Abstract
Mixed urea and slow-release nitrogen fertilizer (MUS) is a promising nitrogen (N) fertilizer alternative to the conventional split urea (U) fertilization or independent fertilization with slow-release N fertilizer (SRN), which can increase crop yields and minimize fertilizer and environmental costs. This study was aimed to explore the release characteristics of MUS under different precipitation conditions and determine whether MUS facilitates the supply–demand synchrony of N for rainfed maize. The impact of U, SRN and MUS (U: SRN = 3:7) under two N application rate (180 and 240 kg N ha−1) on N absorption, NO3−–N residue and net return of fertilizers were assessed during three consecutive years (starting in 2016). Results showed that N release from MUS was better synchronized with the N demand of rainfed maize relative to U and SRN, because N under MUS was released evenly during the maize growing seasons. Nitrogen uptake and the N remobilization efficiency in vegetative organs after silking under MUS were largely increased by 19–28% and 14–37% compared with the other treatments, respectively. In addition, the soil NO3−–N residue under MUS decreased by 5–17% relative to other treatments. Physiological efficiency of N, grain yield and net return of MUS under 180 kg ha−1 were significantly increased by 6–34%, 14–111% and 16–118% compared with the other treatments, respectively. In conclusion, the application of MUS under N rate of 180 kg ha−1 enhanced N uptake and grain yield, and reduced fertilizer costs and soil N losses for rainfed maize in Northwest China.
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References
Andrade AB, Guelfi DR, Chagas WFT, Cancellier EL, De Souza TL, Oliveira LSS, Faquin V, Du CW (2021) Fertilizing maize croppings with blends of slow/controlled-release and conventional nitrogen fertilizers. J Plant Nutr Soil Sci 184:227–237
Bremner JM, Mulvaney CS (1982) Nitrogen-total. In: Page AL (ed) Methods of soil analysis. Part 2: chemical and microbiological properties. Agron Monogr 9 ASA, and SSSA, Madison, WI, pp 595–624
Cao HB, Wang ZH, He G, Dai J, Huang M, Wang S, Luo LC, Sadras VO, Hoogmoedc M, Malhl SS (2017) Tailoring NPK fertilizer application to precipitation for dryland winter wheat in the Loess Plateau. Field Crops Res 209:88–95
Congreves KA, Otchere O, Ferland D, Farzadfar S, Williams S, Arcand MM (2021) Nitrogen use efficiency definitions of today and tomorrow. Front Plant Sci 12:637108
Chen XP, Cui ZL, Fan MS, Vitousek P, Zhao M, Ma WQ, Wang ZL, Zhang WJ, Yan XY, Yang JC, Deng XP, Gao Q, Zhang Q, Guo SW, Ren J, Li SQ, Ye YL, Wang ZH, Huang JL, Tang QY, Sun YX, Peng XL, Zhang JW, He MG, Zhu YJ, Xue JQ, Wang GL, Wu L, An N, Wu LQ, Ma L, Zhang WF, Zhang FS (2014) Producing more grain with lower environmental costs. Nature 514:486–489
Dimkpa CO, Fugice J, Singh U, Lewis TD (2020) Development of fertilizers for enhanced nitrogen use efficiency—trends and perspectives. Sci Total Environ 731:139113
Duan JZ, Wu YP, Zhou Y, Ren XX, Shao YH, Feng W, Zhu YJ, Wang YH, Guo TC (2018) Grain number responses to pre-anthesis dry matter and nitrogen in improving wheat yield in the Huang-Huai Plain. Sci Rep 8:7126–7135
Farmaha BS, Sims AL (2013) The influence of polymer-coated urea and urea fertilizer mixtures on spring wheat protein concentrations and economic returns. Agron J 105:1328–1334
Foley JA, Ramankutty N, Brauman KA, Cassidy ES, Gerber JS, Johnston M, Mueller ND, Connell C, Ray DK, West PC, Balzer C, Bennett EM, Carpenter SR, Hill J, Monfreda C, Polasky S, Rockström J, Sheehan J, Siebert S, Tilman D, Zaks DPM (2011) Solutions for a cultivated planet. Nature 478:337–342
