Effect of Different Liquid Organic Manures on the Nutrient Release Pattern in Radish Grown Soil

M. E. Supriya *

Department of Soil Science and Agricultural Chemistry, UAS GKVK, Bengaluru-560065, India.

T. Bhagyalakshmi

Department of Soil Science and Agricultural Chemistry, College of Agriculture, V. C. Farm, Mandya-571405, India.

S. B. Yogananda

Department of Agronomy, College of Agriculture, V. C. Farm, Mandya-571405, India.

G. S. Yogesh

Krishi Vigyan Kendra, Haradanahalli, Chamarajanagara-571127, India.

Chandrappa

Department of Horticulture, College of Agriculture, V. C. Farm, Mandya-571405, India.

Lakshmeesha R

Department of Plant Biotechnology, University of Agricultural Sciences, Bangalore -560065, India.

*Author to whom correspondence should be addressed.


Abstract

The study of nutrient release patterns from various organic manures is critical for ensuring enough nutrient availability to crop plants at the right time and in the right quantity. To assess the nutrient release pattern from several organic manures, including farm yard manure, panchagavya and jeevamrutha, a field experiment was conducted at organic farming block of Zonal Agricultural Research Station, V. C. Farm, Mandya during late Kharif 2020. The experiment consists of 9 treatments including different rates of recommended dose of nitrogen was applied through FYM and one- and two-times application of panchagavya and jeevamrutha in different combinations. The experiment was laid out in a Randomized Block Design with three replications. The release pattern of available nitrogen, phosphorus, potassium, calcium, magnesium, sulphur and micronutrients in soil applied with various organic manures at various days (15, 30, 45 DAS and at harvest).  The study revealed that application of various organic manures showed substantial increase in primary (N, P and K) and secondary nutrient (S) release and there were no significant variations found in Ca, Mg, Fe, Mn, Cu and Zn release pattern. Based on the release rate of nutrients, it was found that there was consistent and stable release of N, P, K and S from 75% RDN through FYM + two time application of Panchagavya followed by 75% RDN through FYM + two time application of Jeevamrutha,  compared to other treatments.

Keywords: Panchagavya, Jeevamrutha, radish, nitrogen, phosphorus, potassium and sulphur release rate


How to Cite

Supriya , M. E., Bhagyalakshmi , T., Yogananda , S. B., Yogesh, G. S., Chandrappa, & Lakshmeesha R. (2024). Effect of Different Liquid Organic Manures on the Nutrient Release Pattern in Radish Grown Soil. Asian Journal of Soil Science and Plant Nutrition, 10(2), 366–374. https://doi.org/10.9734/ajsspn/2024/v10i2294

Downloads

Download data is not yet available.

References

Araya-Alman M, Olivares B. Acevedo-Opazo C. Relationship between soil properties and banana productivity in the two main cultivation areas in venezuela. J Soil Sci Plant Nutr. 2020;20(3):2512-2524.

Available:https://doi.org/10.1007/s42729-020-00317-8

Campos BO. Banana production in venezuela: Novel solutions to productivity and plant health. Springer Nature; 2023. Available:https://doi.org/10.1007/978-3-031-34475-6

Cortez A, Olivares B, Parra R, Lobo D, Rodríguez MFY, Rey JC. Description of meteorological drought events in localities of the central mountain range, Venezuela. Ciencia, Ingenierias Aplicaciones. 2018;1 (1):22-44. Available:http://dx.doi.org/10.22206/cyap.2018.vlil.pp23-45.

Campos-Olivares B, Hernandez R, Coelho R, Molina JC Pereira Y. Analysis espacial del indice hidrico: un avance en la adopcion de decisiones sostenibles en los territorios agricolas de Carabobo, Venezuela. Revista Geografica de America Central. 2018;60(1):277-299. DOI: https://doi.org/10.15359/rgac.60-1.10

Rodriguez MF, Cortez A, Olivares B, Rey JC, Parra R, Lobo D. Spatio-temporal analysis of precipitation in the state of Anzoategui and its surroundings. Agron. Trop. 2013;63(1-2):57-65. Available:https://n9.cl/14iow

Calero J, Olivares BO, Re JC, Lobo D, Landa BB, Gomez JA. 2022, Correlation of banana productivity levels and soil morphological properties using regularized optimal scaling regression. Catena. 2008: 105718. Available:https://doi.org/10.1016/j.catena.2021.105718.

