叶面喷施锌、硼肥对晋荞麦（苦）5号产量和品质的影响

doi:10.16035/j.issn.1001-7283.2020.04.019

Abstract

Abstract:

In order to improve the yield and quality of buckwheat, the effects of spraying zinc and boron microfertilizer on the yield and quality of buckwheat during bud stage and flowering stage were studied by using the method of three-factor random block group design. The results showed that the application of zinc and borax fertilizer significantly increased the grain protein content, 1000-grain weight, and yield of buckwheat, whereas significantly reduced the total flavonoids content, and the highest concentrations of zinc fertilizer and boron fertilizer were 60 and 45mg/L, respectively. The zinc concentration was 60mg/L and the boron concentration was 30mg/L, when zinc and boron fertilizer were used in combination, and the bud stage was suitable spraying period. The combination of zinc and boron fertilizer had synergistic effect on the formation of grain protein and yield, and antagonistic effect on the formation of total flavonoids with the decreasing degree of total flavonoids alleviated effectively. It is concluded that the application of proper amount of zinc and boron microfertilizer can significantly improve the grain yield and protein content of buckwheat.

Key words: Buckwheat, Zinc fertilizer, Boron fertilizer, Yield, Quality

Cao Changlin, Lü Huiqing, Hao Zhiping, Gao Xiang, Zhou Zhongyu. Effects of Foliar Spraying Zinc and Boron Fertilizer on the Yield and Quality of Jin Buckwheat (Bitter) No.5[J].Crops, 2020, 36(4): 135-142.

