稻茬过晚播小麦高产密度和氮肥调控效应分析

doi:10.16035/j.issn.1001-7283.2023.04.019

摘要/Abstract

摘要：

为了探索适宜过晚播小麦的高产稳产栽培技术，针对过晚播（较适播期推迟30d以上）小麦，采用播种密度、施氮量和氮肥运筹三因素裂区试验，研究不同栽培技术组合对产量、氮素利用率、品质以及经济效益的影响。结果表明，密度、施氮量以及氮肥运筹对过晚播小麦产量、氮素利用率、品质形成以及经济效益有显著的调控效应，产量随密度的增加呈先增后降趋势，以330万株/hm²时产量最高；5:1:2:2与6:0:2:2氮肥运筹处理的产量高于4:2:1:3运筹处理。随密度和施氮量的增加，纯收入先增加后下降，6:0:2:2氮肥运筹处理的纯收入较高。在基本苗330万株/hm²、施氮量225kg/hm²、氮肥运筹5:1:2:2和6:0:2:2处理下，氮肥偏生产力、氮素生理效率、氮素表观利用率和产量均较高。随密度增加，蛋白质含量呈下降趋势，湿面筋含量与沉降值则先增加后降低，容重持续增加；随着施氮量增加，蛋白质、湿面筋含量及沉降值均增加，淀粉含量与容重表现则相反。综合考虑，扬麦23过晚播条件下适宜栽培技术组合为基本苗330万株/hm²左右、施氮量225kg/hm²、磷、钾肥用量均为90kg/hm²、基肥:分蘖肥:拔节肥:孕穗肥=5:1:2:2或6:0:2:2时，可获得6750kg/hm²以上目标产量。

关键词: 小麦, 过晚播, 产量, 品质, 氮效率, 经济效益, 高产栽培技术

Abstract:

In order to explore the high and stable yield technology suitable for the late sowing wheat, three factors (planting density, nitrogen application rate and nitrogen fertilizer management) were used to test the effects of different cultivation techniques on yield, nitrogen use efficiency, quality and economic benefits by agronomic management under super-late sowing condition (more than 30 days than suitable sowing date). The results showed that density, N application rate, and nitrogen fertilizer management had significant regulatory effects on super-late sowing wheat yield, N use efficiency, quality formation, and economic benefits. With the increase of planting density, the yield presented a trend of first increased and then decreased. The yield was highest at density 3.30×10⁶/ha; and the yields of 5:1:2:2 and 6:0:2:2 treatments were higher than that of 4:2:1:3 treatment. With the increase of density and nitrogen application rate, the net income first increased and then decreased, and the net income of 6:0:2:2 treatment was higher. Under the conditions of planting density 3.30×10⁶/ha, nitrogen fertilizer 225kg/ha, nitrogen applied ratios of 5:1:2:2 and 6:0:2:2, the N fertilizer partial productivity, N physiological efficiency, N apparent utilization rate and yields were higher. As the planting density increased, the protein content showed a downward trend, the wet gluten content and sedimentation value first increased and then decreased, the bulk weight increased continuously. Increasing the nitrogen fertilizer, protein content, wet gluten content and sedimentation value all increased, the starch content and bulk weight were opposite. When the cultivation combination was planting density 3.30×10⁶/ha, nitrogen fertilizer 225kg/ha, P and K fertilizers 90kg/ha, nitrogen applied ratios of basis:tillering:jointing:booting=5:1:2:2 or 6:0:2:2, Yangmai 23 could obtain target yield above 6750kg/ha under super-late sowing condition.

