Crops ›› 2021, Vol. 37 ›› Issue (1): 143-149.doi: 10.16035/j.issn.1001-7283.2021.01.020

Previous Articles     Next Articles

Effects of Planting Density and Nitrogen Application Rate on Annual Yield and Nitrogen Use Efficiency of Wheat-Maize Rotation System

Liu Jiamin(), Wang Yang, Chu Xu, Qi Xin, Wang Manman, Zhao Ya'nan, Ye Youliang, Huang Yufang()   

  1. College of Resources and Environment, Henan Agricultural University, Zhengzhou 450002, Henan, China
  • Received:2020-05-03 Revised:2020-12-25 Online:2021-02-15 Published:2021-02-23
  • Contact: Huang Yufang E-mail:3030398322@qq.com;503593726@qq.com

RichHTML

4

PDF (PC)

447

Abstract:

The gap between the customary seeding rate of wheat-maize growers in Henan province and the recommended seeding rate by experts is large. This study aims to match the appropriate amount of nitrogen fertilizer for different seeding rates to achieve the best economic benefits and nitrogen use efficiency. Wheat varieties (Aikang 58 and Bainong 207) and maize varieties (Beiqing 340 and Denghai 605) were selected as test materials, and two seeding doses of farmers' habits and experts recommend were set, and the three nitrogen supply levels 0, 180, and 360kgN/ha were compared and analyzed. The dry matter amount, yield, nitrogen use efficiency and economic benefit of wheat and maize of different treatments were compared. The results showed that the habits of wheat farmers were 75kg/ha higher than those recommended by experts. Compared with the customary treatment of farmers, the wheat yield increased by 10.0% to 15.7%, and the economic benefit was improved. The yield of wheat increased with the increasing of the number of kernels. Under the habit seeding rate of farmers, with the increase of nitrogen application rate, there was no significant difference in wheat yield, and the agronomic efficiency of nitrogen fertilizer decreased. Under the recommendation of the experts, the output of Bainong 207 reached the highest under the treatment of N180. The amount of maize used by farmers is 22 500kg/hm2 lower than that of recommended by experts. Compared with farmers' customary treatment, the yield of maize recommended by experts increased from 17.8% to 22.7%. Maize production increased with seeding rate increasing. Under the habit seeding rate of farmers, with the increase of nitrogen application rate, the yield of maize decreased, and the efficiency of nitrogen fertilizer agronomy decreased. The economic benefit of N180 treatment was the highest under the planting density recommended by experts.

Key words: Planting density, Nitrogen application rate, Wheat-maize rotation, Yield, Nitrogen use efficiency, Economic benefit

Fig.1

Effects of planting density and nitrogen application rate on the yields of different varieties of wheat and maize Different lowercase letters indicate the difference between different nitrogen levels at the same density (P < 0.05)"

Table 1

Effects of planting density and nitrogen application rate on yield components of different wheat and maize varieties"

品种
Variety		 种植密度
Planting density		 氮水平
Nitrogen level		 穗数
Spike number (×104/hm2)		 穗粒数
Kernels per ear		 千粒重
1000-grain weight (g)
小麦Wheat
矮抗58 187.5kg/hm2 N0 29.28c 35.78a 47.41a
Aikang 58 N180 42.78a 39.63a 43.74b
N360 37.78b 36.13a 42.03bc
112.5kg/hm2 N0 21.56d 38.43a 47.69a
N180 34.72b 37.10a 42.90bc
N360 37.06b 40.40a 41.87c
百农207 187.5kg/hm2 N0 28.78c 39.50b 49.35ab
Bainong 207 N180 32.28b 34.13c 48.50ab
N360 31.89b 40.60ab 46.80ab
112.5kg/hm2 N0 24.61d 39.60b 51.23a
N180 35.22a 38.90b 46.80ab
N360 30.94bc 44.57a 45.65b
玉米Maize
北青340 52 500株/hm2 N0 0.35 554.27a 307.20b
Beiqing 340 N180 0.35 592.60a 344.57a
N360 0.35 598.73a 326.83ab
75 000株/hm2 N0 0.50 550.07a 311.77b
N180 0.50 564.53a 312.23b
N360 0.50 539.80a 302.07b
登海605 52 500株/hm2 N0 0.35 580.73a 301.27ab
Denghai 605 N180 0.35 601.07a 299.60ab
N360 0.35 600.33a 267.27c
75 000株/hm2 N0 0.50 494.33b 291.00abc
N180 0.50 521.60b 306.13a
N360 0.50 496.73b 273.07bc