Figures/Tables 9

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References 30

[1]	Zhou X L, Hao T F, Zhou Y M , et al. Relationships between antioxidant compounds and antioxidant activities of tartary buckwheat during germination. Journal of Food Science and Technology, 2015,58:2458-2463.
[2]	Huang X Y, Zeller F J, Huang K F , et al. Variation of major minerals and trace elements in seeds of tartary buckwheat (Fagopyrum tataricum Gaertn.) Genetic Resources and Crop Evolution, 2014,61:567-577.
[3]	Kreft I, Fabjan N, Yasumoto K . Rutin content in buckwheat (Fagopyrum esculentum Moench) food materials and products. Food Chemistry, 2006,98(3):508-512.
[4]	Oomah B D, Mazza G . Flavonoids and antioxidative activities in buckwheat. Journal of Agricultural and Food Chemistry, 1996,44(7):1746-1750.
[5]	Przybylski R, Lee Y C, Eskin N A M . Antioxidant and radical scavenging activities of buckwheat seed components. Journal of the American Oil Chemists' Society, 1998,75(11):1595-1601.
[6]	Gheldof N, Wang X H, Engeseth N J . Buckwheat honey increases serum antioxidant capacity in humans. Journal of Agricultural and Food Chemistry, 2003,51(5):1500-1505.
[7]	李洁, 梁月琴, 郝一彬 . 苦荞类黄酮降血脂作用的实验研究. 山西医科大学学报, 2004,35(6):570-571.
[8]	韩淑英, 吕华, 朱丽莎 , 等. 荞麦种子总黄酮降血脂、血糖及抗脂质过氧化作用的研究. 中国药理学通报, 200l, 17(6):694-696.
[9]	朱丽莎, 马新超, 韩淑英 , 等. 荞麦叶总黄酮对血脂及脂质过氧化物的作用. 中国临床康复, 2004,8(24):5178-5179.
[10]	辛念, 熊建新, 韩淑英 . 荞麦种子总黄酮对四氯化碳所致急性肝损伤的保护作用. 第三军医大学学报, 2005,27(14):1456-1458.
[11]	陈益菊 . 苦荞麦播期、密度二因子试验报告. 陕西农业科学, 2012(3):109-110.
[12]	郝志萍, 吕慧卿, 曹昌林 , 等. ‘晋荞麦(苦)5号’的栽培技术. 中国农学通报, 2016,32(30):79-81.
[13]	阮培均 . 黔苦3号苦荞新品种春播高产栽培模式研究. 杂粮作物, 2008,28(3):182-185.
[14]	张卫中, 姚满生, 阎建宾 . 不同肥料配比对荞麦生长发育及产量影响的对比研究. 杂粮作物, 2008,28(1):52-54.
[15]	赵萍, 杨媛, 杨明君 , 等. 苦荞麦高产栽培最佳配方研究. 内蒙古农业科技, 2011(1):48-122.
[16]	胡丽雪, 刘学仪, 向达兵 .等 . 叶面喷施硼对苦荞麦生长、产量及黄酮类物质的影响. 作物杂志, 2014(5):105-108.
[17]	田秀英, 王正银 . 硒对苦荞硒、总黄酮和芦丁含量、分布与累积的影响. 植物营养与肥料学报, 2008,14(4):721-727.
[18]	潘天春 . 微量元素锌肥对苦荞芽中锌及黄酮含量的影响. 湖北农业科学, 2015,54(6):1317-1319.
[19]	刘纲, 熊仿秋, 钟林 , 等. 苦荞麦氮磷钾“3414”肥料效应试验初报. 农业科技通讯, 2012(5):94-97.
[20]	赵永峰, 穆兰海, 常克勤 , 等. 不同栽培密度与N、P、K配比精确施肥对荞麦产量的影响. 内蒙古农业科技, 2010(4):61-62.
[21]	钟林, 熊仿秋, 刘纲 , 等. 荞麦品种、播期、密度、施肥多因素正交旋转试验. 农业科技通讯, 2012(6):52-56.
[22]	张永强, 宋航, 薛志伟 , 等. 施用锌肥和硼肥对玉米穗粒性状和品质的影响. 核农学报, 2017,31(2):371-378.
[23]	张东昱, 陈益, 夏叶 , 等. 锌硼对大白菜农艺性状及品质的影响. 长江农业, 2011(4):63-65.
[24]	吴拓, 杨刘, 降志兵 . 钼、锌、硼微量元素对大豆产量和品质的影响. 南方农业, 2015,9(31):6-8.
[25]	朱敏, 胡心庆, 谢幸华 , 等. 叶面喷施硼钼锌对大豆产量和品质的影响. 河北农业科学, 2007,11(6):30-32.
[26]	刘美英, 高炳德, 吕福虎 . 锌肥、硼肥及其交互作用对春小麦籽粒品质的影响. 干旱区资源与环境, 2016,30(1):175-179.
[27]	林启美 . 土壤肥料学. 北京: 中央广播电视大学出版社出版, 1999: 122-123.
[28]	Lea U S, Slimestad R, Smedvig P , et al. Nitrogen deficiency enhances expression of specific MYB and BHLH transcription factors and accumulation of end products in the flavonoid pathway. Planta, 2007,225(5):1245-1253.
[29]	Jia H, Wang J A, Yang Y , et al. Changes in flavonol content and transcript levels of genes in the flavonoid pathway in tobacco under phosphorus deficiency. Plant Growth Regulation, 2014,76(2):225-231.
[30]	韩金玲, 李雁鸣, 马春英 , 等. 施锌对小麦开花后氮、磷、钾、锌积累和运转的影响. 植物营养与肥料学报, 2006,12(3):313-320.

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喷施时期 Spraying stage	处理 Treatment	蛋白质Protein (%)		总黄酮Total flavonoids (%)		千粒重1000-grain weight (g)		产量Yield (kg/hm²)
喷施时期 Spraying stage	处理 Treatment	2017	2018	2017	2018	2017	2018	2017	2018
现蕾期	Zn₀ (CK₁)	13.39±0.02Cc	13.90±0.07Bc	2.27±0.03Aa	3.30±0.05Aa	22.00±0.23Bc	20.50±0.55Bc	1 520±17Cc	1 730±32Cd
Squaring stage	Zn₂₀	13.64±0.09Cc	14.06±0.04Bbc	2.13±0.04ABab	3.13±0.04Bb	22.40±0.26ABbc	21.10±0.26ABbc	1 560±17BCbc	1 790±38BCc
	Zn₄₀	14.05±0.13Bb	14.32±0.02ABb	2.02±0.07BCb	3.06±0.01BCbc	22.90±0.38ABab	21.50±0.20ABabc	1 610±12ABb	1 940±46ABb
	Zn₆₀	14.64±0.09Aa	14.72±0.22Aa	1.80±0.06Cc	2.91±0.02Dd	23.50±0.26Aa	22.40±0.23Aa	1 671±15Aa	2 070±23Aa
	Zn₈₀	14.17±0.06ABb	14.26±0.01ABb	1.87±0.02Cc	2.96±0.01CDcd	23.00±0.23ABab	21.80±0.09ABab	1 600±18ABb	1 890±38BCb
盛花期	Zn₀ (CK₁)	13.32±0.07Cc	13.90±0.10Cd	2.26±0.04Aa	3.29±0.03Aa	21.40±0.15Bc	20.50±0.43Bb	1 500±10Bc	1 720±20Bd
Flowering stage	Zn₂₀	13.68±0.10BCbc	14.04±0.01BCcd	2.11±0.06ABb	3.11±0.02Bb	21.80±0.40ABbc	20.80±0.29ABb	1 550±26Bbc	1 770±30Bcd
	Zn₄₀	14.19±0.07ABab	14.29±0.08Bb	2.01±0.06BCb	3.02±0.03BCb	22.40±0.26ABab	21.50±0.26ABab	1 590±32ABb	1 910±40ABb
	Zn₆₀	14.70±0.38Aa	14.69±0.07Aa	1.78±0.01Dc	2.76±0.04Dd	22.90±0.09Aa	22.20±0.20Aa	1 667±17Aa	2 050±30Aa
	Zn₈₀	14.19±0.07ABab	14.23±0.04Bbc	1.86±0.03CDc	2.91±0.05CDc	22.40±0.35ABab	20.90±0.40ABb	1 540±20Bbc	1 870±70ABbc