Galindo FS, Silva ECD, Pagliari PH, Fernandes GC, Rodrigues WL, Biagini ALC, Baratella EB, Silva Júnior CAD, Moretti Neto MJ, Muraoka T, Teixeira Filho MCM (2021) Nitrogen use efficiency and recovery in a wheat-corn rotation under tropical savannah conditions. Nutr Cycl Agroecosyst 119:291–305
Galloway JN, Townsend AR, Erisman JW, Bekunda M, Cai Z, Freney JR, Martinelli LA, Seitzinger SP, Sutton MA (2008) Transformation of the nitrogen cycle: recent trends, questions, and potential solutions. Science 320:889–892
Gao X, Li CL, Zhang M, Wang R, Chen BC (2015) Controlled release urea improved the nitrogen use efficiency, yield and quality of potato (Solanum tuberosum L.) on silt loamy soil. Field Crop Res 181:60–68
Gao YX, Song X, Liu KX, Li TG, Zheng WK, Wang Y, Liu ZG, Zhang M, Chen Q, Li ZL, Li RC, Zheng L, Liu WL, Miao TY (2021) Mixture of controlled-release and conventional urea fertilizer application changed soil aggregate stability, humic acid molecular composition, and maize nitrogen uptake. Sci Total Environ 789:147778
Garcia PL, González-Villalba HA, Sermarini RA, Trivelin PCO (2018) Nitrogen use efficiency and nutrient partitioning in maize as affected by blends of controlled-release and conventional urea. Arch Agron Soil Sci 64:1944–1962
Geng JB, Sun YB, Zhang M, Li CL, Yang YC, Liu ZG, Li SL (2015) Long-term effects of controlled release urea application on crop yields and soil fertility under rice-oilseed rape rotation system. Field Crop Res 184:65–73
Godfray HCJ, Beddington JR, Crute IR, Haddad L, Lawrence D, Muir JF, Pretty J, Robinson S, Thomas SM, Toulmin C (2010) Food security: the challenge of feeding 9 billion people. Science 327:812–818
Grant CA, Wu R, Selles F, Harker KN, Clayton GW, Bittman S, Zebarth BJ, Lupwayi NZ (2012) Crop yield and nitrogen concentration with controlled release urea and split applications of nitrogen as compared to non-coated urea applied at seeding. Field Crop Res 127:170–180
Guo LW, Ning TY, Nie LP, Li ZJ, Lal R (2016) Interaction of deep placed controlled-release urea and water retention agent on nitrogen and water use and maize yield. Eur J Agron 75:118–129
Guo JM, Wang YH, Blaylovk AD, Chen XP (2017) Mixture of controlled release and normal urea to optimize nitrogen management for high-yielding (>15 Mg/ha) maize. Field Crop Res 204:23–30
Guo JJ, Fan JL, Xiang YZ, Zhang FC, Zheng J, Yan SC, Yan FL, Hou XH, Li YP, Yang L (2021a) Effects of nitrogen type on rainfed maize nutrient uptake and grain yield. Agron J 113:5454–5471
Guo JJ, Fan JL, Zhang FC, Yan SC, Zheng J, Wu Y, Li J, Wang YL, Sun X, Liu XQ, Xiang YZ, Li ZJ (2021b) Blending urea and slow-release nitrogen fertilizer increases dryland maize yield and nitrogen use efficiency while mitigating ammonia volatilization. Sci Total Environ 790:148058
Homme PHAM (2016) Short-term fertilizer outlook 2016–2017. IFA
Hu YJ, Ma PH, Duan CX, Wu SF, Feng H, Zou YF (2020) Black plastic film combined with straw mulching delays senescence and increases summer maize yield in northwest China. Agric Water Manag 231:106031
Ji PT, Li XL, Peng YJ, Zhang YC, Tao PJ (2021) Effect of polyaspartic acid and different dosages of controlled-release fertilizers on nitrogen uptake, utilization, and yield of maize cultivars. Bioengineered 12:1
Jia XC, Shao LJ, Liu P, Zhao BQ, Gu LM, Dong ST, Bing SH, Zhang JW, Zhao B (2014) Effect of different nitrogen and irrigation treatments on yield and nitrate leaching of summer maize (Zea mays L.) under lysimeter conditions. Agric Water Manag 137:92–103