Key words: Wheat, Super-late sowing, Yield, Quality, Nitrogen efficiency, Economic benefits, High yield cultivation techniques

张明伟, 丁锦峰, 朱新开, 郭文善. 稻茬过晚播小麦高产密度和氮肥调控效应分析[J]. 作物杂志, 2023 (4): 126–135

Zhang Mingwei, Ding Jinfeng, Zhu Xinkai, Guo Wenshan. Analysis of High-Yielding Planting Density and Nitrogen Application in Super-Late Sowing Wheat Following Rice[J]. Crops, 2023(4): 126–135

图/表 7

表1

密度和氮肥处理对过晚播小麦产量及其构成的影响（2015-2016）

种植密度 Planting density (×10⁴/hm²)	施氮量 N amount (kg/hm²)	氮肥运筹 N ratio	穗数 Spike number (×10⁴/hm²)	穗粒数 Grain number per spike	千粒重 1000-grain weight (g)	产量 Yield (kg/hm²)
270	180	4:2:1:3	413.06g	36.55abcd	40.17abc	5548.36f
		5:1:2:2	419.05fg	37.21abc	39.62abcd	5789.43ef
		6:0:2:2	423.34fg	36.69abcd	39.41abcd	5798.02ef
	225	4:2:1:3	436.41efg	36.83abcd	40.25abc	5793.80ef
		5:1:2:2	447.25defg	37.76a	40.10abc	6044.86bcdef
		6:0:2:2	440.87defg	36.98abcd	40.11abc	5909.67def
	270	4:2:1:3	442.03defg	37.69ab	39.75abcd	5989.51cdef
		5:1:2:2	459.90cdefg	37.00abcd	39.52abcd	6071.84bcdef
		6:0:2:2	458.33cdefg	37.51ab	39.60abcd	6177.70abcdef
330	180	4:2:1:3	457.50cdefg	35.97abcdef	40.26abc	6153.08bcdef
		5:1:2:2	472.44bcdef	35.87abcdef	40.10abc	6353.17abcdef
		6:0:2:2	468.00bcdefg	35.96abcdef	39.49abcd	6328.16abcdef
	225	4:2:1:3	473.00bcdef	36.49abcdef	40.57a	6553.33abcde
		5:1:2:2	495.14abcd	36.23abcdef	40.09abc	6803.40abcd
		6:0:2:2	490.50abcde	36.16abcdef	40.05abc	6728.31abcd
	270	4:2:1:3	507.69abc	36.58abcd	40.39ab	6783.44abcd
		5:1:2:2	522.25ab	36.70abcd	39.54abcd	6953.47ab
		6:0:2:2	518.08ab	36.86abcd	39.98abc	7093.40a
390	180	4:2:1:3	482.00abcde	34.32ef	40.49a	6298.35abcdef
		5:1:2:2	488.12abcde	35.15cdef	40.23abc	6379.72abcdef
		6:0:2:2	474.00abcdef	34.29f	40.37ab	6249.52abcdef
	225	4:2:1:3	488.80abcde	34.84def	40.34abc	6542.47abcde
		5:1:2:2	513.03abc	34.97def	38.75d	6553.27abcde
		6:0:2:2	512.17abc	35.76abcdef	40.30abc	6763.38abcd
	270	4:2:1:3	519.29ab	35.07cdef	39.74abcd	6703.35abcde
		5:1:2:2	530.12a	35.20cdef	39.15cd	6769.90abcd
		6:0:2:2	530.00a	35.59bcdef	39.18bcd	6836.55abc
F
种植密度Planting density			102.51^**	54.89^**	2.85	97.57^**
施氮量N amount			39.68^**	5.86^**	9.46^**	37.48^**
氮肥运筹N ratio			4.59^*	0.53ns	14.36^**	5.08^*
密度×施氮量Density×N amount			0.67ns	0.15ns	6.36^**	1.23ns
密度×氮肥运筹Density×N ratio			0.08ns	0.46ns	2.31ns	0.38ns
施氮量×氮肥运筹N amount×N ratio			0.28ns	0.71ns	2.10ns	0.31ns
密度×施氮量×氮肥运筹Density×N amount×N ratio			0.28ns	0.78ns	2.21^*	0.38ns

