Abstract
This paper discusses the influence of N resources (fertilizer, legume, soil) on sustainable agriculture in temperate/boreal ecosystems (exemplified by the Canadian prairies), and in the humid, subhumid and semi-arid tropic (exemplified by southeast Asia and central and south America). A sustainable agricultural system is one that is economically viable, provides safe, nutritious food, and. conserves or enhances the environment. Consequently, we discuss the impact of N on crop yields, nitrogen use efficiency (NUE), food quality, environmental quality and on socioeconomic factors. Considerably more long-term research has been conducted in the temperate regions, consequently this was where most information was available. However, the principles governing the behaviour of N are very similar in all ecosystems. It is mainly the rates of nutrient cycling and the socioeconomic constraints that differ. Legumes and N fertilizers, used in a responsible manner, will increase crop production, provide quality food, increase net returns, reduce risk of monetary loss, improve soil quality, and reduce N loss via leaching and gaseous means. The key to sustainable management of N is to synchronize N supply with N use by the crop. Because societies in most temperate ecosystems are more affluent they are better positioned to encourage adoption of management techniques that promote sustainability. In contrast, most producers in the tropics are, subsistence farmers; consequently, their immediate goal is economic survival, not preservation of the environment.
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Abdullah N, Sisworo WH & Prawirasamudra A (1980) Pengaruh cara-cara pemberian pupuk nitrogen terhadap hasil dan komponen hasil serta distribusi N-pupuk di daiam tanaman padi pelita I/1. Majalah BATAN 13: 20
Aulakh MS, Rennie DA & Paul EA (1983) The effect of various clover management practices on gaseous N losses and mineral N accumulation. Can J Soil Sci 63: 593–605
Aulakh MS, Rennie DA & Paul EA (1984) Acetylene and N-serve effects upon N2O emissions for NH +4 and NO3 - treated soils under aerobic and anaerobic conditions. Soil Biol Biochem 16: 351–356
Bartholomew WV (1972) Soil nitrogen and organic matter. In: Drosdoff M (ed) Soils of the Humid Tropics, pp 63–81. Natl Acad Sci, Washington, DC, USA
Bartholomew WV (1973) Soil nitrogen in the tropics. In: Sanchez PA (ed) A Review of Soils Research in Tropical Latin America, pp 68-89. N.C. State Univ Agr Exp Sta. Tech Bull. 219
Bauder JW, Sinclair KN & Lund RE (1993) Physiographic and land use characteristics associated with nitrate nitrogen in Montana groundwater. J Environ Qual 22: 255–262
Birch HF (1958) The effect of soil drying on humus decomposition and nitrogen availability. Plant Soil 10: 9–31
Birch HF (1959) Further observations on humus decomposition and nitrification. Plant Soil 11: 262–286
Buol SW (1973) Soil genesis, morphology, and classification. In: Sanchez PA (ed) A Review of Soils Research in Tropical Latin America. pp 1-38. N. C. State Univ Agr Exp Sta Tech Bull 219
Buresh RJ, DeDatta SK, Padilla JL & Samson MI (1988) Effect of two urease inhibitors on floodwater ammonia following urea application to lowland rice. Soil Sci Soc Am J 52: 856–861
