不同降水年型下长期施肥的小麦产量效应

doi:10.13287/j.1001-9332.201810.025

应用生态学报 ›› 2018, Vol. 29 ›› Issue (10): 3237-3244.doi: 10.13287/j.1001-9332.201810.025

不同降水年型下长期施肥的小麦产量效应

李晓州¹, 郝明德^1,2*, 赵晶², 王哲², 付威¹, 刘增照¹

¹西北农林科技大学资源与环境学院, 陕西杨凌 712100;
²西北农林科技大学水土保持研究所, 陕西杨凌 712100

收稿日期:2018-03-04 出版日期:2018-10-20 发布日期:2018-10-20
通讯作者: E-mail: mdhao@ms.iswc.ac.cn
作者简介:李晓州, 男,1992年生,硕士研究生.主要从事农田生产力研究. E-mail: 804637446@qq.com
基金资助:
本文由国家科技支撑计划项目(2015BAD22B01-01)、国家重点研发计划项目(2016YFC0503703)和陕西农业科技创新项目(NYKJ-2017-01)资助

Effect of long-term fertilization on wheat yield under different precipitation patterns

LI Xiao-zhou¹, HAO Ming-de^1,2*, ZHAO Jing², WANG Zhe², FU Wei¹, LIU Zeng-zhao¹

¹College of Resources and Environment, Northwest A&F University, Yangling 712100, Shaanxi, China;
²Institute of Soil and Water Conservation, Northwest A&F University, Yangling 712100, Shaanxi, China

Received:2018-03-04 Online:2018-10-20 Published:2018-10-20
Supported by:
This work was supported by the National Science & Technology Support Plan (2015BAD22B01-01), the National Key Research and Development Plan (2016YFC0503703) and the Shanxi Agricultural Science and Technology Innovation Project (NYKJ-2017-01)

摘要/Abstract

摘要： 合理施用氮磷化肥是提高小麦产量的主要措施之一.用二元二次回归方程探讨不同降水年型下的氮磷优化用量,为黄土旱塬小麦施肥提供依据.结果表明: 不同降水年型小麦最高产量所需要的氮磷肥用量不同,平水年小麦最高产量4229 kg·hm^-2时的氮用量为172 kg·hm^-2、磷用量164 kg·hm^-2;丰水年最高产量4896 kg·hm^-2时,施氮量较平水年多2%,为175 kg·hm^-2,施磷量较平水年少约1%,为162 kg·hm^-2;干旱年施氮磷量较平水年少约16%和5%,当施氮磷量超出这个用量时,小麦产量开始呈下降趋势.不同降水年型最佳经济施肥量不同,平水年最佳经济施氮量为161 kg·hm^-2、施磷量为151 kg·hm^-2;而干旱年的最佳氮、磷量为135、143 kg·hm^-2;丰水年最佳经济氮、磷量分别较平水年多约3%和1%,为167、153 kg·hm^-2.最佳经济氮磷施用量比最高产量氮磷施用量低6%~8%.实际生产中建议氮磷减少10%的用量,提高肥料利用率,获得最大经济效益.

Abstract: Rational application of nitrogen and phosphorus is one of the main pathways to enhance wheat yield. The optimum dosage of nitrogen and phosphorus used in different precipitation patterns was studied using the binary quadratic regression equation, which could provide a basis for fertilization of wheat in Loess Plateau. The results showed that the amount of nitrogen and phosphorus ferti-lizer required for the maximum yield was dependent on precipitation patterns. The maximum wheat yield in normal years was 4229 kg·hm^-2, with the dosage of nitrogen and phosphorus applied being 172 and 164 kg·hm^-2, respectively. The maximum wheat yield in wet years was 4896 kg·hm^-2, with the dosage of nitrogen fertilizer being 2% more than that in normal years, 175 kg·hm^-2, and the dosage of phosphorus was about 1% less than that in normal years, 162 kg·hm^-2. The application of nitrogen and phosphorus in dry years was about 16% and 5% less than that in normal years. When the dosage was more than that, wheat yield began to decline. The economic optimum fertilization differed in different precipitation patterns. The economic optimum nitrogen and phosphorus fertilization in normal years was 161 and 151 kg·hm^-2, while in dry years it was 135, 143 kg·hm^-2, respectively. The economic optimum fertilization in wet years was about 3% and 1% more than that in normal years, 167 and 153 kg·hm^-2. The economic optimum fertilization was 6%-8% lower than optimum amount of fertilization. In actual production, it was recommended to reduce the amount of nitrogen and phosphorus by 10% in order to improve the utilization rate of fertilizer and get the maximum benefit.

