Afoakwa E O, Paterson A, Fowler M, Vieira J. 2008. Modelling tempering behaviour of dark chocolates from varying particle size distribution and fat content using response surface methodology. Innovative Food Science and Emerging Technologies, 9, 527-533 Akiyama H, McTaggart I P, Ball B C, Albert S. 2004. N2O, NO, and NH3 emissions from soil after the application of organic fertilizers, urea and water. Water, Air & Soil Pollution, 156, 113-129 Banerjee B, Pathak H, Aggarwal P K. 2002. Effects of dicyandiamide, farmyard manure and irrigation on crop yields and ammonia volatilization from an alluvial soil under a rice (Oryza sativa L.)-wheat (Triticum aestivum L.) cropping system. Biology and Fertility of Soils, 36, 207-214 Battye W, Aneja V P, Roelle P A. 2003. Evaluation and improvement of ammonia emissions inventories. Atmospheric Environment, 37, 3873-3883 Blake G R, Hartge K H, 1986. Particle density. In: Klute A, ed., Methods of Soil Analysis. American Society of Agronomy, Madison, WI. pp. 377-382 Black S, Sherlock R R, Cameron K C. 1985. Comparison of 3 field methods for measuring ammonia volatilization from urea granules broadcast on to. Journal of Soil Science, 36, 271-280 Bouwman A F, Lee D S, Asman W A H, Dentener F J, van der Hoek K W, Olivier J G J. 1997. A global high- resolution emission inventory for ammonia. Global Biogeochemical Cycles, 11, 561-587 Bowman D C, Paul J L, Davis W B, Nelson S H. 1987. Reducing ammonia volatilization from Kentucky bluegrass turf by irrigation. Hortscience, 22, 84-87 Cabezas A, Lara R, Trivelin P C O, Bendassolli J A, Santana D G, Gascho G J. 1999. Calibration of a semi-open static collector for determination of ammonia volatilization from nitrogen fertilizers. Communications in Soil Science and Plant Analysis, 30, 389-406 Combs S M, Nathan M V. 1998. Soil organic matter. In: Brown J R, ed., Recommended Chemical Soil Test Procedures for the North Central Region. North Central Regional Research Publication, No. 221 (revised). Missouri Agricultural Experiment Station SB 1001, Columbia. pp. 53-58 Du T S, Kang S Z, Yan B Y, Zhang J H. 2013. Alternate furrow irrigation: A practical way to improve grape quality and water use efficiency in arid northwest China. Journal of Integrative Agriculture, 12, 509-519 ECETOC (European Center for Ecotoxicology and Toxicology of Chemicals). 1994. Ammonia emissions to air in Western Europe. ECETOC Technical Report No. 62. Brussels, Belgium. Earl H G, Davis R F. 2007. Effects of drought stress on leaf and whole canopy radiation use efficiency and yield of maize. Agronomy Journal, 95, 688-698 Fan X H, Song Y S, Lin D X, Yan L Z, Luo J F. 2006. Ammonia volatilization losses and 15N balance from urea applied to rice on a paddy soil. Journal of Environmental Sciences, 18, 299-303 FAO. 1998. World reference base for soil resources. World Soil Resources Report 84. Food and Agriculture Organization of the United Nations, Rome. p. 91. Ferm M. 1998. Atmospheric ammonia and ammonium transport in Europe and critical loads: A review. Nutrient Cycling in Agroecosystems, 51, 5-17 Fillery I R P, Vlek P L G. 1986. Reappraisal of the significance of ammonia volatilization as N-loss mechanism in flooded rice fields. Fertility Research, 9, 79-98 Frank K, Beegle D, Denning J. 1998. Phosphorus. In: Brown J R, ed., Recommended Chemical Soil Test Procedures for the North Central Region. North Central Regional Research Publication No. 221 (revised). Missouri Agricultural Experiment Station SB 1001, Columbia. pp. 21-29 Fu X L, Shao M G, Wei X R, Horton R. 2010. Potential urea-derived nitrogen losses caused by ammonia volatilization and nitrogen leaching in a rainfed semiarid region, China. Acta Agriculture Scandinavica (Section B - soil and Plant Science), 60, 560-568 Galbally I E. 1989. Factors controling NOx emission from soils. In: Andreae M O, Schimel D S, eds., Exchange of Trace Gases Between Terrestrial Ecosystems