表1

表2

密度和氮肥处理对过晚播小麦产量及其构成因素的影响（2016-2017）

种植密度 Planting density (×10⁴/hm²)	施氮量 N amount （kg/hm²）	氮肥运筹 N ratio	穗数 Spike number (×10⁴/hm²)	穗粒数 Grain number per spike	千粒重 1000-grain weight (g)	产量 Yield (kg/hm²)
270	180	4:2:1:3	427.50f	36.88abcd	40.68abc	6225.61g
		5:1:2:2	504.00abcde	37.09abcd	39.97abcdef	6396.70fg
		6:0:2:2	502.50abcde	36.95abcd	39.45def	6353.93fg
	225	4:2:1:3	509.50abcde	37.78abc	40.19abcdef	6372.93fg
		5:1:2:2	509.00abcde	37.18abcd	40.38abcde	6482.24efg
		6:0:2:2	521.00abc	37.47abcd	40.08abcdef	6486.99efg
	270	4:2:1:3	499.50abcdef	37.60abc	40.93a	6577.29defg
		5:1:2:2	507.30abcde	37.96ab	40.87ab	6586.79defg
		6:0:2:2	503.00abcde	38.26a	40.40abcd	6601.05cdefg
330	180	4:2:1:3	448.24cdef	36.16abcd	39.31def	6491.74efg
		5:1:2:2	451.62bcdef	36.52abcd	39.23def	6629.56bcdefg
		6:0:2:2	440.52ef	36.48abcd	39.19ef	6928.96abcdefg
	225	4:2:1:3	457.89bcdef	36.71abcd	39.42def	7176.09abcde
		5:1:2:2	453.55bcdef	37.17abcd	39.33def	7342.42ab
		6:0:2:2	446.80def	36.81abcd	39.03f	7398.46a
	270	4:2:1:3	450.66bcdef	36.37abcd	39.69bcdef	6985.99abcdef
		5:1:2:2	458.38bcdef	37.08abcd	40.12abcdef	7326.18abc
		6:0:2:2	477.50abcdef	36.87abcd	39.95abcdef	7347.17ab
390	180	4:2:1:3	485.50abcdef	35.71cd	39.50cdef	6762.63abcdefg
		5:1:2:2	509.50abcde	35.90bcd	39.47def	6881.44abcdefg
		6:0:2:2	522.50ab	36.14abcd	39.16f	6938.47abcdefg
	225	4:2:1:3	536.00a	36.11abcd	39.69bcdef	7195.10abcde
		5:1:2:2	509.00abcde	36.65abcd	39.44def	7204.60abcde
		6:0:2:2	509.50abcde	35.36d	40.09abcdef	7247.37abcd
	270	4:2:1:3	517.50abcd	36.75abcd	39.81abcdef	7033.52abcdef
		5:1:2:2	485.50abcdef	37.03abcd	39.35def	7223.61abcd
		6:0:2:2	493.50abcdef	36.93abcd	39.47def	7047.77abcdef
F
密度Density			55.06^**	16.58^**	41.658^**	64.51^**
施氮量N amount			5.45^**	7.04^**	12.669^**	22.03^**
氮肥运筹N ratio			3.14ns	0.90ns	3.34^*	4.25^*
密度×施氮量Density×N amount			0.75ns	1.06ns	3.44^*	3.15^*
密度×氮肥运筹Density×N ratio			0.22ns	0.45ns	2.21ns	0.95ns
施氮量×氮肥运筹N amount×N ratio			0.23ns	0.67ns	1.20ns	0.35ns
密度×施氮量×氮肥运筹Density×N amount×N ratio			0.11ns	0.41ns	1.15ns	0.26ns

