Scientia Agricultura Sinica ›› 2020, Vol. 53 ›› Issue (10): 2020-2033.doi: 10.3864/j.issn.0578-1752.2020.10.009

• SOIL & FERTILIZER·WATER-SAVING IRRIGATION·AGROECOLOGY & ENVIRONMENT • Previous Articles     Next Articles

Research on Nitrogen Fertilizer Application Recommended Method Based on Soil Organic Matter in Dryland Wheat Production

JIANG LongGang1,HUANG Ming1,3,SONG QingYun1,YUAN AiJing1,LI JiaHua1,QIU WeiHong1,2(),WANG ZhaoHui1,2()   

  1. 1 College of Natural Resources and Environment, Northwest A&F University/Key Laboratory of Plant Nutrition and Agro-Environment in Northwest China, Ministry of Agriculture and Rural Affairs, Yangling 712100, Shaanxi
    2 Northwest A&F University/State Key Laboratory of Crop Stress Biology in Arid Areas, Yangling 712100, Shaanxi
    3 School of Agriculture, Henan University of Science and Technology, Luoyang 471003, Henan
  • Received:2019-08-05 Accepted:2019-09-30 Online:2020-05-16 Published:2020-05-22
  • Contact: WeiHong QIU,ZhaoHui WANG E-mail:qwh@nwsuaf.edu.cn;w-zhaohui@263.net

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Abstract:

【Objective】 Most of the current existing recommended methods of nitrogen (N) fertilizer application for wheat involved collecting and analyzing a huge quantity of soil samples every year, especially for those based on soil testing, thus these methods were very expensive and difficult to be accepted and applied by the smallholder farmers and junior agricultural technicians. Therefore, it is important to explore an effective N fertilizer recommendation method that does not need testing soil samples each year. 【Method】 A recommended N fertilizer application method that based on the soil organic matter content (SOM) was proposed, the purpose of which was to maintain or improve soil fertility under low SOM condition, and to decrease the environmental risk under high SOM condition in dryland. The N fertilizer application rate was calculated as the N requirement of the target grain yield multiplied by the N fertilizer coefficient (Nf), where Nf was determined by SOM in topsoil. Then a three-year field experiment was conducted to verify this recommended method in six counties of winter wheat planting area in Weibei dryland, with two treatments: FP (Farmers’ practice) and OFP (Optimized fertilization practice based on the method of soil organic matter). 【Result】 The results showed that the average N fertilizer rate of OFP and FP was 161 and 190 kg N·hm-2, respectively, with a significant decrease of 15.3% by OFP. However, the winter wheat yield in OFP was 5 817 kg·hm-2and higher (by 9.0%) than that in FP. The net economic return of OFP was 1 451 yuan/hm2, with an increase of 19.3% when comparing with FP. In addition, compared with FP, OFP decreased 39 kg·hm-2nitrate-N residue in 0-1 m soil layers at harvest stage, with a decrease of 28.3%. 【Conclusion】 The recommended N fertilization method based on soil organic matter decreased N fertilizer input increased the wheat grain yield and economic benefits, and reduced the environmental risk in Weibei dryland. Therefore, this method could be taken into account in the management of N fertilizer input by local farmers in this region.

Key words: nitrogen fertilizer recommendation, dryland, winter wheat, organic matter, N fertilizer coefficient

Fig. 1

Precipitation during the growing season of wheat and fallow season during the experimental years from 2014 to 2017 BX, FX, HY, PC, YZ and YS represent Binxian, Fengxiang, Heyang, Pucheng, Yaozhou and Yongshou, respectively"

Table 1

Properties of the soil and nitrate in 0-100 cm soil sampled at wheat harvest when the experiments were initiated"

