology, 14(1), 137–159.

khan Mohammadi, N., Pankhaniya, R. M., Patel, K. M., & Rahmani, N. (2017). Effect of various levels of inorganic fertilizer and vermicompost with and without bio-fertilizer on growth, yield attributes and yield of sweet corn (Zea mays L. saccharata).

Kumar, R., Bohra, J. S., Singh, A. K., & Kumawat, N. (2015). Productivity, profitability and nutrient-use efficiency of baby corn (Zea mays) as influenced of varying fertility levels. Indian Journal of Agronomy, 60(2), 285–290.

Läpple, D., & Van Rensburg, T. (2011). Adoption of organic farming: Are there differences between early and late adoption? Ecological Economics, 70(7), 1406–1414.

Lima, M. S., Silva, P. S. L., Oliveira, O. F., Silva, K. M. B., & Freitas, F. C. L. (2010). Corn yield response to weed and fall armyworm controls. Planta Daninha, 28(1), 103–111.

Ma, R. X., Wang, J. S., Li, X. Z., & Liu, W. C. (2012). Effect of different npk fertilizers cooperating application on yield and quality of high starch maize. Applied Mechanics and Materials, 214, 423–429.

Marlina, N., Amir, N., Aminah, R. I. S., Nasser, G. A., Purwanti, Y., & Nisfuriah, L. (2017). Organic and Inorganic Fertilizers Application on NPK Uptake and Production of Sweet Corn in Inceptisol Soil of Lowland Swamp Area. MATEC Web of Conferences, 97, 01106.

Maske, N. M., Pramanik, K., & Asewar, B. V. (2018). Correlation studies for yield and yield contributing characters in sweetcorn (Zea mays L. saccharata). Int. J. Bio-Res. Env. Agril. Sci.

Mukhtar, T., Arif, M., Hussain, S., Tariq, M., & Mehmood, K. (2011). Effect of different rates of nitrogen and phosphorus fertilizers on growth and yield of maize. J. Agric. Res, 49(3), 333–339.

Ozores-Hampton, M., McAvoy, E. J., Dittmar, P. J., Webb, S. E., Raid, R. N., & Olson, S. M. (2013). Sweet corn production. University of Florida Institute of Food and Agricultural Sciences, HS, 737.

Pangaribuan, D. H., & Hendarto, K. (2018). The effect of organic fertilizer and urea fertilizer on growth, yield and quality of sweet corn and soil health. Asian Journal of Agriculture and Biology, 6(3), 335–344.

Rana, J., & Paul, J. (2017). Consumer behavior and purchase intention for organic food: A review and research agenda. Journal of Retailing and Consumer Services, 38, 157–165.

Rani, R., Sheoran, R. K., Soni, P. G., Kaith, S., & Sharma, A. (2017). Baby corn: A wonderful vegetable. International Journal of Science, Environment and Technology, 6(2), 1407–1412.

Rasco Jr, E. T., Mangubat, J. R., Burgonio, A. B., Logrono, M. L., Villegas, V. N., & Fernandez, E. C. (2008). Efficacy of insect-protected maize (Bt-11) against asiatic corn borer (Ostrinia furnacalis Guenee). Philippine Journal of Crop Science, 33(3), 82–89.

Rasool, S., Kanth, R. H., Hamid, S., Raja, W., Alie, B. A., & Dar, Z. A. (2015). Influence of Integrated nutrient management on growth and yield of sweet corn (Zea mays L. Saccharata) under temperate conditions of Kashmir valley. Journal of Experimental Agriculture International, 315–325.

Salazar, A. M., Manguiat, P. H., Laude, T. P., & Beltran, A. K. M. (2009). Breeding of special maize types: Sweet corn. Philippine Journal of Crop Science (Philippines).

Shegro, A., Labuschagne, M. T., Shargie, N. G., & van Biljon, A. (2013). Multivariate Analysis of Nutritional Diversity in Sorghum Landrace Accessions from Western Ethiopia.

Silva, P. S. L., Silva, K. M. B., Silva, P. I. B., Oliveira, V. R., & Ferreira, J. L. B. (2010). Green ear yield and grain yield of maize cultivars in competition with weeds. Planta Daninha, 28(1), 77–85.

Silva, Paulo Sérgio L., Araújo Júnior, B. B., Oliveira, V. R., Pontes, F. S., & Oliveira, O. F. (2013). Effects of nitrogen application on corn yield after harvesting the apical ear as baby corn. Horticultura Brasileira, 31(3), 419–425.

Singh, M. K., Singh, R. N., Singh, S. P., Yadav, M. K., & Singh, V. K. (2010). Integrated nutrient management for higher yield, quality and profitability of baby corn (Zea mays). Indian Journal of Agronomy, 55(2), 100.

Sofyan, E. T., Sara, D. S., & Machfud, Y. (2019). The effect of organic and inorganic fertilizer applications on N, P-uptake, K-uptake and yield of sweet corn (Zea mays saccharata Sturt). IOP Conference Series: Earth and Environmental Science, 393(1), 012021.

Srdić, J., Pajić, Z., Filipović, M., Babić, M., SeÄanski, M., Srdić, J., Pajić, Z., Filipović, M., Babić, M., & SeÄanski, M. (2011). Inheritance of ear yield and its components in sweet corn (Zea mays L. saccharata). Genetika, 43(2), 341–348.

Stolz, H., Stolze, M., Hamm, U., Janssen, M., & Ruto, E. (2011). Consumer attitudes towards organic versus conventional food with specific quality attributes. NJAS-Wageningen Journal of Life Sciences, 58(3–4), 67–72.

Villaver, J. P. (2019). Physiological Efficiency of Sweet Corn (Zea mays L. var. Saccharata) as Influenced by Indigenous Microorganisms (IMO) 7 and Biofertilizers. International Journal of Science and Management Studies (IJSMS), 2(4), 55–66.

Yan, Z., Liu, P., Li, Y., Ma, L., Alva, A., Dou, Z., Chen, Q., & Zhang, F. (2013). Phosphorus in China’s intensive vegetable production systems: Overfertilization, soil enrichment, and environmental implications. Journal of Environmental Quality, 42(4), 982–989.

Yazdani, M., Bahmanyar, M. A., Pirdashti, H., & Esmaili, M. A. (2009). Effect of phosphate solubilization microorganisms (PSM) and plant growth promoting rhizobacteria (PGPR) on yield and yield components of corn (Zea mays L.). World Academy of Science, Engineering and Technology, 49, 90–92.

Zander, K., & Hamm, U. (2010). Consumer preferences for additional ethical attributes of organic food. Food Quality and Preference, 21(5), 495–503.

Zhang, Y., Li, C., Wang, Y., Hu, Y., Christie, P., Zhang, J., & Li, X. (2016). Maize yield and soil fertility with combined use of compost and inorganic fertilizers on a calcareous soil on the North China Plain. Soil and Tillage Research, 155, 85–94.


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