表2

表3

过晚播小麦不同密度和氮肥处理对氮肥利用效率的影响（2015-2016）

密度 Density (×10⁴/hm²)	施氮量 N amount (kg/hm²)	氮肥运筹 N ratio	氮肥偏生产力 NFPP (kg/kg)	氮素农学效率 NAE (kg/kg)	氮素生理效率 NPE (kg/kg)	氮素表观利用率 NAR (%)
270	180	4:2:1:3	30.82bc	8.73ghij	21.99ghij	39.70jkl
		5:1:2:2	32.16b	10.07defg	22.32gh	45.10fg
		6:0:2:2	32.21b	10.12defg	21.07ij	48.02e
	225	4:2:1:3	25.75ef	8.07hij	21.28hij	37.95l
		5:1:2:2	26.87e	9.19fghi	21.61ghij	42.53ghij
		6:0:2:2	26.27ef	8.59ghij	20.80jk	41.31hijk
	270	4:2:1:3	22.18g	7.45j	19.76kl	37.73l
		5:1:2:2	22.49g	7.76ij	18.95l	40.95ijk
		6:0:2:2	22.88g	8.15hij	19.66kl	41.47hijk
330	180	4:2:1:3	34.18a	11.51abcd	24.22de	47.53ef
		5:1:2:2	35.30a	12.62a	23.58ef	53.54ab
		6:0:2:2	35.16a	12.48ab	23.79ef	52.49bc
	225	4:2:1:3	29.13d	10.99bcde	25.63bc	42.88ghi
		5:1:2:2	30.24cd	12.10abc	24.61cde	49.16de
		6:0:2:2	29.90cd	11.77abc	24.61cde	47.81ef
	270	4:2:1:3	25.12f	10.01defg	26.27b	38.10l
		5:1:2:2	25.75ef	10.64cdef	25.21bcd	42.20hij
		6:0:2:2	26.27ef	11.16abcd	27.79a	40.15ijkl
390	180	4:2:1:3	34.99a	11.13abcd	22.24ghi	50.02cde
		5:1:2:2	35.44a	11.58abcd	21.83ghij	53.03ab
		6:0:2:2	34.72a	10.86cde	19.44l	55.84a
	225	4:2:1:3	29.08d	9.99defg	22.72fg	43.96gh
		5:1:2:2	29.13d	10.03defg	19.69kl	50.96bcd
		6:0:2:2	30.06cd	10.97bcde	21.24hij	51.63bcd
	270	4:2:1:3	24.83f	8.92ghij	22.74fg	39.21kl
		5:1:2:2	25.07f	9.16fghi	21.39hij	42.85ghi
		6:0:2:2	25.32ef	9.41efgh	21.43hij	43.91gh
F
密度Density			55.06^**	16.58^**	41.658^**	64.51^**
施氮量N amount			5.45^**	7.04^**	12.669^**	22.03^**
氮肥运筹N ratio			3.14ns	0.90ns	3.34^*	4.25^*
密度×施氮量Density×N amount			0.75ns	1.06ns	3.44^*	3.15^*
密度×氮肥运筹Density×N ratio			0.22ns	0.45ns	2.21^*	0.95ns
施氮量×氮肥运筹N amount×N ratio			0.23ns	0.67ns	1.20ns	0.35ns
密度×施氮量×氮肥运筹Density×N amount×N ratio			0.11ns	0.41ns	1.15ns	0.26ns