Fig.2

Effects of planting density and nitrogen application rate on dry matter amounts of different wheat varieties"

Fig.3

Effects of planting density and nitrogen application rate on dry matter amounts of different maize varieties"

Table 2

Effects of planting density and nitrogen application rate on nitrogen use efficiency of different wheat and maize varieties"

周年(小麦-玉米)Anniversary (wheat-maize) 种植密度
Planting density		 氮水平
Nitrogen
level		 氮肥农学效率
Nitrogen agronomic
efficiency (kg/kg)		 氮肥偏生产力
Nitrogen partial factor
productivity (kg/kg)		 氮肥回收利用率
Nitrogen recovery
rate (%)
矮抗58+北青340 187.5kg/hm2+52 500株/hm2 N0 - - -
Aikang 58+Beiqing 340 N180 11.03a 47.75b 41.14a
N360 4.94b 23.29d 12.37b
112.5kg/hm2+75 000株/hm2 N0 - - -
N180 10.85a 54.60a 41.16a
N360 5.51b 27.38c 17.68b
百农207+登海605 187.5kg/hm2+52 500株/hm2 N0 - - -
Bainong 207+Denghai 605 N180 4.27b 43.12a 29.96a
N360 0.59c 20.02d 10.78b
112.5kg/hm2+75 000株/hm2 N0 - - -
N180 10.25a 52.45a 32.81a
N360 2.44bc 23.54c 15.29b

Table 3

Effects of planting density and nitrogen application rate on economic benefits of different crops 万元/hm2 ×104 yuan/hm2"

