Abstract
The explosive expansion of human activity during the last two centuries through industrial and agricultural pursuits has resulted in massive changes in the nitrogen (N) cycle of the planet. Based on the projected population growth and food demand, the N-fertilizer inputs into agricultural systems need to be doubled in the near future which would lead to further increase in the amount of N lost to the environment. If production agriculture continues to move towards high-nitrification agricultural systems with the expansion and intensification of agricultural activities, there is potential for catastrophic consequences to our planet due to the destruction of the ozone layer, global warming, and eutrophication. It is therefore imperative to manage the nitrification in agricultural systems for minimizing N leaks into the environment which are not only a serious economic and energy drain on society but also potentially have long-term ecological and environmental consequences. Currently, more than 60 % of the total N applied to agricultural systems is lost, amounting to an annual economic loss equivalent to US$17 billion worldwide. Wide substrate range of ammonia monooxygenase (AMO), an important enzyme involved in nitrification, has enabled a range of chemicals or chemical formulations that can be effectively deployed as additives to N fertilizers to regulate nitrification. These chemicals by augmenting the efficiency of N-fertilizer use help us to achieve higher food production for catering the ever increasing population and minimize fertilizer-related pollution of the environment. This paper overviews N transformations in agricultural systems and the salient agrochemicals employed for management of nitrification, the most important transformation, in particular.
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References
Abalos D, Jeffery S, Sanz-Cobena A, Guardia G, Vallejo A (2014) Meta-analysis of the effect of urease and nitrification inhibitors on crop productivity and nitrogen use efficiency. Agric Ecosyst Environ 189:136–144
Abbasi MK, Adams WA (2000) Estimation of simultaneous nitrification and denitrification in grassland soil associated with urea-N and 15N and nitrification inhibitor. Biol Fertil Soils 31:38–44
Aggarwal N, Kumar R, Dureja P, Rawat DS (2009) Schiff bases as potential fungicides and nitrification inhibitors. J Agric Food Chem 57:8520–8525
Aggarwal N, Kumar R, Srivastva C, Dureja P, Khurana JM (2010) Synthesis of nalidixic acid based hydrazones as novel pesticides. J Agric Food Chem 58(5):3056–3061
Agricoop (2009) http://agricoop.nic.in/inm/cfqcti9210.pdf. Accessed on 13 Dec 2011
Azam F, Farooq S (2003) Nitrification inhibition in soil and ecosystem functioning – an overview. Pak J Biol Sci 6(6):528–535
Azam F, Mueller C, Weiske A, Benckiser G, Ottow JCG (2002) Nitrification and denitrification as sources of atmospheric N2O – role of oxidizable C and applied N. Biol Fertil Soils 35:54–61
Ball BC, Cameron KC, Di HJ, Moore S (2012) Effects of trampling of a wet dairy pasture soil on soil porosity and on mitigation of nitrous oxide emissions by a nitrification inhibitor, dicyandiamide. Soil Use Manag 28:194–201
Banerjee NK, Mosier AR, Uppal KS, Goswami NN (1990) Use of encapsulated calcium carbide to reduce denitrification losses from urea-fertilized flooded rice. Mitteilungen der Deutschen Bodenkundlichen Gesellschaft 60:245–248
Bedard C, Knowles R (1989) Physiology, biochemistry, and specific Inhibitors of CH4, NH4+, and CO oxidation by methanotrophs and nitrifiers. Microb Rev 53:68–84