表3

表4

过晚播小麦不同密肥处理间氮肥利用效率的影响（2016-2017）

密度 Density (×10⁴/hm²)	施氮量 N amount (kg/hm²)	氮肥运筹 N ratio	氮肥偏生产力 NFPP (kg/kg)	氮素农学效率 NAE (kg/kg)	氮素生理效率 NPE (kg/kg)	氮素表观利用率 NAR (%)
270	180	4:2:1:3	34.59abc	11.35abcdefg	28.40abc	39.98bcdefgh
		5:1:2:2	35.54abc	12.30abc	28.33abc	43.43abcdefg
		6:0:2:2	35.30abc	12.07abcd	25.96abcd	46.48abcde
	225	4:2:1:3	28.32efg	9.74defgh	27.53abcd	35.36fgh
		5:1:2:2	28.81def	10.22cdefgh	25.45bcd	40.17bcdefgh
		6:0:2:2	28.83def	10.24cdefgh	26.34abcd	38.89bcdefgh
	270	4:2:1:3	24.36g	8.87gh	25.25bcd	35.14gh
		5:1:2:2	24.40g	8.91gh	23.34cd	38.15cdefgh
		6:0:2:2	24.45g	8.96gh	24.07bcd	37.21defgh
330	180	4:2:1:3	36.07abc	11.06abcdefgh	28.20abc	39.23bcdefgh
		5:1:2:2	36.83ab	11.83abcde	25.14bcd	47.05abcd
		6:0:2:2	38.49a	13.49a	29.35ab	45.97abcde
	225	4:2:1:3	31.89cde	11.89abcde	31.55a	37.69defgh
		5:1:2:2	32.63b-e	12.63abc	28.05abcd	45.02abcdef
		6:0:2:2	32.88bcd	12.88ab	27.85abcd	46.25abcde
	270	4:2:1:3	25.87fg	9.21fgh	28.74abc	32.03h
		5:1:2:2	27.13fg	10.47bcdefgh	27.49abcd	38.07cdefgh
		6:0:2:2	27.21fg	10.54bcdefgh	29.33ab	35.95fgh
390	180	4:2:1:3	37.57a	11.72abcde	26.37abcd	44.46abcdefg
		5:1:2:2	38.23a	12.38abc	26.04abcd	47.55abc
		6:0:2:2	38.55a	12.70abc	25.17bcd	50.45a
	225	4:2:1:3	31.98cde	11.30a-h	27.15abcd	41.62abcdefgh
		5:1:2:2	32.02cde	11.34abcdefg	23.37cd	48.53ab
		6:0:2:2	32.21cde	11.53abcdef	24.51bcd	47.06abcd
	270	4:2:1:3	26.05fg	8.82h	23.58bcd	37.39defgh
		5:1:2:2	26.75fg	9.52efgh	23.75bcd	40.10bcdefgh
		6:0:2:2	26.10fg	8.87gh	22.33d	39.73bcdefgh
F
密度Density			40.23^**	19.02^**	31.11^**	18.06^**
施氮量N amount			485.32^**	96.05^**	7.67^**	50.14^**
氮肥运筹N ratio			2.92ns	8.71^**	7.37^**	26.24^**
密度×施氮量Density×N amount			1.97ns	5.45^**	4.03^*	3.11^*
密度×氮肥运筹Density×N ratio			0.61ns	1.82ns	1.26ns	0.88ns
施氮量×氮肥运筹N amount×N ratio			0.37ns	1.10ns	1.23ns	1.29ns
密度×施氮量×氮肥运筹Density×N amount×N ratio			0.17ns	0.51ns	1.48ns	0.38ns

表4

表5

表6

表7

Effects of density and nitrogen on economic benefit of super-late sowing wheat 元/hm2 yuan/hm2