Campbell CA (1978) Soil organic matter, nitrogen and fertility. In: Schnitzer M Khan SU (eds) Soil Organic Matter Developments Soil Sci 8, pp 173–272. Elsevier Scientific Publ. Co., Amsterdam, the Netherlands
Campbell CA (1992) Adoption of sustainable agriculture in cereal production on the Canadian prairies. Paper presented at Organization for Economic Cooperation and Development (OECD) Workshop on Sustainable Agriculture, Paris, France, Feb. 1992. 11 p (Mimeo)
Campbell CA, Biederbeck VO, Zentner RP & Lafond GP (1991) Effect of crop rotations and cultural practices on soil organic matter, microbial biomass and respiration in a thin Black Chernozem. Can J Soil Sci 71: 363–376
Campbell CA, Bowren KE, Schnitzer M, Zentner RP & Townley-Smith L (1991) Effect of crop rotations and fertilization on soil organic matter and some biochemical. properties of a thick Black Chernozem. Can J Soil Sci 71: 377–387
Campbell CA, DeJong R & Zentner RP (1984) Effect of cropping, summerfallow and fertilizer nitrogen on nitrate-nitrogen lost by leaching on a Brown Chernozemic loam. Can J Soil Sci 64: 61–74
Campbell CA, Lafond GP & Zentner RP (1993). Spring wheat yield trends as influenced by fertilizer and legumes. J Prod Agric 6: 564–568
Campbell CA, Lafond GP, & Zentner RP (1994) Nitrate leaching in a Udic Haploboroll as influenced by fertilizer and legumes. J Environ Qual 23: 195–201
Campbell CA, Moulin AP, Curtin D, Lafond GP & Townley-Smith L (1993) Soil aggregation as influenced by cultural practices in Saskatchewan. I. Black Chernozemic soils. Can J Soil Sci 73: 579–595
Campbell CA & Paul EA 1978 Effect of fertilizer N and soil moisture on mineralization, N recovery, A-values under spring wheat grown in small lysimeters. Can J Soil Sci 58: 39–51
Campbell CA, Schnitzer M, Lafond GP, Zentner RP & Knipfel JE (1991). Thirty-year crop rotations and management practices effects on soil and amino nitrogen. Soil Sci Soc Am J 55: 739–745
Campbell CA & Zentner RP (1993) Soil organic matter as influenced by crop rotations and fertilization. Soil Sci Soc Am J 57: 1034–1040
Campbell CA, Zentner RP, Dormaar JF & Voroney RP (1986) Land quality, trends and wheat production in western Canada. In: Slinkard AE & Fowler DB (eds) Wheat Production in Canada - A Review, pp 318–353. Proc. of the Canadian Wheat Production Symposium, Saskatoon, SK, Canada.
Campbell CA, Zentner RP, Janzen HH & Bowren KE (1990) Crop rotation studies on the Canadian prairies. Canadian Gov't. Publ. Centre, Supply Services Canada, Hull, P.Q. Publ. No. 1841/E. 133 p
Campbell CA, Zentner RP & Lafond GP (1991) Legumes in cereal-based rotations: Influence on profitability and soil quality. Better Crops with Plant Food. Spring, 1991. pp 28-30
Campbell CA, Zentner RP, Selles F & Akinremi OO (1993) Nitrate leaching as influenced by fertilization in the Brown soil zone. Can J Soil Sci 73: 387–397
Campbell CA, Zentner RP, Selles F, Biederbeck VO and Leyshon AJ (1992) Comparative effects of grain lentil-wheat and monoculture wheat on crop production, N economy and N fertility in a Brown Chernozem. Can J Plant Sci 72: 1091–1107