Lobo D, Olivares B, Rey JC, Vega A, Rueda-Calderon A. Relationships between the Visual Evaluation of Soil Structure (VESS) and soil properties in agriculture: A meta-analysis. Sci. Agropecu. 2023;14–1:67-78. Available:https://doi.org/10.17268/sci.agropecu.2023.007

Olivares B, Parra R, Cortez A. Rodriguez MF. Patterns of rainfall homogeneity in climatic stations of the Anzoategui state, Venezuela. Rev. Multiciencias. 12 (Extraordinario): 2012:11-17. Available:https://n9.cl/xbslq

Olivares B, Torrealba J, Caraballo L. Variability of the precipitation regime in the period 1990-2009 in the location of El Tigre, Anzoategui state, Venezuela. Rev. Fac. Agron. (LUZ). 2013;30(1):19- 32. Available:https://n9.cl/mic0l

Cortez A, Olivares B, Munetones AY, Casana S. Strategic elements of organizational knowledge management for innovation. Case: Agrometeorology Network. Revista Digital de Investigacion en Docencia Universitaria. 2016;10(1):68-81. Available:http://dx.doi.org/10.19083/ridu.10.446

Guevara E, Olivares B, Oliveros Y, López L. Estimation of thermal comfort index as an indicator of heat stress in livestock production in the Guanipa plateau, Anzoátegui, Venezuela. Revista Zootecnia Tropical. 2013;31(3):209-223. Available:https://n9.cl/ovcu9

Olivares B, Rey JC, Lobo D, Navas-Cortes JA, Gomez JA, Landa BB. Fusarium wilt of bananas: A Review of agro-environmental factors in the venezuelan production system affecting its development. Agron., 2021a;11(5):986. Available:https://doi.org/10.3390/agronomy11050986

Hernandez R, Pereira Y, Molina JC, Coelho R, Olivares B, Rodríguez K. Calendario de siembra para las zonas agrícolas del estado Carabobo en la República Bolivariana de Venezuela. Sevilla, Spain, Editorial Universidad Internacional de Andalucía. 2017;247 .

Available:https://n9.cl/sjbvk.

Zingaretti ML, Olivares B. Analysis of the meteorological drought in four agricultural locations of Venezuela by the combination of multivariate methods. UNED Res. J., 2018;10(1):181-192. Available:http://dx.doi.org/10.22458/urj.v10i1.2026

Olivares B, Paredes F, Rey J, Lobo D, Galvis-Causil S. The relationship between the normalized difference vegetation index, rainfall, and potential evapotranspiration in a banana plantation of Venezuela. SAINS TANAH – J. Soil Sci. Agroclimatol. 2021b; 18(1):58-64. Available:http://dx.doi.org/10.20961/stjssa.v18i1.50379

Rodriguez MF, Olivares B. Cortez A, Rey JC, Lobo D. Natural physical characterization of the indigenous community of Kashaama for the purposes of sustainable land management. Acta. Nova. 2015;7(2):143-164 Available:https://n9.cl/hakdx

Hernandez R, Olivares B, Arias A, Molina JC, Pereira Y. Agroclimatic zoning of corn crop for sustainable agricultural production in Carabobo, Venezuela. Revista Universitaria de Geografía. 2018ª;27(2): 139-159. Available:https://n9.cl/l2m83

Hernandez R, Olivares B. Ecoterritorial sectorization for the sustainable agricultural production of potato (Solanum tuberosum L.) in Carabobo, Venezuela. Agric. Sci. Technol., 2019;20(2): 339-354.

Available:https://doi.org/10.21930/rcta.vol20_num2_art:1462

Olivares B, Rey JC, Lobo D, Navas-Cortes JA, Gomez JA, Landa BB. Machine learning and the new sustainable agriculture: Applications in banana production systems of venezuela. Agric. Res. Updates. 2022a;42:133-157

Hernandez R, Olivares B. Application of multivariate techniques in the agricultural land’s aptitude in Carabobo, Venezuela. Tropical and Subtropical Agroecosystems. 2020;23(2):1-12. Available:https://n9.cl/zeedh

Olivares BO, Rey JC, Perichi G. Lobo D. Relationship of microbial activity with soil properties in banana plantations in Venezuela. Sustainabil. 2022b;14: 13531.

Available:https://doi.org/10.3390/su142013531

Hernandez R, Olivares B, Arias A, Molina JC, Pereira Y. Identification of potential agroclimatic zones for the production of onion (Allium cepa L.) in Carabobo, Venezuela. J. Selva, Andina, Biosph. 2018b;6(2):70-82.