密度 Density (×10⁴/hm²)	施氮量 N amount (kg/hm²)	氮肥运筹 N ratio	2015-2016			2016-2017
密度 Density (×10⁴/hm²)	施氮量 N amount (kg/hm²)	氮肥运筹 N ratio	总收入 General income	成本 Cost	纯收入 Net income	总收入 General income	成本 Cost	纯收入 Net income
270	180	4:2:1:3	10 430.92j	7882.34	2548.57m	14 194.39i	7882.34	6312.05jk
		5:1:2:2	10 884.13ij	7882.34	3001.78klm	14 584.48ghi	7882.34	6702.13ghijk
		6:0:2:2	10 900.27ij	7582.34	3317.93ghijkl	14 486.96hi	7582.34	6904.62ghijk
	225	4:2:1:3	10 892.34ij	8300.43	2591.91m	14 530.28hi	8300.43	6229.85k
		5:1:2:2	11 364.34fghi	8300.43	3063.91jklm	14 779.51ghi	8300.43	6479.08ijk
		6:0:2:2	11 110.18hi	8000.43	3109.75ijklm	14 790.34ghi	8000.43	6789.91ghijk
	270	4:2:1:3	11 260.28ghi	8718.51	2541.77m	14 996.22fghi	8718.51	6277.71jk
		5:1:2:2	11 415.06fghi	8718.51	2696.54lm	15 017.88fghi	8718.51	6299.37jk
		6:0:2:2	11 614.08fgh	8418.51	3195.57hijklm	15 050.40fgh	8418.51	6631.88hijk
330	180	4:2:1:3	11 567.78fgh	8029.01	3538.77fghijk	14 801.17ghi	8029.01	6772.16ghijk
		5:1:2:2	11 943.97ef	8029.01	3914.96bcdefg	15 115.40efgh	8029.01	7086.39efghij
		6:0:2:2	11 896.95efg	7729.01	4167.94abcdef	15 798.03cdef	7729.01	8069.02abcd
	225	4:2:1:3	12 320.25cde	8447.09	3873.16bcdefg	16 361.49abc	8447.09	7914.39abcde
		5:1:2:2	12 790.39abc	8447.09	4343.30abcd	16 740.72ab	8447.09	8293.62ab
		6:0:2:2	12 649.23bcd	8147.09	4502.13ab	16 868.49a	8147.09	8721.39a
	270	4:2:1:3	12 752.87abc	8865.18	3887.69bcdefg	15 928.06bcde	8865.18	7062.88efghijk
		5:1:2:2	13 072.53ab	8865.18	4207.35abcde	16 703.69ab	8865.18	7838.51bcdef
		6:0:2:2	13 335.58a	8565.18	4770.40a	16 751.55ab	8565.18	8186.37abc
390	180	4:2:1:3	11 840.89efg	8175.68	3665.22efghij	15 418.8defg	8175.68	7243.12defghi
		5:1:2:2	11 993.88def	8175.68	3818.20cdefgh	15 689.68cdef	8175.68	7514.01bcdefg
		6:0:2:2	11 749.10efgh	7875.68	3873.43bcdefg	15 819.71cdef	7875.68	7944.04abcd
	225	4:2:1:3	12 299.84cde	8593.76	3706.08defghij	16 404.83abc	8593.76	7811.07bcdef
		5:1:2:2	12 320.16cde	8593.76	3726.40defghi	16 426.49abc	8593.76	7832.73bcdef
		6:0:2:2	12 715.15abc	8293.76	4421.39abc	16 524.00abc	8293.76	8230.24ab
	270	4:2:1:3	12 602.30bcd	9011.85	3590.45efghijk	16 036.43abcd	9011.85	7024.58fghijk
		5:1:2:2	12 727.41abc	9011.85	3715.57defghij	16 469.83abc	9011.85	7457.98bcdefgh
		6:0:2:2	12 852.72abc	8711.85	4140.87abcdef	16 068.92abcd	8711.85	7357.07cdefgh
F
密度Density			97.57^**		70.49^**	64.51^**		46.45^**
施氮量N amount			37.48^**		1.17ns	22.03^**		6.49^**
氮肥运筹N ratio			5.08^**		16.01^**	4.25^*		11.81^**
密度×施氮量Density×N amount			1.23ns		1.23ns	3.15^*		3.15^*
密度×氮肥运筹Density×N ratio			0.38ns		0.38ns	0.95ns		0.95ns
施氮量×氮肥运筹N amount×N ratio			0.31ns		0.31ns	0.35ns		0.35ns
密度×施氮量×氮肥运筹Density×N amount×N ratio			0.38ns		0.38ns	0.26ns		0.26ns

