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Acta Agron Sin ›› 2009, Vol. 35 ›› Issue (8): 1532-1538.doi: 10.3724/SP.J.1006.2009.01532

• TILLAGE & CULTIVATION·PHYSIOLOGY & BIOCHEMISTRY • Previous Articles     Next Articles

Effects of Sulphur Application on Grain Yield and Processing Quality in Medium-Gluten Wheat

XIE Ying-Xin,ZHU Yun-Ji*,ZHU Xiao-Jie,GUO Tian-Cai,WANG Chen-Yang,TIAN Wen-Zhong   

  1. Henan Agricultural University / National Engineering Research Centre for Wheat, Zhengzhou 450002, China
  • Received:2008-12-30 Revised:2009-04-30 Online:2009-08-12 Published:2009-06-11
  • Contact: ZHU Yun-Ji, E-mail: hnndzyj@126.com

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Abstract:

Global sulphur (S) deficiency in farming lands is a problem in recent years, especially in the fields with high nitrogen (N) input. Unbalanced application of S and N fertilizers not only leads to low N use efficiency but also degrades the grain quality of wheat (Triticum aestivum L.) due to physiological S deficiency. To investigate the effects of sulphur application on grain yield and processing quality, two medium-gluten wheat cultivars (Yunong 949 and Lankao Aizao 8) were used in field experiments with different S and N fertilizer treatments in 2005–2007 growing seasons. Two N levels treatments (240 and 330 kg ha-1) were combined with two S levels (0 and 60 kg ha-1). In both cultivars, nitrogen combined sulphur treatments increased grain yield and the yield components. Comparing with no sulphur application, nitrogen combined sulphur application reduced the ratio of amylose/ Amylopectin, and increased farinograph quality parameters of flour. The extensibility parameters of flour such as extended area and extensibility of dough were increased, and the rheological properties of dough and the other main processing quality of wheat flour were improved by sulphur application. In addition, the brightness of flour and the quality identified by senses were improved by sulphur application. On the whole, there is an available measure of fertilizer use not only increasing grain yield and improving quality but also saving cost with applying N 240 kg combined with S 60 kg per hectare in high fertility field. Above results indicate that there is an urgent need to apply S fertilizer in some with high N application in China to achieve high grain yield and maintain high processing quality of wheat.

Key words: Wheat, Sulphur, Grain yield, Grain quality

[1] Li G-Q(李国强), Zhu Y-J(朱云集), Shen X-S(沈学善). Plant sulphur assimilation pathways and its regulation. Plant Physiol Commun (植物生理学通讯), 2005, 41(6): 699-704 (in Chinese with English abstract)

[2] Dupont F M, Hurkman W J, Vensel W H, Chan R, Lopez R, Tanaka C K, Altenbach S B. Accumulation of sulfur-rich and sulfur-poor wheat flour proteins are affected by temperature and mineral nutrition during grain development.J Cereal Sci, 2006, 44: 101-112

[3] Lerner S E, Seghezzo M L, Molfese E R, Ponzio N R, Cogliatti M, Rogers W J. N- and S-fertiliser effects on grain composition, industrial quality and end-use in durum wheat. J Cereal Sci, 2006, 44: 2-11

[4] Zhao F J, Hawkesford M J, McGrath S P. Sulfur assimilation and effects on yield and quality of wheat. J Cereal Sci, 1999, 30: 1-17

[5] Zhu Y-J(朱云集), Li G-Q(李国强), Guo T-C(郭天财), Wang C-Y(王晨阳), Dai T-B(戴廷波), Cao W-X(曹卫星).Effects of sulfur on key enzyme activities involved in nitrogen and sulphur assimilation in flag leaves and grain yield under different nitrogen levels in winter wheat (Triticum aestivum L.). Acta Agron Sin (作物学报), 2007, 30(2): 352-358 (in Chinese with English abstract)

[6] Xie Y-X(谢迎新), Zhu Y-J(朱云集), Guo T-C(郭天财), Wang C-Y(王晨阳), Wang Y-H(王永华), Ma D-Y(马冬云). Effects of sulphureous fertilization on photosynthetic and physiological characteristics and yields of winter wheat. Plant Nutr Fert Sci (植物营养与肥料学报), 2009, 15(2): 403-409 (in Chinese with English abstract)

[7] Byers M, McGrath S P, Webster R. A survey of the sulphur content of wheat grown in Britain. J Sci Food Agric, 1987, 38: 151-160

[8] Wieser H, Gutser R, von Tucher S. Influence of sulphur fertilisation on quantities and proportions of gluten protein types in wheat flour. J Cereal Sci, 2004, 40: 239-244

