REFERENCES
- Affendy, H., M. Aminuddin, M. A. Amizi, K. Assis, and A. T. Tamer. 2011. Effect of organic fertilizers application to the growth of Orthosiphon stamineus Benth, intercropped with Hevea brasiliensis wild and Durio zibethinus Murr. International Journal Agricultural Research 6:180–187.
- American Public Health Association. 1984. Compendium of methods for the microbiological examination of foods, 2nd ed. Washington, DC: APHA.
- Babu, S., R. Marimuthu, V. Manivanna, and S. Ramesh-Kumer. 2001. Effect of organic and inorganic manures on growth and yield of rice. Agricultural Science Digest 21:232–234.
- Bradford, N. M. 1976. A rapid and sensitive method for quantification of microgram quantities of protein utilizing the principle of protein dye binding. Analytical Biochemistry 72:248–54.
- Broschat, T. K., and K. K. Moore. 2007. Release of ammonium–nitrogen, nitrate-nitrogen phosphorus, potassium, magnesium, iron and manganese from seven controlled release fertilizer. Communication in Soil Science and Plant Analysis 38:843–850.
- Carreres, R., J. Sendra, R. Ballesteros, E. F. Valiente, A. Quesada, D. Carrasco, F Leganes, and J. G. Cuadra. 2003. Assessment of slow release fertilizers and nitrification inhibitors in flooded rice. Biology and Fertility of Soils 39:80–87.
- Casida, L. E., Jr., D. A. Klein, and T. Santoro. 1964. Soil dehydrogenase activity. Soil Science 98:371–378.
- Dahiya, S., Usha, P. K. Jaiwal, and R.P. Singh. 2004. Efficient nitrogen assimilation and high productivity in rice (Oryza sativa L.) applied with organic matrix based slow release nitrogen fertilizers. Physiology and Molecular Biology of Plants 10:83–92.
- Dwivedi, D. K., and S. S. Thakur. 2000. Effect of organic and inorganic fertilizers levels on productivity of rice (Oryza sativa) crop. Indian Journal of Agronomy 45:568–574.
- Dong Y., and Z Wang. 2007. Release characteristics of different N forms in an uncoated slow/controlled release compound fertilizer. Agricultural Sciences in China 6:330–337.
- Golloway, J., N. Raghuram, and Y. P. Abrol. 2008. A perspective on reactive nitrogen in a global, Asian and Indian context. Current Science 94:1375–1381.
- Gupta, S. K., R. C. Gupta, S. K. Chhabra, S. Eskiocak, A. B. Gupta, and R. Gupta. 2008. Health issues related to N pollution in water and air. Current Science 94:1469–1477.
- Haque, S. A., and Z. Sultana. 2008. Efficiency of meister-10 and urea-nimin as controlled release nitrogen fertilizers on rice. SAARC Journal of Agriculture 6:1–7.
- Jackson, M. L. 1973. Soil chemical analysis. Englewood Cliffs, NJ: Prentice Hall.
- Ji, X.-J., S.-X. Zheng, Y.-H. Lu, and Y.-L. Liao. 2007. Study of dynamics of floodwater nitrogen and regulation of its runoff loss in paddy field-based two-cropping rice with urea and controlled release nitrogen fertilizer application. Agricultural Sciences in China 6:189–199.
- Kiran, J. K., Y. M. Khanif, H. Amminuddin, and A. R. Anuar. 2010. Effect of controlled release urea on the yield and nitrogen nutrition of flooded rice. Communication in Soil Science and Plant Analysis 41:811–819.
- Kumar, M., K. Bauddh, S. Kumar, M. Sainger, P. A. Sainger, and R. P. Singh. 2013. Increase in growth, productivity and nutritional status of wheat (Triticum aestivum L. cv. Wh-711) and enrichment in soil fertility applied with organic matrix entrapped urea. Journal of Environmental Biology 34:1–9.
- Kumar, M., K. Bauddh, M. Sainger, P. A. Sainger, J. S. Singh, and R. P. Singh. 2012. Increase in growth, productivity and nutritional status of rice (Oryza sativa L. cv. Basmati) and enrichment in soil fertility applied with an organic matrix entrapped urea. Journal of Crop Science and Biotechnology 15:137–144.
- Kumar, S., K. Bauddh, S. C. Barman, and R. P. Singh. 2013. Evaluation of conventional and Organic matrix entrapped urea and diammonium phosphate for growth and productivity of Triticum aestivum L. and mobilization of NO3-, NO2-, NH4+ and PO4−3 from soil to plant leaves. International Journal of Agronomy and Plant Production 4:1357–1368.
- Kumar, S., K. Bauddh, S. C. Barman, and R. P. Singh. 2014. Organic matrix entrapped bio-fertilizers increase growth, productivity and yield of Triticum aestivum L. and mobilization of NO3-, NO2-, NH4+ and PO4−3 from soil to plant leaves. Journal of Agricultural Sciences and Technology 16:315–329.
- Kumar, S., K. Bauddh, S. C. Barman, and R. P. Singh. 2015. Amendments of microbial biofertilizers and organic substances reduces requirement of urea and DAP with enhanced nutrient availability and productivity of wheat (Triticum aestivum L.). Ecological Engineering 71:432–437.