表7

参考文献 28

[1]	吴光磊, 郭立月, 崔正勇, 等. 氮肥运筹对晚播冬小麦氮素和干物质积累与转运的影响. 生态学报, 2012, 32(16):5128-5137.
[2]	张金宝, 秦霞, 孙佩贤, 等. 黄淮麦区种植密度对晚播冬小麦花后氮素代谢和利用率的影响. 西北农林科技大学学报:自然科学版, 2010, 38(12):112-116,122.
[3]	朱新开, 郭文善, 周君良, 等. 氮素对不同类型专用小麦营养和加工品质调控效应. 中国农业科学, 2003, 36(6):640-645.
[4]	杨珍平, 周乃健, 苗果园. 晋中晚熟冬麦区不同群体模式小麦光合性能分析. 作物学报, 2004, 30(9):878-882.
[5]	刘万代, 陈现勇, 尹钧, 等. 播期和密度对冬小麦豫麦49-198 群体性状和产量的影响. 麦类作物学报, 2009, 29(3):464-469.
[6]	屈会娟, 李金才, 沈学善, 等. 种植密度和播期对周麦18碳氮转运、籽粒淀粉及蛋白质含量的影响. 中国粮油学报, 2009, 24(10):23-27.
[7]	赵广才, 张艳, 刘利华, 等. 施肥和密度对小麦产量及加工品质的影响. 麦类作物学报, 2005, 25(5):56-59.
[8]	王竟绍, 董召荣, 张健, 等. 密度、氮肥基追比例对不同穗型小麦产量的影响. 安徽农业大学学报, 2011, 38(1):14-19.
[9]	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, 17(4):815-822.
[10]	Kibe A M, Singh S, Kalra N. Water-nitrogen relationships for wheat growth and productivity in late sown conditions. Agricultural Water Management, 2006, 84(3):221-228. doi: 10.1016/j.agwat.2006.02.010
[11]	Martin R J, Sutton K H, Moyle T N, et al. Effect of nitrogen fertilizer on the yield and quality of six cultivars of autumn-sown wheat. New Zealand Journal of Experimental Agriculture, 1992, 20(3):273-282.
[12]	戴廷波, 孙传范, 荆奇, 等. 不同施氮水平和基追比对小麦籽粒品质形成的调控. 作物学报, 2005, 31(2):248-253.
[13]	孙和平, 魏广彬, 段云辉, 等. 苏南地区迟播小麦丰产高效氮肥定量与运筹技术. 江苏农业科学, 2014, 42(11):106-107.
[14]	马兴华, 于振文, 梁晓芳, 等. 施氮量和底追比例对小麦氮素吸收利用及子粒产量和蛋白质含量的影响. 植物营养与肥料学报, 2006, 12(2):2150-2155.
[15]	王月福, 姜东, 于振文, 等. 高低土壤肥力下小麦基施和追施氮肥的利用效率和增产效应. 作物学报, 2003, 29(4):491-495.
[16]	屈会娟, 李金才, 魏凤珍, 等. 不同播期对冬小麦碳氮运转和产量的影响. 安徽农业科学, 2007, 35(14):4161-4162.
[17]	李金才, 屈会娟, 魏凤珍. 氮素运筹技术对冬小麦籽粒产量和品质的影响. 河南农业科学, 2005, 34(2):8-11. doi: 10.3969/j.issn.1004-3268.2005.02.002
[18]	束林华, 朱新开, 陶红娟, 等. 施氮量对弱筋小麦扬辐麦2号产量和品质调节效应. 扬州大学学报(农业与生命科学版), 2007, 28(2): 37-41.
[19]	张耀兰, 曹承富, 乔玉强, 等. 超晚播条件下密度和追氮时期对淮北地区小麦产量及品质的影响. 中国农学通报, 2012, 28(36):160-164.
[20]	霍中洋, 葛鑫, 张洪程, 等. 施氮方式对不同专用小麦氮素吸收及氮肥利用率的影响. 作物学报, 2004, 30(5):449-454.
[21]	石玉, 于振文. 施氮量和氮肥底追比例对济麦20产量、品质及氮肥利用率的影响. 麦类作物学报, 2010, 30(4):710-714.
[22]	曹倩, 贺明荣, 代兴龙, 等. 氮密互作对小麦花后光合特性及籽粒产量的影响. 华北农学报, 2012, 27(4):206-212. doi: 10.3969/j.issn.1000-7091.2012.04.040
[23]	朱新开, 郭文善, 范琦, 等. 小麦不同产量群体干物质积累指标差异研究. 天津农学院学报, 2004, 11(3):10-15.
[24]	乔玉强, 曹承富, 杜世州, 等. 氮肥运筹和播种密度对晚播小麦群体总茎数及产量的影响. 华北农学报, 2014, 29(2):204-207. doi: 10.7668/hbnxb.2014.02.038
[25]	姚金保, 杨学明, 马鸿翔, 等. 拔节期追施氮肥对宁麦16产量和品质的影响. 麦类作物学报, 2010, 30(4):727-730.
[26]	杨永乐, 金彦刚, 任仰涛, 等. 播期、密度和氮肥运筹对瑞华麦520产量和品质的影响. 麦类作物学报, 2021, 41(3):348-354.
[27]	郭伟, 于立河, 薛盈文, 等. 不同种植密度下施肥对强筋春小麦品质形成的调控效应. 麦类作物学报, 2008, 159(1):102-106.
[28]	杨扎根, 王姣爱, 裴雪霞, 等. 不同追氮时期对两种筋型小麦产量和品质的影响. 中国土壤与肥料, 2008, 215(3):32-34.