作物
Crop		 种植密度
Planting density		 氮水平
Nitrogen level		 产值
Out value		 肥料成本
Fertilizer cost		 种子成本
Seed cost		 其他生产成本
Other production cost		 经济效益
Economic benefit
小麦Wheat 187.5kg/hm2 N0 2.86 0.20 0.15 0.90 1.61
N180 3.46 0.36 0.15 0.90 2.06
N360 3.48 0.52 0.15 0.90 1.91
112.5kg/hm2 N0 3.03 0.20 0.09 0.90 1.84
N180 3.94 0.36 0.09 0.90 2.59
N360 4.02 0.52 0.09 0.90 2.52
玉米Maize 52 500株/hm2 N0 2.72 0.20 0.138 0.90 1.48
N180 3.06 0.36 0.138 0.90 1.66
N360 2.98 0.52 0.138 0.90 1.42
75 000株/hm2 N0 3.38 0.20 0.196 0.90 2.08
N180 3.85 0.36 0.196 0.90 2.39
N360 3.49 0.52 0.196 0.90 1.87
[1] Bhuiyan N I, Crasswell E T, Bouldin D R. Yield and crop parameters of wetland rice as influenced by soil and fertilizer nitrogen. Plant and Soil, 1984,79(3):369-381.
[2] 张向前, 陈欢, 赵竹, 等. 密度和行距对早播小麦生长、光合及产量的影响. 麦类作物学报, 2015,35(1):86-92.
[3] 王力冬. 分蘖期冷水胁迫下施氮量对寒地粳稻生长特性和产质量形成的影响. 哈尔滨:东北农业大学, 2016.
[4] 朱兆良, 文启孝. 中国土壤氮素. 南京: 江苏科学技术出版社, 1992.
[5] 王建贺, 刘丹, 王从磊, 等. 种植密度和氮肥水平对小麦新品种‘津强7号’产量及农艺性状的影响. 中国农学通报, 2019,35(21):14-18.
[6] 曹胜彪, 张吉旺, 董树亭, 等. 施氮量和种植密度对高产夏玉米产量和氮素利用效率的影响. 植物营养与肥料学报, 2012,18(6):1343-1353.
[7] 曹彩云, 李伟, 党红凯, 等. 不同种植密度对夏玉米产量、产量性状及群体光合特性的影响研究. 华北农学报, 2013,28(S1):161-166.
[8] 曹倩, 贺明荣, 代兴龙, 等. 密度、氮肥互作对小麦产量及氮素利用效率的影响. 植物营养与肥料学报, 2011(4):815-822.
[9] 赵广才. 国家现代小麦产业技术体系建设项目. 北京: 中国农业出版社, 2015.
[10] 张福锁, 陈新平, 陈清, 等. 中国主要作物施肥指南. 北京: 中国农业大学出版社, 2009.
[11] 李彦昌, 王海亮, 王昌亮, 等. 黄淮海玉米育种的密度选择探讨. 中国种业, 2019(4):45-47.
[12] 黄波, 张妍, 孙建强, 等. 氮密互作对淮北砂姜黑土区冬小麦冠层光合特性和产量的影响. 麦类作物学报, 2019,39(8):994-1002.
[13] 王成雨, 代兴龙, 石玉华, 等. 氮肥水平和种植密度对冬小麦茎秆抗倒性能的影响. 作物学报, 2012,38(1):121-128.
[14] 李金才, 尹钧, 魏凤珍. 播种密度对冬小麦茎秆形态特征和抗倒指数的影响. 作物学报, 2005,31(5):662-666.
[15] 李玮, 乔玉强, 陈欢, 等. 玉米秸秆还田配施氮肥对冬小麦土壤氮素表观盈亏及产量的影响. 植物营养与肥料学报, 2015,21(3):561-570.
[16] 赵竹, 曹承富, 乔玉强, 等. 机播条件下行距与密度对小麦产量和品质的影响. 麦类作物学报, 2011,31(4):714-719.
[17] 王帅, 韩晓日, 战秀梅, 等. 氮肥水平对玉米灌浆期穗位叶光合功能的影响. 植物营养与肥料学报, 2014,20(2):280-289.
[18] 孟战赢, 王育红, 王向阳, 等. 密度对夏玉米灌浆特性及产量的影响. 河南农业科学, 2011,40(12):48-51.
[19] 王宜伦, 刘天学, 赵鹏, 等. 施氮量对超高产夏玉米产量与氮素吸收及土壤硝态氮的影响. 中国农业科学, 2013,46(12):2483-2491.
[1] Cao Xiaoyan, Wu Ailian, Wang Jinsong, Dong Erwei, Jiao Xiaoyan. Effects of Nitrogen Fertilization on Yield, Quality and Nitrogen Utilization Efficiency of Sorghum [J]. Crops, 2021, 37(2): 108-115.
[2] Liu Akang, Wang Demei, Wang Yanjie, Yang Yushuang, Ma Ruiqi, Gao Tiantian, Wang Yujiao, Kan Mingxi, Zhao Guangcai, Chang Xuhong. Effects of Seedling Regulation on Yield and Nitrogen Utilization of Late Sowing Wheat [J]. Crops, 2021, 37(2): 116-123.
[3] Zhang Xiaojuan, Zhang Shangpei, Cheng Bingwen, Luo Shiwu, Wang Yong, Yang Junxue, Wang Xiaojun. Responses of Broomcorn Prosomillet Growth, Yield and Soil Environment to Different Film-Mulching Planting Patterns in Dryland [J]. Crops, 2021, 37(2): 124-129.
[4] Li Jie, Zhang Xiaoning, Jin Fansheng, Han Yanlong, Li Haijin. Response of Kidney Bean Growth and Yield to Planting Density in the Dry Year [J]. Crops, 2021, 37(2): 140-146.
[5] Liu Ping, Shao Caihong, Zhang Honglin, Liu Guangrong. Effects of Dry-Wet Alternate Irrigation on Double Cropping Rice Yield and Quality during Late Development Stage under Seasonal Rain Condition [J]. Crops, 2021, 37(2): 153-159.
[6] Li Candong, Guo Tai, Wang Zhixin, Zheng Wei, Zhao Haihong, Zhang Zhenyu, Xu Jiefei, Guo Meiling. Evaluation and Determination of Yield Evaluation Indicators of Soybean Mainly Cultivated Varieties in the Central and Eastern of Heilongjiang Province [J]. Crops, 2021, 37(2): 45-51.
[7] Yang Yuchen, Du Zhimin, Zhang Xiaopeng, Li Kunyi, Shen Jiaqi, Xu Hai. Effects of Spraying Methyl Jasmonate on Yield and Grain Quality of Japonica Rice during Heading and Flowering Stage [J]. Crops, 2021, 37(2): 71-76.