Ke J, Xing XM, Li GH, Ding YF, Dou FG, Wang SH, Liu ZH, Tang S, Ding CQ, Chen L (2019) Effects of different controlled-release nitrogen fertilizers on ammonia volatilization, nitrogen use efficiency and yield of blanket-seedling machine-transplanted rice. Field Crop Res 205:147–156
Lemaire G, Ciampitti I (2020) Crop mass and N status as prerequisite covariables for unraveling nitrogen use efficiency across genotype-by-environment-by-management scenarios: a review. Plants 9:1309
Li WJ, He P, Jin JY (2012) Critical nitrogen curve and nitrogen nutrition index for spring maize in North-East China. J Plant Nutr 35:1747–1761
Li GH, Zhao B, Dong ST, Zhang JW, Liu P, Vyn TJ (2017a) Interactive effects of water and controlled release urea on nitrogen metabolism, accumulation, translocation, and yield in summer maize. Sci Nat 104:72
Li YM, Sun YX, Liao SQ, Zou GY, Zhao TK, Chen YH, Yang JG, Zhang L (2017b) Effects of two slow-release nitrogen fertilizers and irrigation on yield, quality, and water-fertilizer productivity of greenhouse tomato. Agric Water Manag 186:139–146
Li CL, Wang Y, Li YX, Zhu L, Cao YQ, Zhao XH, Feng GZ, Gao Q (2020a) Mixture of controlled-release and normal urea to improve nitrogen management for maize across contrasting soil types. Agron J 112:3101–3113
Li CJ, Xiong YW, Huang QZ, Xu X, Huang GH (2020b) Impact of irrigation and fertilization regimes on greenhouse gas emissions from soil of mulching cultivated maize (Zea mays L.) field in the upper reaches of Yellow River, China. J Clean Prod 259:1208
Li GH, Zhao B, Dong ST, Zhang JW, Li P, Lu WP (2020c) Controlled-release urea combining with optimal irrigation improved grain yield, nitrogen uptake, and growth of maize. Agric Water Manag 227:105834
Liu QF, Chen Y, Liu Y, Wen XX, Liao YC (2016) Coupling effects of plastic film mulching and urea types on water use efficiency and grain yield of maize in the Loess Plateau, China. Soil Tillage Res 157:1–10
Liu S, Griffiths SM (2011) From economic development to public health improvement: China faces equity challenges. Public Health 125:669–674
Lu JS, Hu TT, Zhang BC, Wang L, Yang SH, Fan JL, Yan SC, Zhang FC (2021) Nitrogen fertilizer management effects on soil nitrate leaching, grain yield and economic benefit of summer maize in Northwest China. Agric Water Manag 247:106739
Malhi SS, Grant CA, Johnston AM, Gill KS (2001) Nitrogen fertilization management for no-till cereal production in the Canadian Great Plains: a review. Soil Tillage Res 60:101–122
McLaughlin MJ, McBeath TM, Smernik R, Stacey SP, Ajiboye B, Guppy C (2011) The chemical nature of P accumulation in agricultural soils-implications for fertilizer management and design: an Australian perspective. Plant Soil 349:69–87
Ning P, Li S, Yu P, Zhang Y, Li CJ (2013) Post-silking accumulation and partitioning of dry matter, nitrogen, phosphorus and potassium in maize varieties differing in leaf longevity. Field Crop Res 144:19–27
Pandey RK, Maranville JW, Chetima MM (2000) Deficit irrigation and nitrogen effects on maize in a Sahelian environment II. Shoot growth, nitrogen uptake and water extraction. Agric Water Manag 46:15–27
Qiang SC, Sun X, Zhang Y, Zhao H, Fan JL, Zhang FC, Sun M, Gao ZQ (2020) Deep placement of mixed controlled-release and conventional urea improves grain yield, nitrogen use efficiency of rainfed spring maize. Arch Agron Soil Sci
Ritchie S W, Hanway JJ (1986) How a corn plant develops. Iowa
Rowland T, Edmeades GO, Millner JP, Kemp PD (2013) The effect of planting date on maize grain yields and yield components. Field Crop Res 150:135–144
Shaviv A (2001) Advances in controlled-release fertilizers. Adv Agron 71:1–49