李晓州, 郝明德, 赵晶, 王哲, 付威, 刘增照. 不同降水年型下长期施肥的小麦产量效应[J]. 应用生态学报, 2018, 29(10): 3237-3244.

LI Xiao-zhou, HAO Ming-de, ZHAO Jing, WANG Zhe, FU Wei, LIU Zeng-zhao. Effect of long-term fertilization on wheat yield under different precipitation patterns[J]. Chinese Journal of Applied Ecology, 2018, 29(10): 3237-3244.

参考文献

[1] Zhao H-B (赵海波), Lin Q (林琪), Liu Y-G (刘义国), et al. Effects of combined application of nitrogen and phosphorus on diurnal variation of photosynthesis at grain-filling stage and grain yield of super high-yielding wheat. Chinese Journal of Applied Ecology (应用生态学报), 2010, 21(10): 2545-2500 (in Chinese)
[2] Zhang Y-Q (张永清), Huang S-M (黄绍敏), Guo D-D (郭斗斗), et al. Effects of long-term fertilization on grain yields and component factors. Chinese Agricultural Science Bulletin (中国农业通报), 2010, 26(4): 166-169 (in Chinese)
[3] Hao M-D (郝明德), Fan J (樊军). Effects of location applying fertilizer on grain yield of wheat and NO₃^--N accumulation in soil profile in dry land of Loess Plateau. Acta Pedologica Sinica (土壤学报), 2002, 39(Suppl.): 295-299 (in Chinese)
[4] Chen L (陈磊), Hao M-D (郝明德), Zhang S-M (张少民), et al. Effects of long-term application of fertilizer on wheat nutrient uptake and soil fertility in Loess Plateau. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2007, 13(2): 230-235 (in Chinese)
[5] Cai GX, Chen DL, Ding H, et al. Nitrogen losses from fertilizers applied to maize, wheat and rice in the North China Plain. Nutrient Cycling in Agroecosystems, 2002, 63: 187-195
[6] Liu H (刘欢), Chen M-M (陈苗苗), Sun Z-M (孙志梅), et al. Effects of different management practice on crop yield, N utilization and N apparent balance in wheat/maize rotation system. Acta Agriculturae Boreali-Sinica (华北农学报), 2016, 31(1): 232-238 (in Chinese)
[7] Miranda JD, Armas C, Padilla FM, et al. Climatic change and rainfall patterns: Effects on semi-arid plant communities of the Iberian Southeast. Journal of Arid Environments, 2011, 75: 1302-1309
[8] Li G (李广), Huang G-B (黄高宝). Determination of the effect of precipitation distribution on yield of wheat and pea in dryland using APSIM. Chinese Journal of Eco-Agriculture (中国生态农业学报), 2010, 18(2): 342-347 (in Chinese)
[9] Li Y-S (李玉山), Su S-M (苏陕民). Comprehensive Study on the Efficient Eco-economic System of Wangdonggou, Changwu. Beijing: Science and Technology Literature Press, 1991 (in Chinese)
[10] Jin S-B (金善宝). China Wheat Science. Beijing: China Agriculture Press, 1996 (in Chinese)
[11] Hao M-D (郝明德), Wang X-G (王旭刚), Dang T-H (党廷辉), et al. Analysis of long-term fertilization effect on yield of wheat in dry-land on Loess Plateau. Acta Agronomica Sinica (作物学报), 2004, 30(11): 1108-1112 (in Chinese)
[12] Zhao Y-Y (赵云英), Xie Y-S (谢永生), Hao M-D (郝明德). Effect of fertilization on fertility and nitrate accumulation of black loessial soil of dry land in Loess Plateau. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2009, 15(6): 1273-1279 (in Chinese)
[13] Wei X-R (魏孝荣), Hao M-D (郝明德), Zhang C-X (张春霞). Zinc fractions and availability in the soil of the Loess Plateau after long-term continuous application of zinc fertilizer. Acta Agronomica Sinica (中国农业科学), 2005, 38(7): 1386-1393 (in Chinese)