喷施时期 Spraying stage	目标 Goal	处理 Treatment	T₀		T₂₀		T₄₀		T₆₀		T₈₀
喷施时期 Spraying stage	目标 Goal	处理 Treatment	2017	2018	2017	2018	2017	2018	2017	2018	2017	2018
现蕾期 Squaring stage	蛋白质	施硼	13.45±0.04Cd	13.96±0.09Cb	13.76±0.06Cc	14.18±0.09BCb	14.16±0.05Bb	14.43±0.05ABab	14.76±0.05Aa	14.82±0.23Aa	14.20±0.15Bb	14.39±0.09ABb
现蕾期 Squaring stage		不施硼	13.39±0.02Cc	13.90±0.07Cb	13.64±0.09Cc	14.06±0.04Bbc	14.05±0.13Bb	14.32±0.02ABb	14.64±0.09Aa	14.72±0.22Aa	14.27±0.06ABb	14.26±0.01ABb
		施硼增量	0.06	0.06	0.12	0.12	0.11	0.11	0.12	0.10	0.03	0.13
	总黄酮	施硼	2.30±0.04Aa	3.33±0.03Aa	2.17±0.04Bb	3.16±0.01Bb	2.09±0.01BCb	3.09±0.02BCbc	1.84±0.02Dd	2.96±0.05Cd	1.98±0.03Cc	3.03±0.03BCcd
		不施硼	2.27±0.03Aa	3.30±0.05Aa	2.13±0.04ABab	3.13±0.04Bb	2.02±0.07BCb	3.06±0.01BCbc	1.80±0.06Cc	2.91±0.02Dd	1.87±0.02Cc	2.96±0.01CDcd
		施硼增量	0.03	0.03	0.04	0.03	0.07	0.03	0.04	0.05	0.11	0.07
盛花期 Flowering stage	蛋白质	施硼	13.33±0.04Cb	13.92±0.03Cd	13.70±0.13BCb	14.14±0.01BCc	14.21±0.24ABb	14.38±0.04Bb	14.72±0.20Aa	14.79±0.12Aa	14.28±0.07ABa	14.29±0.05Bbc
盛花期 Flowering stage		不施硼	13.32±0.07Cc	13.90±0.10Cd	13.68±0.10BCbc	14.04±0.01BCcd	14.19±0.07ABab	14.29±0.08Bb	14.70±0.38Aa	14.69±0.07Aa	14.19±0.07ABab	14.23±0.04Bbc
		施硼增量	0.01	0.02	0.02	0.10	0.02	0.09	0.02	0.10	0.09	0.06
	总黄酮	施硼	2.29±0.05Aa	3.31±0.03Aa	2.15±0.01ABb	3.14±0.06ABb	2.06±0.04BCb	3.07±0.03Bb	1.82±0.02Dc	2.82±0.06Cc	1.94±0.05CDc	2.98±0.01Bb
		不施硼	2.26±0.04Aa	3.29±0.03Aa	2.11±0.06ABb	3.11±0.02Bb	2.01±0.06BCb	3.02±0.03BCb	1.78±0.01Dc	2.76±0.04Dd	1.86±0.03CDc	2.91±0.05CDc
		施硼增量	0.03	0.02	0.04	0.03	0.05	0.05	0.04	0.06	0.08	0.07