and the Atmosphere. Dahlem Konferenzen, Wiley, Chichester. pp. 23-27 Griggs B R, Norman R J, Wilson C E, Slaton N A. 2007. Ammonia volatilization and nitrogen uptake for conventional and conservation tilled dry-seeded, delayed-flood rice. Soil Science Society of America Journal, 71, 745-751 Han K, Zhou C J, Wang L Q, Si J H. 2013. Effect of alternating furrow irrigation and nitrogen fertilizer on nitrous oxide emission in corn field. Communications in Soil Science and Plant Analysis, 45, 592-608 Harrison R, Webb J. 2001. A review of the effect of N fertilizer type on gaseous emissions. Advances in Agronomy, 73, 65-108 IPCC (Inter-governmental Panel on Climate Change). 1996. Climate change 1995. In: Impact, Adaptation and Mitigation of Climate Change: Scientific-Technical Analyses. Cambridge University Press, UK. Jones H. 1992. Plants and Micro Climate: Aquantitative Approach to Environmental Plant Physiology. 2nd ed. Cambridge University Press, Cambridge. Kang S Z, Zhang J H. 2004. Controlled alternate partial rootzone irrigation: Its physiological consequences and impact on water use efficiency. Journal of Experimental Botany, 55, 2437-2446 Knight E C, Guertal E A, Wood C W. 2007. Mowing and nitrogen source effects on ammonia volatilization from turfgrass. Crop Science, 47, 1628-1634 Krupa S V. 2003. Effects of atmospheric ammonia (NH3) on terrestrial vegetation: A review. Environmental Pollution, 124, 179-221 Lehrsch G, Sojka R, Westermann D. 2000. Nitrogen placement, row spacing, and furrow irrigation water positioning effects on corn yield. Agronomy Journal, 92, 1266-1275 Li X, Ju X T, Zhang L J, Wan Y J, Liu S Q. 2008. Effects of different fertilization modes on soil ammonia volatilization and nitrous oxide emission. Chinese Journal of Applied Ecology, 19, 99-104. (in Chinese) Li Y, White R, Chen D L, Zhang J B, Li B G, Zhang Y M, Huang Y F, Edis R. 2007. A spatially referenced water and nitrogen management model (WNMM) for (irrigated) intensive cropping systems in the North China Plain. Ecological Modelling, 203, 395-423 Liu G D, Li Y C, Alva A K. 2007. Moisture quotients for ammonia volatilization from four soils in potato production regions. Water, Air & Soil Pollution, 183, 115-127 Liu H, Duan A W, Li F S, Sun J S, Wang Y C, Sun C T. 2013. Drip irrigation scheduling for tomato grown in solar greenhouse based on pan evaporation in North China Plain. Journal of Integrative Agriculture, 12, 520- 531. Liu X J, Ju X T, Zhang F S, Pan J R, Christie P. 2003. Nitrogen dynamics and budgets in a winter wheat-maize cropping system in the North China Plain. Field Crops Research, 83, 111-124 Marshall T J, Holmes J W. 1988. Soil Physics. 2nd ed. Cambridge University Press, UK. Matsushima M, Lim S S, Kwak J H, Park H J, Lee S I, Lee D S, Choi W J. 2009. Interactive effects of synthetic nitrogen fertilizer and composted manure on ammonia volatilization from soils. Plant and Soils, 325, 187-196 Nathen M V, Malzer G L. 1994. Dynamics of ammonia volatilization from turkey manure and urea applied to soil. Soil Science Society of America Journal, 58, 985- 990. Montgomery D C. 2007. Experimental Design and Analysis. 5th ed. John Wiley & Sons, New York. pp. 203-264, 405-463 Mulvaney R L, Khan S A, Stevens W B, Mulvaney C S. 1997. Improved diffusion methods for determination of inorganic nitrogen in soil extracts and water. Biology and Fertility of Soils, 24, 413-420 Pacholski A, Cai G X, Nieder R, Richter J, Fen X H, Zhu Z L, Roelcke M. 2006. Calibration of a simple method for determining ammonia volatilization in the field-comparative measurements in Henan Province, China. Nutrient Cycling in Agroecosystems, 74, 259 -273 Palma R M, Saubidet M I, Rimolo M, Utsumi J. 1998. Nitrogen losses by volatilization in a corn crop with two tillage systems in the Argentine Pampa. Communications in Soil Science and Plant Analysis, 29, 2865-2879 Philippe R, Denis A A, Martin H C, Douglas