Scientia Agricultura Sinica ›› 2020, Vol. 53 ›› Issue (23): 4835-4854.doi: 10.3864/j.issn.0578-1752.2020.23.010

• SPECIAL FOCUS: FERTILIZER REDUCTIONISM IN WHEAT PRODUCTION • Previous Articles     Next Articles

Nutrient Resource Quantity from Main Grain Crop Straw Incorporation and Its Enlightenment on Chemical Fertilizer Reduction in Wheat Production in China

LI TingLiang1,2(),WANG YuFeng1,WANG JiaHao1,LI Li1,XIE JunYu1,LI LiNa1,HUANG XiaoLei1,XIE YingHe1()   

  1. 1College of Resources and Environment, Shanxi Agricultural University, Taigu 030801, Shanxi
    2National Demonstration Center for Agricultural Resources and Environment Experimental Teaching, Shanxi Agricultural University, Taigu 030801, Shanxi
  • Received:2020-05-20 Accepted:2020-07-21 Online:2020-12-01 Published:2020-12-09
  • Contact: YingHe XIE E-mail:litingliang021@126.com;xieyinghe@163.com

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Abstract:

【Objective】The objective of this study was to determine the quantity and distribution of crop straws from rice, wheat and maize production, and the contained nutrient resources in the main grain crops planting regions of China, so as to provide a scientific basis for straw fertilizer utilization and reasonable reduction of chemical fertilizer in agricultural production in China. 【Method】 Based on data/information from National Bureau of Statistics of China and published literature, the amount of crop straws and the contained nutrient resources were estimated in rice, wheat and maize planting areas. The distribution of crop straws and the contained nutrient resources, the nutrient release of straw incorporation in next-stubble crops production, and chemical fertilizer proper reduction rate of wheat production were further analyzed in different agricultural regions of China. 【Result】The results showed that the ratio of straw to grain of rice, wheat and maize in China was 1.01, 1.14 and 1.25 by estimation of literature data, respectively. The annual yield of straw of the three major grain crops in China was 653.866 million tons during 2014-2018, among which rice, wheat and maize accounted for 32.3%, 22.7% and 45.0%, respectively. The crop straws were mainly produced in North China, Middle and Lower Reaches of the Yangtze River and Northeast China, accounting for 73.3% of the total national crop straw yields. The rice straw (50.7%) was mainly distributed in Middle and Lower Reaches of Yangtze River, the wheat straw (59.0%) was mainly distributed in Northeast China, and the maize straw were mainly distributed in Northeast China (33.7%) and North China (30.4%). A large number of literature data statistics showed that the nitrogen (N) average content of rice, wheat and maize straw was 0.78%, 0.64% and 0.85%, the phosphorus (P2O5) average content was 0.42%, 0.27% and 0.53%, the potassium (K2O) average content was 2.31%, 1.53% and 1.59%, respectively, and the total nutrient content of straw (N+P2O5+K2O) was expressed as rice>maize>wheat. The nutrient resources of three major grain crops straw were 5.098 million tons of N, 2.847 million tons of P2O5, and 11.83 million tons of K2O. The distribution of total nutrient components in different agricultural areas was as follows: Middle and Lower Reaches of Yangtze River (26.0%)>North China (25.4%)>Northeast China (21.3%)>Northwest China (11.1%)>Southwest China (10.5%)>Southeast China (5.6%). The release rates of nitrogen from rice, wheat and maize straw returning to the field were 54.9%, 51.4% and 61.9%, that of phosphorus were 60.9%, 65.3% and 73.0%, and that of potassium were 90.1%, 93.3% and 92.3%, respectively, which showed as potassium>phosphorus>nitrogen. The annual amount of nutrient returned to field from three major grain crops straw (the amount of substitution of chemical fertilizer) contained 2.940 million tons of N, 1.941 million tons of P2O5 and 10.839 million tons of K2O, with a total amount of 15.72 million tons. Among them, the nutrient (N+P2O5+K2O) release from maize straw return in the next crop growing period was the highest, accounting for 44.6% of the total amount of annual nutrient return. Straw incorporation had high potential of chemical fertilizer substitution for wheat production in China. In wheat monoculture area, the total wheat straw returning to the field could substitute chemical fertilizers input rate of 4.6 kg N·hm -2, 7.8 kg P2O5·hm -2and 65.3 kg K2O·hm -2 theoretically. In the wheat-maize rotation area, the total amount of maize straw returned to the field could substitute chemical fertilizers input rate of 39.4 kg N·hm -2, 28.9 kg P2O5·hm -2and 109.9 kg K2O·hm -2 in the wheat production season theoretically. In the rice-wheat rotation area, the total amount of rice straw returned to the field could substitute chemical fertilizers input rate of 29.9 kg N·hm -2, 17.8 kg P2O5·hm -2and 145.1 kg K2O·hm -2 in the wheat production season theoretically. 【Conclusion】The annual yield of rice, wheat and maize straw in China was 211.415 million tons, 148.431 million tons and 294.020 million tons, respectively, with a total of 653.866 million tons. The straws of three major grain crops could provide 2.940 million tons of N, 1.941 million tons of P2O5 and 10.839 million tons of K2O annually under straw returning. More than 70% of straw and nutrients resources were distributed in North China, Middle and Lower Reaches of the Yangtze River and Northeast China. In the wheat production area, the total amount of straw returned from the previous crop could substitute chemical fertilizers input rate of 4.6 to 39.4 kg N·hm -2, 7.8 to 28.9 kg P2O5·hm -2and 65.3 to145.1 kg K2O·hm -2 in theory.