试验地点Experimental
sites		 pH 0—20 cm土层
有机质含量
Organic matter content in 0-20 cm soil layer (g·kg-1)		 0—40 cm土层
硝态氮含量
Nitrate-N content in 0-40 cm soil layer (mg·kg-1)		 0—40 cm土层
有效磷含量
Available P content in 0-40 cm soil layer (mg·kg-1)		 0—40 cm土层
有效钾含量
Available K content in 0-40 cm soil layer (mg·kg-1)		 0—100 cm土层
硝态氮积累量
Nitrate residue content in 0-100 cm soil layer (kg·hm-2)
彬县BX 8.3 14.3 11.8 11.3 131 153
凤翔FX1 8.3 13.6 16.8 11.6 121 292
凤翔FX2 8.1 11.1 17.4 9.9 106 153
合阳HY 8.5 14.0 7.7 10.0 187 251
蒲城PC 8.2 12.1 5.2 11.0 173 123
耀州YZ1 8.3 16.0 9.3 14.7 180 74
耀州YZ2 8.1 15.6 54.8 4.9 135 410
永寿YS 8.2 12.4 10.9 11.3 110 104
平均Mean 8.3 13.6 16.7 10.6 143 195

Fig. 2

Relationship between soil organic matter content in 0-20 cm soil layer and soil nitrogen mineralization in a year The data are derived from the literatures, ** indicates statistical significance of variance at P<0.01"

Fig. 3

Relationship between organic matter content in 0-20 cm soil layer of farmland and nitrate nitrogen residue in 1 m soil layer at harvest The solid and dotted lines, lower and upper edges, bars and dots in or outside the boxes represent the median and mean values, 25th and 75th, 5th and 95th, and, <5th and >95th percentiles of all data, respectively"

Table 2

Soil organic matter supply capacity indexes and their recommended N fertilization coefficients"

土壤有机质指标
Soil organic matter index		 0—20 cm土层有机质含量
Organic matter content in 0-20 cm soil layer (g·kg-1)		 施氮系数
N fertilization coefficient, Nf
极低Very low <8 1.2
低Low 8—12 1.1
中等Middle 12—16 1.0
高High 16—20 0.9
极高Very high >20 0.8

Table 3

N, P and K fertilizer application rates in different treatments during 2014-2017"

生长季
Growing season		 试验地点
Experimental site		 氮肥用量N rate (kg N·hm-2) 磷肥用量P rate (kg P2O5·hm-2) 钾肥用量K rate (kg K2O·hm-2)
农户习惯施肥FP 推荐施肥OFP 农户习惯施肥FP 推荐施肥OFP 农户习惯施肥FP 推荐施肥OFP
2014—2015 彬县BX 241 195 139 88 38 30
凤翔FX 231 211 182 95 0 36
合阳HY 137 101 138 30 32 30
蒲城PC 213 136 144 61 69 30
耀州YZ 169 140 119 47 51 30
永寿YS 186 160 98 68 41 30
平均Mean 196 157 137 65 39 31
2015—2016 彬县BX 232 195 124 88 33 30
凤翔FX 197 211 71 95 25 36
合阳HY 150 116 131 59 48 30
蒲城PC 199 163 112 73 27 30
耀州YZ 169 140 119 47 51 30
永寿YS 185 161 110 38 0 30
平均Mean 189 164 111 67 31 31
2016—-2017 彬县BX 221 200 130 90 39 30
凤翔FX 203 203 101 98 30 35
合阳HY 140 106 129 54 30 30
蒲城PC 152 171 105 76 30 30
耀州YZ 203 140 96 106 30 30
永寿YS 188 148 114 63 30 30
平均Mean 185 161 113 81 32 31
2014—2017 彬县BX 231 197 131 89 37 30
凤翔FX 210 208 118 96 18 36
合阳HY 142 108 133 48 37 30
蒲城PC 188 157 120 70 42 30
耀州YZ 180 140 111 67 44 30
永寿YS 186 156 107 56 24 30
平均Mean 190 161 120 71 34 31

Table 4

Winter wheat yield and biomass at different experimental sites during years of 2014-2017"