[14] Wei X-R (魏孝荣), Hao M-D (郝明德). Distribution of nutrient elements in soil-crop system after long-term application of zinc fertilizer. Acta Botanica Boreali-Occidentalia Sinica (西北植物学报), 2003, 23(8): 1438-1441 (in Chinese)
[15] Li S-X (李生秀), Wang C-H (王朝辉), Malhi SS, et al. Nutrient and water management effects on crop production, and nutrient and water use efficiency in dry land areas of China. Advances in Agronomy, 2009, 102: 223-265
[16] Mao S-S (毛思帅), Zhou J-H (周吉红), Meng F-Y (孟范玉), et al. Effect of different amount of phospho-rus on yield of wheat in the suburb of Beijing. Crops (作物杂志), 2014(4): 88-90 (in Chinese)
[17] Zhang C (张成), Meng J-J (孟建军). Analysis on high and stable yield ability of dry-land winter wheat in east Gansu. Agricultural Research in the Arid Areas (干旱地区农业研究), 2005, 23(4): 118-121 (in Chinese)
[18] Sun B-H (孙本华), Sun R (孙瑞), Guo Y (郭芸), et al. Evaluation on the sustainability of cropland under different long-term fertilization in Eum-Orthic Anthrosols area. Journal of Plant Nutrition and Fertilizer (植物营养与肥料学报), 2015, 21(6): 1403-1412 (in Chinese)
[19] Zhang HM, Wang BR, Xu MG, et al. Crop yield and soil responses to long-term fertilization on a red soil in southern China. Pedosphere, 2009, 19: 199-207
[20] Cai ZC, Qin SW. Dynamics of crop yields and soil organic carbon in a long-term fertilization experiment in the Huang-Huai-Hai Plain of China. Geoderma, 2006, 136: 708-715
[21] Hao MD, Fan J, Wang QJ, et al. Wheat grain yield and yield stability in a long-term fertilization experiment on the Loess Plateau. Pedosphere, 2007, 17: 257-264
[22] Cao H-B (曹寒冰). Tailoring Fertilizer Application to Precipitation and Yield for Dryland Wheat in the Loess Palteau. PhD Thesis. Yangling: Northwest A&F University, 2017 (in Chinese)
[23] Guan N (关宁). Function Model of Multi-fertilization Effect Research. Master Thesis. Changchun: Jilin Agricultural University, 2012 (in Chinese)
[24] Zhang Y-F (张玉峰), Bai Z-M (白志明), Zhou N-J (周乃健). Studies on the determination of marginal profit rate in rational application of fertilizer. Systems Engineering—Theory and Practice (系统工程理论与实践), 1997, 17(10): 50-59 (in Chinese)
[25] Li Y-S (李玉山). Fluctuation of yield on high-yield field and desiccation of the soil on dryland. Acta Pedologica Sinica (土壤学报), 2001, 38(3): 353-356 (in Chinese)
[26] Zhang M (张铭), Jiang D (蒋达), Miao R-L (缪瑞林). Effects of N application rate on nitrogen absorption, utilization and yield of wheat under different soil fertility after rice. Journal of Triticeae Crops (麦类作物学报), 2010, 30(1): 135-140 (in Chinese)
[27] Zhao J-Y (赵俊晔), Yu Z-W (于振文). Effects of nitrogen rate on nitrogen fertilizer use of winter wheat and content of soil nitrate-N under different fertility condition. Acta Ecologica Sinica (生态学报), 2006, 26(3): 815-822 (in Chinese)
[28] Zhan Q-H (詹其厚), Zhang X-P (张效朴), Wang Z-X (王泽新), et al. Effect of N-fertilizer on wheat yield and quality and its efficiency. Journal of Anhui Agricultural Sciences (安徽农业科学), 2003, 31(4): 544-545 (in Chinese)

不同降水年型下长期施肥的小麦产量效应

Effect of long-term fertilization on wheat yield under different precipitation patterns

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