Campbell CA, Zentner RP, Selles F, McConkey BG & Dyck FB (1993) Nitrogen management for spring wheat grown annually on zero-tillage: yields and nitrogen use: efficiency. Agron J 85: 107–114
Charreau C (1972) Problems poses par l'utilization agricole des sols tropicaux par des cultures annuelles. Agron Trop (France) 27: 905–929
Cowell LE & Doyle PJ (1993) Nitrogen use efficiency. In: Rennie DA, Campbell CA & Roberts TL (eds) Impact of Macronutrients on Crop Responses and Environmental Sustainability on the Canadian Prairies - A Review, pp 49–109. Can Soc Soil Sci Ottawa, ON, Canada
Cowell LE & Doyle PJ (1993) Crop nutrients and the environment. In: Rennie DA, Campbell CA & Roberts TL (eds) Impact of Macronutrients on Crop Responses and Environmental Sustainability on the Canadian Praires - A Review, pp 474–527 Can Soc Soil Sci, Ottawa, ON, Canada
Curtin D, Selles F, Campbell CA & Biederbeck VO (1993) Role of agriculture as a source and sink of the greenhouse gases carbon dioxide and nitrous oxide. Final report, Greenhouse Gases Initiative Project. Research Branch, Agriculture Canada, Research Station, Swift Current, SK. Publ. No. 379M0082. 72 p
DeDatta SK, Fillery IRP, Obcemea WN & Evangelista RC (1987) Floodwater properties, nitrogen utilization, and nitrogen-15 balance in a calcareous lowland rice soil. Soil Sci Soc Am J 51: 1355–1362
DeDatta SK & Buresh RJ (1989) Integrated nitrogen management in irrigated rice. Adv Soil Sci 10: 143–169
DeDatta SK, Trevitt ACF, Freney JR, Obcemea WN, Real JG & Simpson JR (1989) Measuring nitrogen losses from lowland rice using bulk aerodynamic and nitrogen-15 balance methods. Soil Sci Soc Am J 53: 1275–1281
Deevey ES (1957) Limnologic studies in middle America with a chapter on Aztomnology, Conn Acad Arts Sci Trans 39: 213–328
Diekmann KH, DeDatta SK & Ottow JCG (1993) Nitrogen uptake and recovery from urea and green manure in lowland rice measured by15N and non-isotope techniques. Plant Soil 148: 91–99
Dubey HD & Fox RH (1974) Denitrification losses from humid tropical soils of Puerto Rico. Soil Sci Soc Am Proc 38: 917–920
Eichner MJ (1990) Nitrous oxide emissions from fertilized soils: Summary of available data. J Environ Qual 19: 272–280
Engelstad OP & Russel DA (1975) Fertilizers for use under tropic;al conditions. Adv Agron 27: 175–208
Fillery IRP & DeDatta SK (1989) Ammonia volatilization from nitrogen source applied to rice fields. I. Methodology, ammonia fluxes and nitrogen-15 loss. Soil Sci Soc Am J 50: 80–86
Freney JR, Denmead OT, Wood AW, Saffigna PG, Chapman LS, Ham GJ, Hurney AP & Stewart RL 1992 Factors controlling ammonia loss from trash covered sugarcane fields fertilized with urea. Fert Res 31: 341–349
Fujisaka S Guino R & Obusan L 1993 Could farmers recommending a recommendation be right? The question of nitrogen at transplanting for irrigated rice. ASIALAND workshop on interpreting data from field experiments on upland soils. IBSRAM Technical Notes No. 6 (In press)
Gamboa J, Paez G & Blasco M 1971 Unmodelo para describir los procesos de retencian y lixiviacio en los suelos. Turrialba 21: L 312–316
Greenland DJ (1962) Denitrification in some tropical soils. J Sci 58: 227–33
Greer KJ (1989) Evaluating the soil quality of long-term crop rotations at Indian Head, M.Sc. Thesis, Univ. of Saskatchewan, Saskatoon, SK.