Bhatia A, Sasmal S, Jain N, Pathak H, Kumar R, Singh A (2010) Mitigating nitrous oxide emission from soil under conventional and no-tillage in wheat using nitrification inhibitors. Agric Econ Environ 136:247–253
Bothe H, Jost G, Schloter M, Ward BB, Witzel KP (2000) Molecular analysis of ammonia oxidation and denitrification in natural environments. FEMS Microbiol Rev 24:673–690
Boudsocq S, Lata JC, Mathieu J, Abbadie L, Barot S (2009) Modelling approach to analyse the effects of nitrification inhibition on primary production. Funct Ecol 23:220–230
Boudsocq S, Barot S, Loeuille N (2011) Evolution of nutrient acquisition: When adaptation fills the gap between contrasting ecological theories. Proc R Soc B Biol Sci 278:449–457
Datta A, Walia S, Parmar BS (2001) Some furfural derivatives as nitrification inhibitors. J Agric Food Chem 49:4726–4731
Duddleston KN, Bottomley PJ, Porter AJ, Arp DJ (2000) New insights into methyl bromide cooxidation by Nitrosomonas europaea obtained by experimenting with moderately low density cell suspensions. Appl Environ Microbiol 66:2726–2731
Freney JR, Peoples MB, Mosier AR (2011) Efficient use of fertilizer nitrogen by crops. http://www.agnet.org/library/eb/414/. Accessed on 02 Dec 2011
Gopalakrishnan S, Subbarao GV, Nakahara K, Yoshihashi T, Ito O, Maeda I, Ono H, Yoshida M (2007) Nitrification inhibitors from the root tissues of Brachiaria humidicola, a tropical grass. J Agric Food Chem 55:1385–1388
Hawkes CV, Wren IF, Herman DJ, Firestone MK (2005) Plant invasion alters nitrogen cycling by modifying the soil nitrifying community. Ecol Lett 8:976–985
Holmes AJ, Costello A, Lindstrom ME, Murrell JC (1995) Evidence that particulate methane monooxygenase and ammonia monooxygenase may be evolutionary related. FEMS Microbiol Lett 132:203–208
Hovanec TA, Delong EF (1996) Comparative analysis of nitrifying bacteria associated with freshwater and marine aquaria. Appl Environ Microbiol 62(8):2888–2896
Jenkinson DS, Fox RH, Rayner JH (1985) Interactions between fertilizer nitrogen and soil nitrogen – the so-called “priming” effect. J Soil Sci 36:425–444
Kawakami EM, Oosterhuis DM, Snider JL, Mozaffari M (2012) Physiological and yield responses of field grown cotton to application of urea with urease inhibitor NBPT and the nitrification inhibitor DCD. Eur J Agron 43:147–154
Khan MG, Silberbush M, Lips SH (1994) Physiological studies on salinity and nitrogen interaction in alfalfa. I. Biomass production and root development. J Plant Nutr 17:657–668
Koops HP, Bottcher B, Moller UC, Pommerening-Roser A, Stehr G (1991) Classification of eight new species of ammonia-oxidizing bacteria: Nitrosomonas communis sp. nov., Nitrosomonas ureae sp. nov., Nitrosomonas aestuarii sp. nov., Nitrosomonas marina sp. nov., Nitrosomonas nitrosa sp. nov., Nitrosomonas eutropha sp. nov., Nitrosomonas oligotropha sp. nov. and Nitrosomonas halophila sp. nov. J Gen Microbiol 137:1689–1699
Kumar R, Anupama, Parmar BS (2004) S-Benzylisothiouronium derivatives as nitrification inhibitors. Pestic Res J 16(1):48–57
Kumar R, Anupama, Parmar BS (2005) Process for the preparation of 5-substituted-1,3,4-oxadiazole-2-thiols as new urease and nitrification inhibitors. Patent application no. 3461/DEL/2005 filed 23 Dec 2005. Publication date: 05 Sept 2008
Kumar R, Devakumar C, Sharma V, Kakkar G, Kumar D, Panneerselvam P (2007) Influence of physico-chemical parameters of neem (Azadirachta indica A Juss) oils on nitrification inhibition in soil. J Agric Food Chem 55:1389–1393
Kumar R, Devakumar C, Kumar D, Panneerselvam P, Kakkar G, Arivalagan T (2008) Influence of edaphic factors on the mineralization of neem oil coated urea in four Indian soils. J Agric Food Chem 56(21):10183–10191