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年份 Year	因子 Factor	蛋白质含量 Protein content (%)	湿面筋含量 Wet gluten content (%)	淀粉含量 Starch content (%)	容重 Bulk weight (g/L)	沉降值 Sedimentation value (mL)
2015-2016	密度	36.64^**	11.04^**	21.34^**	3.11ns	21.31^**
	施氮量	173.71^**	30.49^**	10.67^**	3.42^*	49.72^**
	氮肥运筹	18.69^**	1.63ns	0.97ns	0.53ns	3.96^*
	密度×施氮量	5.59^**	0.58ns	1.93ns	0.02ns	1.97ns
	密度×氮肥运筹	3.02^*	1.37ns	4.21^**	0.04ns	0.37ns
	施氮量×氮肥运筹	2.17ns	0.96ns	0.97ns	0.47ns	1.07ns
	密度×施氮量×氮肥运筹	3.49^**	0.61ns	3.38^**	0.21ns	3.18^*
2016-2017	密度	192.58^**	171.26^**	1.69ns	2.29ns	25.07^**
	施氮量	262.42^**	180.07^**	31.74^**	1.25ns	108.54^**
	氮肥运筹	39.09^**	0.06ns	13.51^**	0.02ns	1.39ns
	密度×施氮量	18.05^**	10.46^**	6.26^**	0.73ns	12.83^**
	密度×氮肥运筹	3.85^*	27.78^**	10.85^**	1.08ns	6.09^**
	施氮量×氮肥运筹	6.92^**	8.31^**	3.15^*	0.36ns	3.16ns
	密度×施氮量×氮肥运筹	4.20^**	11.29^**	8.10^**	0.45ns	6.58^**

年份 Year	因素 Factor	蛋白质含量 Protein content (%)	湿面筋含量 Wet gluten content (%)	淀粉含量 Starch content (%)	容重 Bulk weight (g/L)	沉降值 Sedimentation value (mL)
2015-2016	密度 (×10⁴/hm²)
	270	15.17a	31.74a	62.19a	848.54b	39.43b
	330	14.89a	32.52a	61.58a	849.70b	41.41a
	390	14.55a	31.10a	62.78a	857.46a	38.93b
	施氮量 (kg/hm²)
	180	14.21b	30.61b	62.61a	855.60a	37.70b
	225	14.85ab	31.78ab	62.17a	854.00a	40.49a
	270	15.55a	33.98a	61.77a	846.10b	41.58a
	氮肥运筹
	4:2:1:3	15.12a	32.08a	62.04a	849.72a	40.39a
	5:1:2:2	14.76a	31.76a	62.21a	852.34a	39.29a
	6:0:2:2	14.72a	31.53a	62.29a	853.63a	40.08a
2016-2017	密度 (×10⁴/hm²)
	270	15.67a	33.28a	59.63a	856.82a	38.08ab
	330	15.26a	34.79a	59.53a	858.76a	39.82a
	390	14.66b	33.28a	59.68a	861.85a	37.69b
	施氮量 (kg/hm²)
	180	14.63b	32.88b	59.98a	860.66a	36.07c
	225	15.15ab	33.80ab	59.49a	859.72a	38.77b
	270	15.81a	34.67a	59.37a	857.04a	40.76a
	氮肥运筹
	4:2:1:3	15.42a	33.77a	59.38a	859.22a	38.59a
	5:1:2:2	15.19a	33.78a	59.69a	858.84a	38.24a
	6:0:2:2	14.97a	33.80a	59.77a	859.36a	38.76a