Available:http://www.scielo.org.bo/pdf/jsab/v6n2/v6n2_a03.pdf

Hernandez R, Olivares B, Arias A, Molina JC, Pereira Y. Eco-territorial adaptability of tomato crops for sustainable agricultural production in Carabobo, Venezuela. Idesia. 2020;38(2): 95-102.

Available:http://dx.doi.org/10.4067/S071834292020000200095

Olivares BO, Vega A, Calderon MAR, REY JC, Lobo D, Gomez JA, Landa BB. identification of soil properties associated with the incidence of banana wilt using supervised methods. Plants, 2022c;11: 2070.

Available:https://doi.org/10.3390/plants11152070

Kumar S, Sutanu M, Kumar S, Singh HD. Efficacy of organic manures on growth and yield of radish (Raphanus sativus L.) cv. Japanese White. Int. J. Plant Sci., 2014;9(1):57-60.

Singh KP. Bhandari RR. Vegetable crops production technology. First edition Bagbazar, Nepal. 2015:308.

Kushwah L. Effect of organic manures, inorganic fertilizers and their combinations on growth, yield and quality of radish (Raphanus sativus L.). M. Sc. (Ag) thesis. Rajmata Vijayaraje Scindia Krishi Vishwa Vidhyalaya, Gwalior, India; 2016.

Mali DL, Singh V, Sarolia DK, Teli SK, Chittora A, Dhakar R. Effect of organic manures and bio-fertilizers on growth and yield of radish (Raphanus sativus L.) cv. Japanese white. Int. J. Chem. Stud. 2018;6(2):1095-1098

Diacono M, Montemurro F. Long term effects of organic amendments on soil fertility. A review. Agron. Sustain. Dev. 2010;30:401–422.

Gomez KA, Gomez AA. Statistical procedures for agricultural research. 2nd Ed. John Wiley Sons, New York; 1984.

Ali MN, Ghatak S. Ragul T. Biochemical analysis of panchagavya and sanjibani and their effect in crop yield and soil health. J. Crop Weed. 2011;7(2):84-86.

Kumawat RN, Mahajan SS, Santra P. Effect of panchgavya on soil chemical properties of groundnut (Arachis hypogaea) rhizosphere and crop productivity in western Rajasthan. J. Food Legumes. 2013;26(2):39-43.

Narkhede WN, Khandare SK, Nayak Khazi GS. Effect of organic and inorganic nutrient sources and their integrated nutrient management on productivity, economic efficiency, available N, P, K and microbial population in soybean (Glycine max) – onion (Allium cepa) cropping sequence. Indian J. Agron. 2017;62 (2):147–154

Patel DM, Patel IM, Patel BT, Singh NK. Patel CK. Effect of panchgavya and jivamrut on yield, chemical and biological properties of soil and nutrients uptake by Kharif groundnut (Arachis hypogaea L.). Int. J. Chem. Stud. 2018;6(3):804- 809.

Pradeep Gopakkali. Development of liquid organic manures and their evaluation for organic production of Chilli and Onion. Ph.D. Thesis, University of Agricultural Sciences, Bangalore; 2013.

Vajantha B, Umadevi M, Patnaik MC, Rajkumar M. Micronutrient status of soils under ashwagandha grown farmer fields in Andhra Pradesh. Asian J. Soil Sci. 2013;8(1):143-147.

Amareswari PU, Sujathamma P. Effect of vermicompost, jeevamrutha, panchagavya and mulching on the cost benefit ratio in french bean. Hort. Flora Res. Spectr. 2015;4(4):333-336.

Yogananda SB, Devakumar N, Shruti MK, Ningaraju. Growth and yield of cowpea as influenced by different sources of organic manures, Nat. Symp. Org. Agric. Sust. Food Sec. Challenges Opp., Tamilnadu, India. 2015:113.

Gangadhar, K., Devakumar, N., Vishwajith AND Lavanya, G. Growth, yield and quality parameters of chilli (Capsicum annuum L.) as influenced by Appllication of different organic manures and decomposers. Int. J. Chem. Stud. 2019;8(1):473-482.

Haynes RJ. The decomposition process mineralization, immobilization, humus formation and degradation. In: Haynes, R. J. (ed.), Mineral nitrogen in the plant-soil system. Academic press, New York. 1986:75-98.

Manjunatha GS, Upperi SN, Pujari BT, Yeledahalli NA. Kuligod AVB. Effect of farm yard manure treated with jeevamrutha on yield attributes and economics of sunflower (Helianthus annuus L.). Karnataka J. Agric. Sci. 2009;22(1):342-348.