Influence of long-term organic nutrient management on soil quality and crop productivity in rice (Oryza sativa)potato (Solanum tuberosum)okra (Abelmoschus esculentus) cropping system under irrigated condition

A.K. PATRA; K.N. MISHRA; L.M. GARNAYAK; A.K. MOHANTY

doi:10.59797/ija.v62i3.4317

Authors

A.K. PATRA
K.N. MISHRA
L.M. GARNAYAK
A.K. MOHANTY

DOI:

https://doi.org/10.59797/ija.v62i3.4317

Keywords:

Cropping system, Microbial biomass carbon, Nutrient uptake, Organic sources of nutrient supply, Soil microbial population, System yield

Abstract

A long-term field experiment was conducted during 200607 to 201415 on organic nutrient management in rice (Oryza sativa L.)potato (Solanum tuberosum L.)okra (Abelmoschus esculentus L.) cropping system under irrigated conditions in the coastal alluvial sandy loam soil having pH 5.8 and organic carbon 0.62% at Bhubaneswar, Odisha. Eight treatments comprising of five organic, two integrated and one inorganic of nutrient management were tested with three replications in randomized block design. Organic sources of nutrient supply reduced the system yield by 7.6 to 9.7% over the inorganic source in the first year. However, the mean system yield of conversion period (first three cropping system cycles) with organic nutrient management comprising of supply of one-third N each through farm yard manure (FYM), green manuring of dhaincha (Sesbania cannabina) or vermicompost and neem (Azadirachta indica) oilcake + Azospirillum or Azotobacter + phosphate solubilizing bacteria (PSB) was on par with inorganic approach. The mean system yield from fourth to ninth cropping system cycles (after conversion period) with organic sources of nutrient supply, i.e. FYM + green manuring or vermicompost + neem oilcake + Azospirillum or Azotobacter + PSB was significantly higher (11.1%) than that of with inorganic source of nutrient supply i.e., 100% NPK + ZnSO @ 25 kg/ha to rice and 100% NPK + gypsum @ 4 110 kg/ha + borax @ 10 kg/ha + ammonium molybdate @ 0.8 kg/ha to both potato and okra. The organic nutrient management package increased the soil organic carbon and available N, P and K at the end of ninth cropping system cycle over the initial and the build-up was maximum in the soil applied with one third N each through FYM, dhaincha/vermicompost and neem oilcake + Azospirillum/Azotobacter + PSB. The microbial population in terms of colony forming units increased in a higher rate in soils with organic nutrient supply system (bacteria 36.5 to 39.4%, fungi 33.0 to 38.2% and actinomycetes 36.0 to 37.3%) compared to the inorganic source of nutrient supply system (bacteria 5.6%, fungi 10.3% and actinomycetes 12.7%) after ninth cropping system cycle over initial status. The microbial biomass carbon of the soils with organic sources of nutrient supply was enhanced considerably (57.7% to 66.8%) over the initial level (98.7 to 107.4 ?g C/g). Application of one-third N each through FYM, green manur- ing of dhaincha and neem oilcake + Azospirillum + PSB to rice followed by similar combination of FYM, vermicompost, neem oilcake + Azotobacter + PSB to both potato and okra was the best organic nutrient manage- ment practice for ricepotatookra cropping system for improving soil health and productivity. However, this sys- tem can be profitable under organic farming only when on-farm generated organic manures are used.