Key words: straw yield, the amount of nutrient resources, chemical fertilizer reduction, wheat production

Table 1

The ratio of straw to grain of main crops in different literature"

作物
Crop		 文献
Reference[7]		 文献
Reference [8]		 文献
Reference [9]		 文献
Reference [10]		 文献
Reference [12]		 文献
Reference [15]		 加权平均值
Mean
水稻Rice 0.9(7) 1.0 (41) 1.02 (194) 1.05 (5) 1.01 (247)
小麦 Wheat 1.16(7) 1.17 (34) 1.27(437) 1.36 (257) 1.32 (4) 1.14 (839)
玉米Maize 1.75(6) 1.28(12) 1.04 (34) 1.25 (283) 1.63 (6) 1.25 (341)

Table 2

Straw yields of main grain crops in different agricultural regions of China (×104 t)"

农区 Agricultural region 水稻 Rice 小麦 Wheat 玉米 Maize 总量 Total
东北 Northeast China 3566.7±292.3 41.6±10.6 9903.7± 809.5 13512.1±1090.1
华北North China 693.2±19.3 8752.0±281.2 8926.7±991.8 18371.9±1233.8
长江中下游 Middle and lower Yangtze River areas 10714.9±284.6 3622.7±235.1 1689.9±168.8 16027.5± 681.3
西北 Northwest China 300.4±28.5 1825.8±76.6 5558.4±420.3 7684.5±401.6
西南 Southwest China 3082.8±118.9 599.6±141.5 2872.6±345.3 6555.0±131.4
东南 Southeast China 2783.5±164.0 1.5± 0.7 450.8±26.2 3235.7±188.1
全国 The whole country 21141.5±291.2 14843.1±344.0 29402.0±2645.4 65386.6±3244.4

Table 3

Nutrient content in straw of main grain crops in China"

作物
Crop		 养分
Nutrient		 最小值
Minimum value		 最大值
Maximum value		 95%置信区间
95% confidence interval		 平均值
Mean		 样本数
Sample number
水稻
Rice		 N 0.21 2.00 0.72-0.83 0.78 110
P2O5 0.06 1.99 0.35-0.50 0.42 99
K2O 0.1 4.79 2.11-2.52 2.31 97
小麦
Wheat		 N 0.36 1.16 0.60-0.69 0.64 60
P2O5 0.06 0.87 0.21-0.30 0.27 47
K2O 0.25 3.58 1.32-1.74 1.53 45
玉米
Maize		 N 0.32 2.30 0.79-0.91 0.85 111
P2O5 0.08 2.20 0.43-0.62 0.53 90
K2O 0.11 3.87 1.44-1.75 1.59 88

Table 4

Straw nutrient resources quantities of main grain crops in different agricultural regions of China"

农区
Agricultural region		 作物
Crop		 养分资源量 Nutrient resources quantity (×104 t)
N P2O5 K2O
东北 Northeast China 水稻 Rice 27.8±2.3 15.0±1.2 82.4±6.8
小麦 Wheat 0.3±0.1 0.1±0.0 0.6±0.2
玉米 Maize 84.2±6.9 52.5±4.3 157.5±12.9
华北North China 水稻 Rice 5.4±0.2 2.9±0.1 16.0±0.4
小麦 Wheat 56.0±1.8 23.6±0.8 133.9±4.3
玉米 Maize 75.9±8.4 47.3±5.3 141.9±15.8
长江中下游
Middle and lower Yangtze River areas		 水稻 Rice 83.6±2.2 45.0±1.2 247.5±6.6
小麦 Wheat 23.2±1.5 9.8±0.6 55.4±3.6
玉米 Maize 14.4±1.4 9.0±0.9 26.9±2.7
西北 Northwest China 水稻 Rice 2.3±0.2 1.3±0.1 6.9±0.7
小麦 Wheat 11.7±0.5 4.9±0.2 27.9±1.2
玉米 Maize 47.2±3.6 29.5±2.2 88.4±6.7
西南 Southwest China 水稻 Rice 24.0±0.9 12.9±0.5 71.2±2.7
小麦 Wheat 3.8±0.9 1.6±0.4 9.2±2.2
玉米 Maize 24.4±2.9 15.2±1.8 45.7±5.5
东南 Southeast China 水稻 Rice 21.7±1.3 11.7±0.7 64.3±3.8
小麦 Wheat
玉米 Maize 3.8±0.2 2.4±0.1 7.2±0.4
全国 The whole country 水稻 Rice 164.9±2.3 88.8±1.2 488.4±6.7
小麦 Wheat 95.0±2.2 40.1±0.9 227.1±5.3
玉米 Maize 249.9±22.5 155.8±14.0 467.5±42.1
总计Total 509.8±26.7 284.7±16.1 1183.0±53.5