生长季
Growing season		 试验地点
Experimental site		 产量 Yield(kg·hm-2 生物量Biomass(kg·hm-2
农户习惯施肥FP 推荐施肥OFP 农户习惯施肥FP 推荐施肥OFP
2014—2015 彬县BX 6731b 7300a 17478b 20491a
凤翔FX 6931a 7322a 14582a 15231a
合阳HY 5236b 6057a 14603a 15802a
蒲城PC 5539b 6139a 11448b 12128a
耀州YZ 6298a 6704a 13625a 14354a
永寿YS 6419a 6731a 16910a 18773a
平均Mean 6192b 6709a 14774b 16130a
2015—2016 彬县BX 7721b 8464a 17244b 25149a
凤翔FX 6345a 6795a 13164a 13582a
合阳HY 3126b 3667a 6664a 8199a
蒲城PC 2151a 2309a 3999a 4638a
耀州YZ 7098a 7529a 12845a 13252a
永寿YS 5559a 6342a 9663a 10933a
平均Mean 5333b 5851a 10597b 12625a
2016—2017 彬县BX 6364b 6897a 16132a 17092a
凤翔FX 5798a 6245a 13494a 14581a
合阳HY 3754a 3924a 9275a 9246a
蒲城PC 1759a 1939a 4403a 4790a
耀州YZ 3145a 3349a 7022a 7546a
永寿YS 6082a 6989a 14990a 15754a
平均Mean 4484b 4890a 10889a 11502a
2014—2017 彬县BX 6939b 7553a 16951b 20911a
凤翔FX 6358b 6787a 13747a 14465a
合阳HY 4039b 4550a 10180a 11082a
蒲城PC 3149b 3462a 6616b 7185a
耀州YZ 5514a 5860a 11164a 11717a
永寿YS 6020b 6687a 13855a 15153a
平均Mean 5337b 5817a 12086b 13419a
变异来源 Source of variance
生长季Growing season 51.9** 91.4**
地点Site 163.1** 178.3**
处理Treatment 28.0** 23.6**

Table 5

Yield components of winter wheat at different experimental sites during 2014-2017"

生长季
Growing
season		 试验地点Experimental
site		 穗数
Spike number (×104·hm-2)		 穗粒数
Grain number per spike		 千粒重
1000-kernel weight (g)
农户习惯施肥FP 推荐施肥OFP 农户习惯施肥FP 推荐施肥OFP 农户习惯施肥FP 推荐施肥OFP
2014—2015 彬县BX 686a 759a 31a 29a 31.9a 32.9a
凤翔FX 475a 499a 38a 37a 38.6a 39.4a
合阳HY 636a 618a 25a 28a 32.4b 35.6a
蒲城PC 519a 503a 30a 32a 36.0a 38.4a
耀州YZ 573a 584a 26a 25a 38.0b 40.1a
永寿YS 560a 594a 42a 43a 27.5a 27.7a
平均Mean 575a 593a 32a 33a 34.1b 35.7a
2015—2016 彬县BX 734b 910a 20 a 30a 41.9a 40.1a
凤翔FX 431a 465a 34a 29b 43.5b 51.7a
合阳HY 378a 430a 23a 23a 36.9a 37.8a
蒲城PC 245a 295a 24a 22a 33.4a 33.3a
耀州YZ 380a 383a 33a 34a 46.3a 46.6a
永寿YS 301a 332a 36a 38a 42.0a 40.7a
平均Mean 411b 469a 28a 29a 40.7a 41.7a
2016—2017 彬县BX 701a 676a 21a 24a 43.0a 43.2a
凤翔FX 516b 589a 32a 30a 35.7a 35.3a
合阳HY 409a 347a 24a 28a 38.4a 40.4a
蒲城PC 227a 236a 22a 23a 35.3a 35.9a
耀州YZ 298a 353a 23a 20a 46.4a 48.1a
永寿YS 546a 616a 31a 31a 36.7a 36.8a
平均Mean 449a 470a 25a 26a 39.2a 39.9a
2014—2017 彬县BX 707a 782a 24b 28a 38.9a 38.7a
凤翔FX 474b 518a 34a 32a 39.3b 42.1
合阳HY 474a 465a 24a 26a 35.9b 37.9a
蒲城PC 330a 345a 25a 26a 34.9a 35.8a
耀州YZ 417a 440a 27a 26a 43.6a 44.9a
永寿YS 469a 514a 36a 37a 35.4a 35.1a
平均Mean 479b 511a 29a 29a 38.0b 39.1a
变异来源 Source of variance
生长季Growing season 50.0** 24.4** 82.8**
地点Site 71.7** 47.0** 85.4**
处理Treatment 6.8* 1.40 21.7**