References

Basak, B.B., Biswas, D.R. and Rattan, R.K. 2012. Comparative ef- fectiveness of value added manures on crop productivity, soil mineral nitrogen and soil carbon pools under maizewheat cropping system in an Inceptisol. Journal of the Indian So- ciety of Soil Science 60(4): 288298_CIT_Dhingra, O.P. and Sinclair, J.B. 1993. Basic Plant Pathology Meth- ods. pp. 179180, CBS Publishers, Delhi_CIT_Ingle, S.S., Jadhao, S.D., Kharche, V.K., Sonune, B.A. and Mali, D.V. 2014. Soil biological properties as influenced by long- term manuring and fertilization under sorghum (Sorghum bicolor)wheat (Triticum aestivum) sequence in Vertisols_CIT_Indian Journal of Agricultural Sciences 84(4): 452457_CIT_Jackson, M.L. 1973. Soil Chemical Analysis. pp. 183204, Prentice Hall of India Pvt. Ltd., New Delhi_CIT_Kachroo, D., Thakur, N.P., Kaur, M., Kumar, P., Sharma, R. and Khajuria, V. 2014. Diversification of rice (Oryza sativa)- based cropping system for enhancing productivity and em- ployment. Indian Journal of Agronomy 59(1): 2125_CIT_Manjunath, B.L., Verma, R.R., Ramesh, R. and Singh, N.P. 2012_CIT_Evaluation of varieties and local manurial sources for or- ganic rice production. Indian Journal of Agronomy 57(3): 241244_CIT_Moharana, P.C., Sharma, B.M., Biswas, D.R., Dwivedi, B.S. and Singh, R.V. 2012. Long-term effect of nutrient management on soil fertility and soil organic carbon pools under a 6-year- old pearlmilletwheat cropping system in an Inceptisol of subtropical India. Field Crops Research 136: 3241_CIT_Nath, D.J., Ozah, B., Baruah, R., Barooah, R.C., Borah, D.K. and Gupta, M. 2012. Soil enzymes and microbial biomass carbon under ricetoria sequence as influenced by nutrient manage- ment. Journal of the Indian Society of Soil Science 60(1): 2024_CIT_OUAT. 2005. Annual Report, All India Coordinated Research Project on Cropping System Research, Orissa University of Agriculture and Technology, Bhubaneswar_CIT_Prasad, J., Karamkar, S., Kumar, R. and Mishra, B. 2010. Influence of integrated nutrient management on yield and soil proper- ties in maizewheat cropping system in an Alfisol of Jharkhand. Journal of the Indian Society of Soil Science 58(2): 200204_CIT_Rao, A.U., Murthy, K.M.D., Sridhar, T.V., Raju S.K. and Lakshmi, D.A. 2014. Studies on performance of organic farming and chemical farming in rainy season rice. International Journal of Plant, Animal and Environmental Sciences 4(4): 202 206_CIT_Rupela, O.P., Humayun, P., Venkateswarlu, B. and Yadav, A.K_CIT_2006. Comparing conventional and organic farming crop production systems: inputs, minimal treatments and data needs. Organic Farming Newsletter 2(2): 317_CIT_Shalini Pilai, P., Geethakumari, V.L. and Sheeba Rebecca, I. 2007_CIT_Balance-sheet of soil nitrogen in rice (Oryza sativa)-based cropping systems under integrated nutrient management_CIT_Indian Journal of Agronomy 52(1): 1620_CIT_Sharma, U. and Subehia, S.K. 2014. Effect of long term integrated nutrient management of rice (Oryza sativa L.)wheat (Triti- cum aestivum L.) on productivity and soil properties in north-western Himalaya. Journal of the Indian Society of Soil Science 62(3): 248254_CIT_Surekha, K. and Satishkumar, Y.S. 2014. Productivity, nutrient bal- ance, soil quality, and sustainability of rice (Oryza sativa L.) under organic and conventional production systems. Com- munications in Soil Science and Plant Analysis 45(4): 415 428_CIT_Urkurkar, J.S., Tiwari, A., Chitale, S. and Bajpai, R.K. 2010. Influ- ence of long-term use of inorganic and organic manures on soil fertility and sustainable productivity of rice (Oryza sa- tiva) and wheat (Triticum aestivum) in Inceptisols. Indian Journal of Agricultural Sciences 80(3): 208212_CIT_Vance, E.D., Brookes, P.C. and Jenkinson D.S. 1987. An extraction method for measuring soil microbial biomass carbon. Soil Biology and Biochemistry 19(6): 703707_CIT_Yadav, R.L., Dwivedi, B.S., Prasad, K., Tomar, O.K., Shurpali, N.J_CIT_and Pandey, P.S. 2000. Yield trends and changes in soil or- ganic-C and available NPK in a long-term ricewheat sys- tem under integrated use of manures and fertilizers. Field Crops Research 68: 219246.