- Lang, C. A. 1958. Simple microdetermination of Kjeldahl nitrogen in biological materials. Analytical Chemistry 30:92–694.
- Liew, Y. A., S. R. S. Omar, M. H. A. Husni, M. A. Z. Abidin, and N. A. P. Abdullah. 2010. Effects of micronutrient fertilizers on the production of MR 219 Rice (Oryza sativa L.). Malaysian Journal of Soil Science 14:71–82.
- Mahajan, A., A. K. Chaudhary, R. C. Jaggi, and R. K. Dogra. 2003. Importance of biofertilizers in sustainable agriculture. Farmer’s Forum 3(4):17–19.
- Ogut, M., C. Akdag, O. Duzdemir, and M. A. Sakin. 2005. Single and double inoculation with Azospirillum/Trichoderma: The effects on dry bean and wheat. Biology and Fertility of Soils 4:262–272.
- Olsen, S. R., C.H. Cole, F. S. Wantanabe, and L. A. Dean.1954. Estimation of available phosphorus by extraction with sodium carbonate ( Circular 939). U.S. Department of Agriculture, Washington, DC.
- Quyen, N. V., S. N. Sharma, and R. C. Gautam. 2002. Comparative study of organic and traditional farming for sustainable rice production. Omonrice 10:74–78.
- Rawat, S. K., and R. P. Singh. 2010. Seasonal variation of nitrate level in ground and surface water of Lucknow and its remediation using certain aquatic macrophytes. International Journal of Lakes Rivers 3:25–36.
- Rawat, S. K., R. K. Singh, and R. P. Singh. 2012. Remediation of nitrite in ground and surface waters using aquatic macrophytes. Journal of Environmental Biology 33:51–56.
- Richard, L. A. 1954. Diagnosis and improvement of saline and alkali soils ( USDA handbook. no. 60). New Delhi: Oxford and IBH.
- Satyanarayana, V., P. V. V. Prasad, V. R. K. Murthy, and K. J. Boote. 2002. Influence of integrated use of farmyard manure and inorganic fertilizers on yield and yield components of irrigated lowland rice. Journal of Plant Nutrition 25: 2081–2090.
- Sharma, C., M. K. Tiwari, and H. Pathak. 2008. Estimate of emission and deposition of reactive nitrogenous species for India. Current Science 94:1439–1446.
- Sharma, P., G. Singh, and R. P. Singh. 2011. Conservation tillage, optimal water and organic nutrients supply enhanced soil microbial activity during wheat (Triticum aestivum) cultivation. Brazilian Journal of Microbiology 42:531–542.
- Sharma, P., G. Singh, and R. P. Singh. 2012. Conservation tillage, optimal water supply enhance microbial enzyme (glucosidase, urease and phoshphatase) activities in field under wheat cultivation during various nitrogen management practices. Archives of Agronomy and Soil Science 59:911–928.
- Sharma, V. K., and R. P Singh. 2011. Organic matrix based slow release fertilizer enhances plant growth, nitrate assimilation and seed yield of Indian mustard (Brassica juncea L. cv Pusa Bold). Journal of Environmental Biology 32:619–624.
- Singh, R. P., K. Bauddh, M. Sainger, P. A. Sainger, J. Singh, P. K. Jaiwal. 2011. Nitrogen use efficiency in higher plants under drought, high temperature, salinity and heavy metal contaminations. In: Jain V, Kumar PA, editors. Nitrogen Use Efficiency in Higher Plants. New India Publishing Agency: India Pvt Ltd p. 99–123.
- Singh, R. P., S. Dahiya, and P. K. Jaiwal. 2006. Slow release fertilizers for sustained nitrogen supply and high plant productivity. In Nitrogen nutrition in plant productivity, eds. R. P. Singh, N. Shankar, and P. K. Jaiwal, 329–349. Houston, TX: Studium Press.
- Singh, R. P., M. Kumar, and P. K. Jaiwal. 2008. Improvement in nitrogen use efficiency and yield of crop plants by sustained nutrient supply and enhanced nitrogen assimilation. In Development in physiology, biotechnology and molecular biology of plants, eds. B. Bose and A. H. Ranjan, 1–31. New Delhi: New Delhi Publishing Agency.
- Subbiah, B. V., and G. L. Asija. 1956. A rapid procedure for the determination of available nitrogen in soils. Current Science 25:259–260.
- Tabatabai, M. A., and J. M. Bremner. 1969. Use of p-nitrophenyl phosphate for assay of soil phosphatase activity. Soil Biology and Biochemistry 4:479–487.
- Velumurugan, A., V. K. Dadhwal, and Y. P. Abrol. 2008. Regional nitrogen cycle: An Indian perspective. Current Science 94:1455–1468.
- Walkley, A., and I. A. Black. 1934. An examination of the Degtijareff method for determining soil, organic matter and proposed modification of the chromic acid titration method. Soil Science 34:29–38.
- Weatherburn, M. W. 1967. Phenol-hypo chlorite reaction for determination of ammonia. Analytical Chemistry 39:971–974.
- Weligama, C., P. W. G. Sale, M. K. Conyers, D. L. Liu, and C. Tang. 2010. Nitrate leaching stimulates subsurface root growth of wheat and increase rhizosphere alkalization in highly acidic soil. Plant and Soil 328:119–132.