喷施时期 Spraying stage	目标 Goal	处理 Treatment	T₀		T₂₀		T₄₀		T₆₀		T₈₀
喷施时期 Spraying stage	目标 Goal	处理 Treatment	2017	2018	2017	2018	2017	2018	2017	2018	2017	2018
现蕾期 Squaring stage	千粒重(g)	施硼	22.20±0.17Dd	20.70±0.20Cd	23.20±0.12Cc	21.40±0.17BCc	24.10±0.12Bb	21.90±0.20ABc	24.90±0.06Aa	22.80±0.26Aa	24.20±0.12Bb	22.10±0.17ABb
现蕾期 Squaring stage		不施硼	22.00±0.23Bc	20.50±0.55Bc	22.40±0.26ABc	21.10±0.26ABbc	22.90±0.38ABab	21.50±0.2ABac	23.50±0.26Aa	22.40±0.23Aa	23.00±0.23ABb	21.80±0.09ABab
		施硼增量	0.20	0.20	0.80	0.20	1.20	0.30	1.40	0.40	1.20	0.20
	产量(kg/hm²)	施硼	1 540±17Cc	1 750±32Cd	1 590±12BCc	1 840±20BCcd	1 640±20ABb	1 970±26ABCbc	1 700±15Aa	2 110±66Aa	1 650±17ABb	1 920±72ABab
		不施硼	1 520±17Cc	1 730±32Cd	1 560±15BCbc	1 800±23BCcd	1 610±12ABb	1 940±46ABb	1 670±18Aa	2 070±38Aa	1 600±17ABb	1 890±38BCbc
		施硼增量	20.00	20.00	20.00	40.00	30.00	30.00	30.00	40.00	50.00	30.00
盛花期 Flowering stage	千粒重(g)	施硼	21.60±0.29Bd	20.60±0.61Bc	22.20±0.17Bc	21.10±0.09ABbc	23.10±0.17Ab	21.70±0.20ABab	23.80±0.12Aa	22.40±0.17Aa	23.40±0.06Aab	21.50±0.23ABabc
盛花期 Flowering stage		不施硼	21.40±0.15Bc	20.50±0.43Bb	21.80±0.40ABbc	20.80±0.29ABb	22.40±0.26ABab	21.50±0.26ABab	22.90±0.09Aa	22.20±0.20Aa	22.40±0.35ABab	20.90±0.40ABb
		施硼增量	0.20	0.10	0.40	0.30	0.70	0.20	0.90	0.10	1.00	0.40
	产量(kg/hm²)	施硼	1 530±12Cc	1 740±60Cd	1 590±15Bb	1 820±70BCcd	1 640±20Bb	1 950±50ABCbc	1 720±20Aa	2 120±10Aa	1 600±15Bb	1 930±40ABab
		不施硼	1 500±10Bc	1 720±20Bd	1 550±17Bbc	1 770±30Bcd	1 590±32ABb	1 910±40ABb	1 670±26Aa	2 050±30Aa	1 540±20Bbc	1 870±70ABbc
		施硼增量	30.00	20.00	30.00	50.00	20.00	20.00	10.00	70.00	60.00	60.00