Grove TL (1980) Nitrogen fertility in Oxisols and Ultisols of the humid tropics. Cornell Int Agric Bull 36: 3–27
Hedlin RA & Cho CM (1974) Fertilizer use and other soil management practices in relation to contamination of ground and surface water with nitrogen and phosphorus. In: Allocative Conflicts in Water Resource Management, pp 303–323. Agassiz Centre for water studies, Univ. of Manitoba, Winnipeg, Man
Henry JL & Meneley WA (1992) Nitrate in the Environment. In: Ed. by John L. Havlin, Kansas State Univ., Manhatan, KS pp 1–14 Great Plains Soil Fertility Conference Proc., Denver, Colorado. March 3–4, 1992. pp 1-14
Hutchinson GL, Guenzi WD & Livingston GP (1993) Soil water controls on aerobic soil emission of gaseous nitrogen oxides. Soil Biol Biochem 25: 1–9
Ingram KT, Dingkuhn M, Novero RP & Wijangco EJ (1991) Growth and CO2 assimilation of lowland rice in response to timing and method of N fertilization, Plant Soil 132: 113–125
Jamaica Agricultural Society (1954) The Farmer's Guide. The Univ. Press, Glasgow. Scotland
Jenny H (1949) Comparative study of decomposition rates of organic matter in temperature and tropical regions. Soil Sci 68: 419–432
John PS, Buresh RJ, Pande RK, Prasad R & Chua TT (1992) Nitrogen-15 balances for urea and neem coated urea applied to lowland rice following two cowpea cropping; systems. Plant Soil 120: 233–241
Juma NG (1993) The role of fertilizer nutrients in rebuilding soil organic matter. In: Rennie DA, Campbell CA & Roberts TL (eds) Impact of Macronutrients on Crop Responses and Environmental Sustainability on the Canadian Prairies - A Review, pp 363–387. Can Soc Soil Sci, Ottawa, ON
Keating BA, Godwin DC & Watiki JM (1991) Optimising nitrogen inputs in response to climatic risk. In: Muchow RC & Bellamy JA (eds) Climatic Risk in Crop Production: Models and Management for the Semiarid Tropics and subtropics, pp 329–358. CAB International, Wallingford, UK
Kowalenko CG, Ivarson KV & Cameron DR (1978) Effect of moisture content, temperature and nitrogen fertilization on carbon dioxide evolution from field soils. Soil Biol Biochem 10: 417–423
Lueken H, Hutcheon WL & Paul EA (1962) The influence of nitrogen on the decomposition of crop residues in the soil. Can J Soil Sci 42: 276–288
Malhi SS & Nyborg M (1983) Field study of the fate of fallapplied15N-labelled fertilizers in three Alberta soils. Agron J 75: 71–74
McGill WB, Campbell CA, Dormaar JF, Paul EA & Anderson DW (1981) Soil organic; matter losses. In: Agriculture land: Our disappearing heritage. A. symposium, pp 72–133. Proc. Ann. Alberta Soil Sci. Workshop, Edmonton. 24–25 Feb. 1981 Alberta Soil and Feed Testing Lab., Edmonton, AB
Moraghan JT, Rego TJ, Buresh RJ, Vlek PLG, Burford JR, Singh S & Sahrawat KL, (1984) Labeled nitrogen fertilizer research with urea in the semi-arid tropics. II. Field studies on a Vertisol. Plant Soil 80: 21–33
Moraghan JT, Rego TJ & Buresh RJ (1984) Labeled nitrogen fertilizer research with urea in the semi-arid tropics. III. Field studies on Alfisol. Plant Soil 82: 193–203
Myers RJK (1992) Management of nitrogen in cropping systems in Indonesia - a review of studies using15N. Soil Manage Abstr 4: 109–137
Myers RJK & Hibberd DH (1986) Effect of water supply and fertilizer placement on use of nitrogenous fertilizer by grain sorghum on cracking clay soils. Proc. Aust. Sorghum Conf 5.82-5.92
Myers RJK, Palm CA, Cuevas E, Gunatilleke IUN & Brossard M (1994) The synchronisation of nutrient mineralisation and plant nutrient demand. p 81-116. In: Woomer PL and Swift MJ (eds) The management of Tropical Soil Biology and Fertility, pp 81-116. John Wiley and Sons
Palm O, Weerakoon WL, De Silva MA & Rosswall T (1988) Nitrogen mineralization ofSesbania sesban used as green manure for lowland rice in Sri Lanka. Plant Soil 108: 201–209