Kumar D, Devakumar C, Kumar R, Das A, Panneerselvam P, Shivay YS (2010) Effect of neem-oil coated prilled urea with varying thickness of neem (Azadirachta indica A. Juss)-oil coating and N rates on productivity and nitrogen-use efficiency of lowland irrigated rice under Indo-Gangetic plains. J Plant Nutr 33:1939–1959
Kumar D, Devakumar C, Kumar R, Panneerselvam P, Das A, Shivay YS (2011) Relative efficiency of prilled urea coated with major neem (Azadirachta indica A. Juss) oil components in lowland irrigated rice of Indo-Gangetic plains. Arch Agron Soil Sci 57(1):61–74
Kuzvinzwa SM, Devakumar C, Mukherjee SK (1984) Evaluation of furano compounds as nitrification inhibitors. Bull Indian Soc Soil Sci 13:165–172
Ma Y, Sun L, Zhang X, Yang B, Yin B, Yan X, Xiong Z (2013) Mitigation of nitrous oxide emissions from paddy soil under conventional and no-till practices using nitrification inhibitors during the winter wheat growing season. Biol Fertil Soils 49:627–635
Majumdar D (2008) Unexploited botanical nitrification inhibitors prepared from Karanja plant. Nat Prod Radiance 7(1):58–67
Marschner H (1999) Mineral nutrition of higher plants, 2nd edn. Academic Press, London
Mazumdar D (2002) Suppression of nitrification and N2O emission by Karanjin-a nitrification inhibitor prepared from Karanj (Pongamia glabra). Chemosphere 47:845–850
McCarty GW (1999) Modes of nitrification inhibitors. Biol Fertil Soils 29:1–9
McCarty GW, Bremner JM (1989) Inhibition of nitrification in soil by heterocyclic nitrogen compounds. Biol Fertil Soils 8:204–211
Menendez S, Barrena I, Setien I, Gonzalez-Murua C, Estavillo MJ (2012) Efficiency of nitrification inhibitor DMPP to reduce nitrous oxide emissions under different temperature and moisture conditions. Soil Biol Biochem 53:82–89
Norton JM, Stark JM (2011) Regulation and measurement of nitrification in terrestrial systems. In: Klotz MG (ed) Methods in enzymology, vol 486. Academic Press, Burlington, pp 343–368
Opoku A, Chaves B, De Neve S (2014) Neem seed oil: a potent nitrification inhibitor to control nitrate leaching after incorporation of crop residues. Biol Agric Hortic. doi:10.1080/01448765.2014.885394
Patra DD, Chand S (2009) Natural nitrification inhibitors for augmenting nitrogen use efficiency in soil-plant system. In: The proceedings of the international plant nutrition colloquium XVI, Department of Plant Sciences, UC Davis, UC Davis. http://escholarship.org/uc/item/4h30z8tg. Accessed on 03 Dec 2011
Prasad R (1998) Fertilizer urea, food security, health and the environment. Curr Sci 75:677–683
Prasad R, Power JF (1995) Nitrification inhibitors for agriculture, health and the environment. Adv Agron 54:233–281
Prasad R, Devakumar C, Shivay YS (1993) Significance in increasing fertilizer nitrogen efficiency. In: Randhawa NS, Parmar BS (ed) Neem research and development, SPS publication no. 3, Society of Pesticide Science, India, New Delhi, pp 97–108
Prasad R, Sharma SN, Singh S, Devakumar C, Saxena VS (2002) Neem coating of urea for the environment and agriculture. Fertil News 47(5):63–67
Purkhold U, Pommerening-Roser A, Juretschko S, Schmid MC, Koops HP, Wagner M (2000) Phylogeny of all recognized species of ammonia oxidizers based on comparative \6S rRNA and amoA sequence analysis: implications for molecular diversity studies. Appl Environ Microbiol 66:5368–5382
Raun WR, Johnson GV (1999) Improving nitrogen use efficiency for cereal production. Agron J 91:357–363
Regan John M, Harrington GW, Noguera DR (2002) Ammonia- and nitrite-oxidizing bacterial communities in a pilot-scale chloraminated drinking water distribution system. Appl Environ Microbiol 68(1):73–81