喷施时期 Spraying stage	目标 Goal	处理效应 Treatment effect		T₂₀		T₄₀		T₆₀		T₈₀
喷施时期 Spraying stage	目标 Goal	处理效应 Treatment effect		2017	2018	2017	2018	2017	2018	2017	2018
现蕾期	蛋白质	同T₀比±	施硼	0.31	0.22	0.71	0.47	1.31	0.86	0.85	0.43
Squaring stage			不施硼	0.25	0.16	0.66	0.42	1.25	0.82	0.88	0.36
		配合效应		0.37	0.28	0.77	0.53	1.37	0.92	0.81	0.49
		锌效应+硼效应		0.31	0.22	0.72	0.43	1.31	0.88	0.74	0.42
		互作值		0.03	0.03	0.03	0.03	0.03	0.02	0.04	0.04
	总黄酮	同T₀比±	施硼	-0.13	-0.17	-0.21	-0.24	-0.46	-0.37	-0.32	-0.30
			不施硼	-0.14	-0.17	-0.25	-0.24	-0.47	-0.39	-0.40	-0.34
		配合效应		-0.10	-0.12	-0.18	-0.19	-0.43	-0.32	-0.33	-0.25
		锌效应+硼效应		-0.11	-0.14	-0.22	-0.21	-0.44	-0.36	-0.37	-0.31
		互作值		0.01	0.01	0.02	0.02	0.01	0.02	0.02	0.03
盛花期	蛋白质	同T₀比±	施硼	0.35	0.22	0.86	0.46	1.37	0.87	0.93	0.37
Flowering stage			不施硼	0.36	0.14	0.87	0.39	1.38	0.79	0.87	0.33
		配合效应		0.38	0.24	0.89	0.49	1.40	0.89	0.96	0.39
		锌效应+硼效应		0.37	0.16	0.88	0.41	1.39	0.81	0.88	0.35
		互作值		0.01	0.04	0.01	0.04	0.01	0.04	0.04	0.02
	总黄酮	同T₀比±	施硼	-0.14	-0.17	-0.23	-0.24	-0.47	-0.49	-0.35	-0.29
			不施硼	-0.15	-0.18	-0.25	-0.27	-0.48	-0.53	-0.40	-0.38
		配合效应		-0.11	-0.15	-0.2	-0.22	-0.44	-0.47	-0.35	-0.27
		锌效应+硼效应		-0.12	-0.16	-0.22	-0.26	-0.45	-0.51	-0.37	-0.36
		互作值		0.01	0.01	0.01	0.02	0.01	0.02	0.01	0.05

喷施时期 Spraying stage	目标 Goal	处理效应 Treatment effect		T₂₀		T₄₀		T₆₀		T₈₀
喷施时期 Spraying stage	目标 Goal	处理效应 Treatment effect		2017	2018	2017	2018	2017	2018	2017	2018
现蕾期	千粒重(g)	同T₀比±	施硼	1.00	0.70	1.90	1.20	2.70	2.10	2.00	1.40
Squaring stage			不施硼	0.40	0.60	0.90	1.00	1.50	1.90	1.00	1.30
		配合效应		1.20	0.90	2.10	1.40	2.90	2.30	2.20	1.60
		锌效应+硼效应		0.60	0.80	1.10	1.20	1.70	2.10	1.20	1.50
		互作值		0.30	0.05	0.50	0.10	0.60	0.10	0.50	0.05
	产量(kg/hm²)	同T₀比±	施硼	50.00	90.00	100.00	220.00	160.00	390.00	110.00	270.00
			不施硼	40.00	70.00	90.00	210.00	150.00	340.00	80.00	160.00
		配合效应		70.00	110.00	120.00	240.00	180.00	380.00	130.00	190.00
		锌效应+硼效应		60.00	90.00	110.00	230.00	170.00	360.00	100.00	180.00
		互作值		5.00	10.00	5.00	5.00	5.00	10.00	15.00	5.00
盛花期	千粒重(g)	同T₀比±	施硼	0.60	0.50	1.50	1.10	2.20	1.80	1.80	0.90
Flowering stage			不施硼	0.40	0.30	1.00	1.00	1.50	1.70	1.00	0.40
		配合效应		0.80	0.60	1.70	1.20	2.40	1.90	2.00	1.00
		锌效应+硼效应		0.60	0.40	1.20	1.10	1.70	1.80	1.20	0.50
		互作值		0.10	0.10	0.25	0.05	0.35	0.05	0.40	0.25
	产量(kg/hm²)	同T₀比±	施硼	60.00	80.00	110.00	210.00	190.00	380.00	70.00	270.00
			不施硼	50.00	50.00	90.00	190.00	170.00	330.00	40.00	150.00
		配合效应		90.00	100.00	140.00	230.00	220.00	400.00	100.00	210.00
		锌效应+硼效应		80.00	70.00	120.00	210.00	200.00	380.00	70.00	200.00
		互作值		5.00	15.00	10.00	10.00	10.00	10.00	15.00	5.00

Effects of Foliar Spraying Zinc and Boron Fertilizer on the Yield and Quality of Jin Buckwheat (Bitter) No.5

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