M, Marc- Olivier G, Normand B. 2009. Reducing ammonia volatilization in a no-till soil by incorporating urea and pig slurry in shallow bands. Nutrient Cycling in Agroecosystems, 84, 71-80 Predotova M, Gebauer J, Diogo R, Schlecht E, Buerkert A. 2010. Emissions of ammonia, nitrous oxide and carbon dioxide from urban gardens in Niamey, Niger. Field Crops Research, 115, 1-8 Predotova M, Kretschmann R, Gebauer J, Buerkert A. 2011. Effects of cuvette surface material on ammonia-, nitrous oxide-, carbon dioxide-, and methane-concentration measurements. Journal of Plant Nutrition and Soil Science, 174, 347-349 Scheer C, Grace P R, Rowlings D W, Payero J. 2012. Nitrous oxide emissions from irrigated wheat in Australia: impact of irrigation management. Communications in Soil Science and Plant Analysis, 359, 351-362 Schlossberg M J, Schmidt J P. 2007. Influence of nitrogen rate and form on quality of putting greens cohabited by creeping bentgrass and annual bluegrass. Agronomy Journal, 99, 99-106 Skinner R H, Hanson J D, Benjamin J G. 1999. Nitrogen uptakes and partitioning under alternate- and every- furrow irrigation. Plant and Soils, 210, 11-20 Stiegler J C, Richardson M D, Karcher D E, Roberts T L, Norman R J. 2011. Field-based measurement of ammonia volatilization following foliar applications of urea to putting green turf. Crop Science, 51, 1767-1773 Tan J L, Wang L Q, Wang X N, Li S X. 2008. Influence of different irrigation patterns on the distribution of soil moisture and nitrate. Journal of Irrigation and Drainage, 27, 29-33 Titko S, Street J R, Logan T J. 1987. Volatilization of ammonia from granular and dissolved urea applied to turfgrass. Agronomy Journal, 79, 535-540 Vandre R, Clemens J, Goldbach H, Kaupenjohann M. 1997. NH3 and N2O emissions after landspreading of slurry as influenced by application technique and dry matter reduction: NH3 emissions. Z. Pfanzenernahr. Bodenkde, 160, 303-307 Ventura W B, Yoshida T. 1977. Ammonia volatilization from a flooded tropical soil. Plant and Soils, 46, 521- 531. Wang H Y, Ju X T, Wei Y P, Li B G, Zhao L L, Hu K L. 2010. Simulation of bromide and nitrate leaching under heavy rainfall and high-intensity irrigation rates in North China Plain. Agricultural Water Management, 97, 1646- 1654. Wang Z H, Liu X J, Ju X T, Zhang F S, Malhi S S. 2004. Ammonia volatilization loss from surface-broadcast urea: Comparison of vented- and closed-chamber methods and loss in winter wheat-summer maize rotation in North China Plain. Nutrient Cycling in Agroecosystems, 35, 2917-2939 Watson M E, Brown J R 1998. pH and lime requirement. In: Brown J R, ed., Recommended Chemical Soil Test Procedures for the North Central Region. North Central Regional Research Publication No. 221 (revised). Missouri Agricultural Experiment Station SB 1001, Columbia. p. 13-16 Wesely R W, Shearman R C, Kinbacher E J, Lowry S R. 1987. Ammonia volatilization from foliar-applied urea on field-grown Kentucky bluegrass. Hortscience, 22, 1278-1280 Xing W Q, Wang L Q, Luo Y, Li L, Li S X. 2002. Effect of spacial coupling between irrigation water and fertilizer on corn in semiarid area. Transactions of the CSAE, 18, 46-49 Zhang H H, He P J, Shao L M. 2010. Ammonia volatilization, N2O and CO2 emissions from landfill leachate-irrigated soils. Waste Management, 30, 119- 124. Zhang Y M, Chen D L, Zhang J B, Edis R, Hu C S, Zhu A N. 2004. Ammonia volatilization and denitrification losses from an irrigated maize-wheat rotation field in the North China Plain. Pedosphere, 14, 533-540 Zhao X, Xie Y X, Xiong Z Q, Yan X Y, Xing G X, Zhu Z L. 2009. Nitrogen fate and environmental consequence in paddy soil under rice-wheat rotation in the Taihu lake region, China. Plant and Soils, 319, 225-234 Zhou S, Hou H, Hosomi M. 2008. Nitrogen removal, N2O emission, and NH3 volatilization under different water levels in a vertical flow treatment system. Water, Air & Soil Pollution, 191, 171-182. |