Table 5

Nutrients release rate of main grain crop straw during the next crop growth period in China"

秸秆腐解及养分释放率
Rate of straw decomposition and nutrients release		 水稻
Rice		 小麦
Wheat		 玉米
Maize
秸秆腐解率 Straw decomposition rate (%) 58.6±11.8(29) 60.0±10.0(23) 57.9±16.9(75)
氮释放率 N release rate (%) 54.9±14.4(30) 51.4±8.8(21) 61.9±18.5(55)
磷释放率 P release rate (%) 60.9±22.4(28) 65.3±15.7(21) 73.0±18.4(55)
钾释放率 K release rate (%) 90.1±11.6(27) 93.3±8.3(20) 92.4± 6.8(54)

Table 6

Straw nutrient-returning quantities of main grain crops in different agricultural regions of China"

农区
Agricultural region		 作物
Crop		 养分归还量 Nutrient-returning amount (×104 t)
N P2O5 K2O
东北 Northeast China 水稻 Rice 15.3±1.3 9.1±0.7 74.2±6.1
小麦 Wheat 0.1±0.0 0.1±0.0 0.6±0.2
玉米 Maize 52.1±4.3 38.3±3.1 145.5±11.9
华北North China 水稻 Rice 3.0±0.1 1.8±0.0 14.4±0.4
小麦 Wheat 28.8±0.9 15.4±0.5 124.9±4.0
玉米 Maize 47.0±5.2 34.5±3.8 131.1±14.6
长江中下游
Middle and lower Yangtze River areas		 水稻 Rice 45.9±1.2 27.4±0.7 223.0±5.9
小麦 Wheat 11.9±0.8 6.4±0.4 51.7±3.4
玉米 Maize 8.9±0.9 6.5±0.7 24.8±2.5
西北 Northwest China 水稻 Rice 1.3±0.1 0.8±0.1 6.3±0.6
小麦 Wheat 6.0±0.3 3.2±0.1 26.1±1.1
玉米 Maize 29.2±2.2 21.5±1.6 81.7±6.2
西南 Southwest China 水稻 Rice 13.2±0.5 7.9±0.3 64.2±2.5
小麦 Wheat 2.0±0.5 1.1±0.2 8.6±2.0
玉米 Maize 15.1±1.8 11.1±1.3 42.2±5.1
东南 Southeast China 水稻 Rice 11.9±0.7 7.1±0.4 57.9±3.4
小麦 Wheat
玉米 Maize 2.4±0.1 1.7±0.1 6.6±0.4
全国 The whole country 水稻 Rice 90.5±1.2 54.1±0.7 440.0±6.1
小麦 Wheat 48.8±1.1 26.2±0.6 211.9±4.9
玉米 Maize 154.7±13.9 113.8±10.2 432.0±38.9
总计Total 294.0±16.2 194.1±11.5 1083.9±49.3

Table 7

Nutrients substitution quantities through straw-returning under different wheat cropping systems in China (kg·hm-2)"

小麦种植制度
Wheat cropping systems		 前茬作物秸秆量
Straw quantities from previous crop		 秸秆还田养分替代量
Nutrients substitution quantities through straw-returning
N P2O5 K2O
一年一作小麦(北方旱作麦区)
Wheat monoculture (Dryland wheat production region in north China )		 4448.3 14.6 7.8 63.5
小麦玉米轮作 Wheat-maize rotation 7482.2 39.4 28.9 109.9
稻麦轮作 Rice-wheat rotation 6971.0 29.9 17.8 145.1

Table 8

Recommended fertilization rate of wheat based on soil nutrient content under different wheat cropping systems in China"

小麦种植制度
Wheat cropping systems		 小麦产量水平
Yield level
of wheat
(kg·hm-2)		 土壤养分含量
Soil nutrient content		 小麦推荐施肥量
Recommended fertilization rate of wheat (kg·hm-2)
土壤硝态氮
Soil nitrate nitrogen (kg·hm-2)		 土壤有效磷
Soil available P
(P, mg·kg-1)		 土壤速效钾
Soil available K
(K, mg·kg-1)		 N P2O5 K2O
一年一作小麦[130,131]
(北方旱作麦区)
Wheat monoculture (Dryland wheat production region in north China)		 4000 <50 <5 <120 192 88 108
50—100 5—10 120—150 147 66.0 54
100—150 10—15 150—200 97 44.0 32
150—200 15—20 >200 47 22.0 0
>200 >20 30 13
小麦玉米轮作[5,131-133]
Wheat-maize rotation		 7500 <7 <90 175—184 160 60
7—14 90—120 130 30
14—30 120—150 100 0
30—40 >150 50 0
>40 0
稻麦轮作[131-133,5]
Rice-wheat rotation		 6000 <5 <50 150—225 140 120
5—10 50—100 105 90
10—20 100—130 70 60
20—30 130—160 35 30
>30 >160 0 0
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