Rennie DA, Campbell CA & Roberts TL (1993) Impact of macronutrients on crop responses and environmental sustainability on the Canadian prairies - a review. Can Soc Soil Sci, Ottawa, ON, Canada. 527 p
Ryden JC, & Lund LJ (1980) Nature and extent of directly measured denitrification losses from some irrigated vegetable crop production units. Soil Sci Soc Am J 44: 505–511
Sahrawat KL & Keeney DR (1986) Nitrous oxide emission from soils. Adv Soil Sci 4: 143–148
Sanchez PA (1976) Properties and Management of Soils in the Tropics. John Wiley and Sons, New York
Sanchez PA & Buol SW (1975) Soils of the tropics and the world food crisis. Science 188: 598–603
Sanginga N, Mulongoy K & Ayanaba A (1988) Nitrogen contribution ofLeucaena/Rhizobium symbiosis to soil and a subsequent maize crop. Plant Soil 112: 137–141
Savant NK, De Datta SK & Craswell ET (1982) Distribution patterns of ammonium nitrogen and15N uptake by rice after deep placement of urea supergranules in wetland soil. Soil Sci Soc Am J 46: 567–573
Semb G & Robinson JBD (1969) The natural nitrogen flush in different arable soils and climates in East Africa. East Afr Agric For J 34: 350–370
Sisworo WH, Mitrosuhardjo MM, Rasid H & Myers RJK (1990) The relative roles of N fixation, fertilizer, crop residues and soil in supplying N in multiple cropping systems in a humid, tropical upland cropping system. Plant Soil 121: 73–82
Stanford G (1973) Rationale for optimum nitrogen fertilization in corn production. J Environ Qual 2: 159–166
Thompson CH (1974) Fertilizing dryland grain sorghum on upland soils in the 20- to 26- inch rainfall area in Kansas. Kansas State University Agricultural Experiment Station Bulletin 579
Thompson CH (1975) Fertilizing dryland wheat on upland soils in the 20-26-inch rainfall area in Kansas. Kansas State University Agricultural Experiment Station Bulletin 590
Tortoso AC & Hutchinson GL 1990 Contributions of autotrophic and heterotopic nitrifiers to soil NO and N2O emissions. Appl Environ Microbiol 56: 1799–1805
van Kessel C, Pennock DJ & Farrell RE (1992) Temporal denitrification at the landscape scale in a Black soil. In: Proc Soils and Crops Workshop, pp 280–289. Published by Univ. of Saskatchewan, Saskatoon, SK
Wetselaar R (1962) Nitrate distribution in tropical soils. Plant Soil 16: 19–31
Wright GC & Catchpoole VR (1985) Fate of urea nitrogen applied at planting to grain sorghum grown under sprinkler and furrow irrigation on a cracking clay soil. Aust Agric Res 36: 677–684
Xu ZH, Saffigna PG, Myers RJK & Chapman AL (1993) Nitrogen cycling in Leucaena (Leucaena leucocephala) alley cropping in semi-arid tropics. I. Mineralization of nitrogen from Leucaena residues. Plant Soil 148: 63–72
Xu ZH, Myers RJK, Saffigna PG & Chapman AL (1993) Nitrogen cycling in Leucaena (Leucaena leucocephala) alley cropping in semi-arid tropics. II. Response of maize growth to addition of nitrogen fertilizer and plant residues. Plant Soil 148: 73–82
Zentner RP, Campbell CA, Brandt SA, Bowren KE & Spratt ED (1986) Economics of crop rotations in western Canada. In: Slinkard AE & Fowler DB (eds) Wheat Production in Canada- A Review, pp 254-317. Proc Can Wheat Prod Symp 3–5 March 1986, Saskatoon, SK
Zentner RP, Ukrainetz H & Campbell CA (1989) The economics of fertilizing bromegrass in Saskatchewan. Can J Plant Sci 69: 841–859
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Campbell, C.A., Myers, R.J.K. & Curtin, D. Managing nitrogen for sustainable crop production. Fertilizer Research 42, 277–296 (1995). https://doi.org/10.1007/BF00750521
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DOI: https://doi.org/10.1007/BF00750521