[8] Fu Jing, Yin Haiqing, Wang Ya, Yang Wenbo, Zhang Zhen, Bai Tao, Wang Yuetao, Wang Fuhua, Wang Shengxuan. Effects of Nitrogen Topdressing Models on Root Growth and Grain Yield of Japonica Rice in the Region along Yellow River of Henan Province [J]. Crops, 2021, 37(2): 77-86.
[9] Wang Dequan, Sun Yanguo, Du Yuhai, Liu Yang, Wang Yi, Ma Xinghua, Zhang Yuqin, Zhang Riqiang. Effects of Transplanting Date and Mode on Growth, Development, Yield and Quality of Flue-Cured Tobacco [J]. Crops, 2021, 37(2): 87-95.
[10] Li Wenxu, Wu Zhengqing, Lei Zhensheng, Jiang Guiying. The Characteristics of Climate Factors Change and Its Effects on Main Grain Crops Yield per Unit Area in Henan Province [J]. Crops, 2021, 37(1): 124-134.
[11] Li Ruijie, Yan Peng, Wang Qingyan, Xu Yanli, Lu Lin, Dong Zhiqiang, Zhang Fenglu. Effects of 5-Aminolevulinic Acid and Ethephon on Photosynthetic Physiology of Leaves and Yield of Spring Maize in Northeast China [J]. Crops, 2021, 37(1): 135-142.
[12] Duan Huimin, Lu Xiao, Zhou Xiaojie, Li Gaofeng, Wen Guohong, Wang Yuping, Cheng Lixiang, Zhang Feng. Effects of Potato Leaf Type and Planting Density on Yield Components [J]. Crops, 2021, 37(1): 160-167.
[13] Liu Yan, Gong Liang, Xing Yuehua, Bao Hongjing. Study on the Optimization of Organic-Inorganic Fertilization Model for Maize Based on Orthogonal Design [J]. Crops, 2021, 37(1): 168-174.
[14] Suo Yanyan, Zhang Xiang, Si Xianzong, Li Liang, Yu Qiong, Yu Hui. Effects of Phosphorus and Calcium Applications on the Growth, Yield, and Phosphorus and Calcium Use Efficiency of Peanut [J]. Crops, 2021, 37(1): 187-192.
[15] Gong Songling, Cao Pei, Gao Zhenzhen, Li Chengwei, Liu Zhangyong, Zhu Bo. Effects of Cropping Patterns on Crop Yield and Resource Utilization Efficiency in Southern China [J]. Crops, 2021, 37(1): 68-73.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] Guangcai Zhao,Xuhong Chang,Demei Wang,Zhiqiang Tao,Yanjie Wang,Yushuang Yang,Yingjie Zhu. General Situation and Development of Wheat Production[J]. Crops, 2018, 34(4): 1 -7 .
[2] Baoquan Quan,Dongmei Bai,Yuexia Tian,Yunyun Xue. Effects of Different Leaf-Peg Ratio on Photosynthesis and Yield of Peanut[J]. Crops, 2018, 34(4): 102 -105 .
[3] Yun Zhao,Cailong Xu,Xu Yang,Suzhen Li,Jing Zhou,Jicun Li,Tianfu Han,Cunxiang Wu. Effects of Sowing Methods on Seedling Stand and Production Profit of Summer Soybean under Wheat-Soybean System[J]. Crops, 2018, 34(4): 114 -120 .
[4] Hongqu Liao,Hongli Chen,Wensi Fan,Yu Chen,Qiujing Han,Jianjun Yu,Ming Ma. Fractal Characteristics of Soil Particles and Their Effects on Physicochemical Properties of Tobacco Leaves in Main Tobacco Growing Areas in Henan[J]. Crops, 2018, 34(1): 118 -125 .
[5] Ruiqi Ma,Zhen Qi,Xuhong Chang,Demei Wang,Zhiqiang Tao,Yushuang Yang,Jinfeng Feng,Min Sun,Guangcai Zhao. Regulation Effects of Growth Regulators on Plant Characters, Yield and Quality of Winter Wheat[J]. Crops, 2018, 34(1): 133 -140 .
[6] Jianxia Liu,Xiaodan Zhang,Runmei Wang,Feng Zhou,Wenying Liu,Zhiping Liu. Effects of Seed Soaking with 6-BA on Germination and Physiological Characteristics of Mung Bean under Salt Stress[J]. Crops, 2018, 34(1): 166 -172 .
[7] Linjian Dai,Wu Chen,Tian Zhou,Jun Zhong. Selection Mutant of Resistant to Black Shank on Tobacco by Anther Culture[J]. Crops, 2018, 34(1): 66 -70 .
[8] . [J]. Crops, 2011, 27(5): 1 -7 .
[9] . [J]. Crops, 1987, 3(1): 23 .
[10] . [J]. Crops, 2006, 22(5): 57 -58 .