Sun HF, Zhou S, Zhang JN, Zhang XX, Wang C (2020) Effects of controlled-release fertilizer on rice grain yield, nitrogen use efficiency and greenhouse gas emissions in a paddy field with straw incorporation. Field Crop Res 253:107814
Tian XF, Li CL, Zhang M, Li T, Lu YY, Liu LF (2018) Controlled release urea improved crop yields and mitigated nitrate leaching under cotton-garlic intercropping system in a 4-year field trial. Soil Tillage Res 175:158–167
Tian C, Zhou X, Li DZ, Liu Q, Xie GX, Peng JW, Rong XM, Zhang YP, Yang Y, Eissa MA (2021) Controlled-release N fertilizer to mitigate ammonia volatilization from double-cropping rice. Nutr Cycl Agroecosyst 119:123–137
Xue JQ, Zhang RH, Li FY, Zhang XH (2008) Current status, problem and strategy of maize breeding in Shannxi Province. J Maize Sci 16:139–141 ((in Chinese))
Yan SC, Wu Y, Fan JL, Zhang FC, Kyaw TPU, Zheng J, Qiang SC, Guo JJ, Zou HY, Xiang YZ, Wu LF (2020) A sustainable strategy of managing irrigation based on water productivity and residual soil nitrate in a no-tillage maize system. J Clean Prod 262:121279
Zhang SL, SadrasV CXP, Zhang FS (2014) Water use efficiency of dryland maize in the Loess Plateau of China in response to crop management. Field Crop Res 163:55–63
Zhang WS, Liang ZY, He XM, Wang XZ, Shi XJ, Zou CQ, Chen XP (2019) The effects of controlled release urea on maize productivity and reactive nitrogen losses: a meta-analysis. Environ Pollut 246:559–565
Zheng WK, Zhang M, Liu ZG, Zhou HY, Lu H, Zhang WT, Yang YC, Li CL, Chen BC (2016) Combining controlled-release urea and normal urea to improve the nitrogen use efficiency and yield under wheat-maize double cropping system. Field Crop Res 197:52–62
Zheng WK, Liu ZG, Zhang M, Shi YF, Zhu Q, Sun YB, Zhou HY, Li CL, Yang YC, Geng JB (2017) Improving crop yields, nitrogen use efficiencies, and profits by using mixtures of coated controlled-released and uncoated urea in a wheat-maize system. Field Crop Res 205:106–115
Zheng J, Fan JL, Zhang FC, Yan SC, Wu Y, Lu JS, Guo JJ, Cheng MH, Pei YF (2019) Throughfall and stemflow heterogeneity under the maize canopy and its effect on soil water distribution at the row scale. Sci Total Environ 660:1367–1382
Zheng WK, Wang YS, Li YC, Liu ZG, Chen JQ, Zhou HY, Gao YX, Chen BC, Zhang M (2020) Developing water and nitrogen budgets of a wheat-maize rotation system using auto-weighing lysimeters: effects of blended application of controlled-release and un-coated urea. Environ Pollut 263:114383
Zheng J, Fan JL, Zhang FC, Guo JJ, Yan SC, Zhuang QL, Cui NB, Guo L (2021) Interactive effects of mulching practice and nitrogen rate on grain yield, water productivity, fertilizer use efficiency and greenhouse gas emissions of rainfed summer maize in northwest China. Agric Water Manag 248:106778
Zhu LX, Zhang WJ (2017) Effects of controlled-release urea combined with conventional urea on nitrogen uptake, root yield, and quality of Platycodon grandiflorum. J Plant Nutr 40:662–672
Acknowledgements
This study was jointly supported by the National Natural Science Foundation of China (No. 51879226), the Chinese Universities Scientific Fund (No. 2452020018) and the “111” Project (No. B12007).
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Guo, J., Fan, J., Xiang, Y. et al. Synchronizing nitrogen supply and uptake by rainfed maize using mixed urea and slow-release nitrogen fertilizer. Nutr Cycl Agroecosyst 122, 157–171 (2022). https://doi.org/10.1007/s10705-022-10196-3
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DOI: https://doi.org/10.1007/s10705-022-10196-3