Table 6

N uptake, N harvest index, and N partial productivity of winter wheat at different experimental sites during 2014-2017"

生长季
Growing
season		 试验地点Experimental
site		 氮吸收量
Shoot N uptake (kg·hm-2)		 氮收获指数
N harvest index (%)		 氮肥偏生产力
N partial productivity (kg·kg-1)
农户习惯施肥FP 推荐施肥OFP 农户习惯施肥FP 推荐施肥OFP 农户习惯施肥FP 推荐施肥OFP
2014—2015 彬县BX 213.5b 258.4a 63.7a 56.7b 27.9b 37.5a
凤翔FX 184.1a 185.2a 75.6a 80.9a 29.9a 34.7a
合阳HY 179.8a 176.9a 64.8a 70.9a 38.2b 59.8a
蒲城PC 169.2a 169.5a 73.4a 75.3a 26.0b 45.1a
耀州YZ 182.1a 171.2a 70.3a 69.9a 37.4b 47.8a
永寿YS 281.5a 293.4a 46.3a 46.9a 34.6b 42.0a
平均Mean 201.7a 209.1a 65.7a 66.8a 32.3b 44.5a
2015—2016 彬县BX 252.5b 303.5a 68.8a 61.7b 33.3b 43.4a
凤翔FX 160.0a 166.3a 83.2a 83.9a 32.2a 32.2a
合阳HY 110.6a 123.6a 81.7a 81.8a 20.8b 31.6a
蒲城PC 81.6a 85.7a 80.0a 79.5a 10.8a 14.2a
耀州YZ 185.1a 202.1a 83.2a 81.1a 42.0b 53.8a
永寿YS 136.7a 151.7a 85.0a 84.9a 30.1b 39.4a
平均Mean 154.4b 172.1a 80.3a 78.8a 28.2b 35.8a
2016—2017 彬县BX 217.6a 237.6a 68.2a 68.1a 28.8b 34.5a
凤翔FX 141.6a 145.5a 75.2a 75.7a 28.6a 30.8a
合阳HY 129.3a 112.8a 83.3a 83.4a 26.8b 37.0a
蒲城PC 64.9a 69.3a 77.8a 78.4a 11.6a 11.3a
耀州YZ 105.0a 113.6a 82.9a 80.4a 20.7a 23.9a
永寿YS 208.4a 220.3a 74.1a 77.9a 32.4b 47.2a
平均Mean 144.5a 149.8a 76.9a 77.3a 24.8b 30.8a
2014—2017 彬县BX 227.9b 266.5a 66.9a 62.2b 30.0b 38.5a
凤翔FX 161.9a 165.7a 78.0a 80.2a 30.2a 32.6a
合阳HY 139.9a 137.8a 76.6a 78.7a 28.6b 42.8a
蒲城PC 105.2a 108.2a 77.1a 77.7a 16.1b 23.5a
耀州YZ 157.4a 162.3a 78.8a 77.1a 33.4b 41.8a
永寿YS 208.8a 221.8a 68.5a 69.9a 32.3b 42.9a
平均Mean 166.9b 177.0a 74.3a 74.3a 28.4b 37.0a
变异来源 Source of variance
生长季Growing season 54.4** 90.0** 60.5**
地点Site 118.8** 90.4** 91.6**
处理Treatment 7.4* 0 222.9**

Fig. 4

Nitrate N residues in 0-1 m soil layers at harvest of winter wheat at different experimental sites during 2014 to 2017 The error bar indicates standard deviation, above which different letters indicate significant difference among treatments at P<0.05 for a site in the same growing season. The same as below"

Fig. 5

Economic benefits of winter wheat at different experimental sites during 2014-2017"

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