Rice EL (1984) Allelopathy, 2nd edn. Academic Press, New York
Rossiter-Rachor NA, Setterfield SA, Douglas MM, Hutley LB, Cook GD, Schmidt S (2009) Invasive Andropogon gayanus (Gamba Grass) is an ecosystem transformer of nitrogen reactions in Australian savanna. Ecol Appl 19:1546–1560
Saha A, Kumar R, Kumar R, Devakumar C (2010) Green synthesis of 5-substituted-1,3,4-thiadiazole-2-thiols as new potent nitrification inhibitors. J Heteroc Chem 47:838–845
Sahrawat KL (1982) Comparative evaluation of Karanjin and extract of Karanj (Pongamia glabra Vent) and neem (Azadirachta indica) seeds for retardation of nitrification of urea in soil. J Indian Soc Soil Sci 30:156–159
Sahrawat KL, Mukherjee SK (1977) Nitrification inhibitors: I. Studies with furano compounds. Plant Soil 47:687–691
Sahrawat KL, Parmar BS (1975) Alcohol extract of neem (Azadirachta indica) as nitrification inhibitor. J Indian Soc Soil Sci 13:131–134
Sahrawat KL, Parmar BS, Mukherjee SK (1974) A note on the nitrification inhibitors in the seeds, bark and leaves of Pongamia glabra Vent. Indian J Agric Sci 44:415–418
Sanz-Cobena A, Sanchez-Martin L, Garcia-Torres L, Vallejo A (2012) Gaseous emission of N2O and NO and NO3 leaching from urea applied with urease and nitrification inhibitors to a maize crop. Agric Ecosyst Environ 149:64–73
Saxena VS, Devakumar C, Prasad R (1999) Pusaneem-ME coated urea. Indian patent application no. 223/Del/99 dated 5th Feb 1999
Shaviv A, Mikkelsen RL (1993) Controlled release fertilizers to increase efficiency of nutrient use and minimize environmental degradation: a review. Fertil Res 35:1–12
Slangen JHG, Kerkhoff P (1984) Nitrification inhibitors in agriculture and horticulture: a literature review. Fertil Res 5:1–76
Subbarao GV, Ito O, Sahrawat KL, Berry WL, Nakahara K, Ishikawa T, Watanabe T, Suenaga K, Rondon M, Rao IM (2006) Scope and strategies for regulation of nitrification in agricultural systems – challenges and opportunities. Crit Rev Plant Sci 25:305–335
Subbarao GV, Sahrawat KL, Nakahara T, Kishi M, Rao IM, Hash CT, George TS, Srinavasa Rao P, Nardi P, Bonnett D, Berry W, Suenaga K, Lata JC (2013) Biological nitrification inhibition—a novel strategy to regulate nitrification in agricultural systems. In: Sparks D (ed) Advances in agronomy, vol 114. Academic Press, Burlington, pp 249–302
Tomiyama H, Ohshima M, Ishii S, Satoh K, Takahashi R, Isobe K, Iwano H, Tokuyama T (2001) Characteristics of newly isolated nitrifying bacteria from rhizoplane of paddy rice. Microb Environ, Japan 16:101–108
Williams PH, Jarvis SC, Dixon E (1998) Emission of nitric oxide and nitrous oxide from soil under field and laboratory conditions. Soil Biol Biochem 30:1885–1893
Zakir HAKM, Subbarao GV, Pearse SJ, Gopalakrishnan S, Ito O, Ishikawa T, Kawano N, Nakahara K, Yoshihashi T, Ono H, Yoshida M (2008) Detection, isolation and characterization of a root-exuded compound, methyl 3-(4-hydroxyphenyl) propionate, responsible for biological nitrification inhibition by sorghum (Sorghum bicolor). New Phytol 180:442–451
Zerulla W, Barth T, Dressel J, Erhardt K, von Loquenghien H, Pasda K, Radle MG, Wissemeier AH (2001) 3,4-Dimethylpyrazole phosphate: a new nitrification inhibitor for agriculture and horticulture. Biol Fertil Soils 34:79–84
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Kumar, R., Parmar, B.S., Walia, S., Saha, S. (2015). Nitrification Inhibitors: Classes and Its Use in Nitrification Management. In: Rakshit, A., Singh, H.B., Sen, A. (eds) Nutrient Use Efficiency: from Basics to Advances. Springer, New Delhi. https://doi.org/10.1007/978-81-322-2169-2_8
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