[9] Kopriva S, Suter M, von Ballmoos P, Hesse H, Krähenbühl U, Rennenberg H, Brunold C. Interaction of sulfate assimilation with carbon and nitrogen metabolism in Lemna minor. Plant Physiol,2002, 130: 1406-1413

[10] Salvagiotti F, Miralles D J. Radiation interception, biomass production and grain yield as affected by the interaction of nitrogen and sulfur fertilization in wheat. Eur J Agron,2008, 28: 282-290

[11] McGrath S P, Zhao F J, Withers P J A. Development of sulphur deficiency in crops and its treatment. In Fertiliser Society of United Kingdom. Proceedings of the Fertiliser Society No. 379, 1996, pp 87-92

[12] Rasmussen P E. Kresge P O. Plant response to sulfur in the Western United States. In: Tabatabai M A ed. Sulfur in Agriculture. USA: American Society of Agronomy, Crop Science Society of America, Soil Science Society of America, Madison, Wisconsin, 1986, pp 357-374

[13] Zhao J-Y(赵俊晔), Yu Z-W(于振文), Li Y-Q(李延奇), Wang X(王雪). Effects of nitrogen application rate on soil inorganic nitrogen distribution, microbial biomass nitrogen content and yield of wheat. Plant Nutr Fert Sci (植物营养与肥料学报), 2006, 12(4): 466-472 (in Chinese with English abstract)

[14] Bao S-D(鲍士旦). Analytic Techniques of Quality Chemistry for Agricultural, Husbandry, and Aquatic Products (农畜水产品品质化学分析). Beijing: China Agriculture Press, 1996. pp 209-212 (in Chinese)

[15] Ma D-Y(马冬云), Guo T-C(郭天财), Zhu Y-J(朱云集), Wang C-Y(王晨阳), Song X(宋晓), Wang Y-H(王永华). Effects of Nitrogen rates on flour color and noodle quality in two winter wheat(Triticum aestivum L.) cultivars. Acta Agron Sin (作物学报), 2007, 33(6): 987-990 (in Chinese with English abstract)

[16] Barnes P J. The influence of wheat endosperm on flour color grade. J Cereal Sci, 1986, 4: 143-155

[17] Zhu Y-J(朱云集), Xie Y-X(谢迎新), Guo T-C(郭天财), Ma D-Y(马冬云), Dai T-B(戴廷波), Cao W-X(曹卫星). Effect of sulphur fertilizer on photosynthesis characteristics and grain yield of two winter wheat (Triticum aestivum L.) cultivars with different spike types. Acta Agron Sin (作物学报), 2006, 32(3): 436-441 (in Chinese with English abstract)

[18] Haneklaus S, Murphy D P L, Nowak G, Schnug E. Effects of the timing of sulphur application on grain yield and yield components of wheat. Zeitschrift für Pflanzenernährung und Bodenkunde, 1995, 158: 83-85

[19] Toyokawa H, Rubenthaler G L, Powers J R, Schanns E G. Japanese noodle qualities: II. Starch components. Cereal Chem, 1989, 66: 387-391

[20] Zhang C-Q(张春庆), Li Q-Q(李晴祺). A study on the main quality characters influencing the steamed bread processing quality of T. aestivum. Sci Agric Sin (中国农业科学), 1993, 26(2): 39-46 (in Chinese with English abstract)

[21] Zhao F J, Salmon S E, Withers P J A, Monaghan J M, Evans E J, Shewry P R, McGrath S P. Variation in the breadmaking quality and rheological properties of wheat in relation to sulphur nutrition under field conditions. J Cereal Sci, 1999, 30: 19-31

[22] Moss H J, Wrigley C W, MacRichie R, Randall P J. Sulfur and nitrogen fertilizer effects on wheat: II. Influence on grain quality. Aust J Agric Res, 1981, 32: 213-226

[23] Wang D(王东), Yu Z-W(于振文), Fan G-H(樊广华), Pan Q-M(潘庆民). Effect of sulfur on quality and yield of winter wheat. Shandong Agric Sci(山东农业科学), 2000, (6): 10-12 (in Chinese with English abstract)

[24] Toyokawa H, Rubenthaler G L, Powers J R, Schanu E G. Japanese noodle qualities: I. Flour components. Cereal Chem, 1989, 66: 382-386

[25] Kruger J E, Anderson M H, Dexterf J E. Effect of flour refinement on raw cantonese noodle color and texture. Cereal Chem, 1994, 71: 177-182

[26] Wang C, Kovacs M I P, Fowler D B, Holley R. Effects of protein content and composition on white noodle making quality: color. Cereal Chem, 2004, 81: 777-784

[27] Sun K-G(孙克刚), Wang J-Y(王继印), Yang Z-J(杨稚娟), Zhang Z-Y(张泽彦), Bi J-G(毕建国), Zhang C-S(张春生). Current situation of sulfur in soil, yield-increasing of crop response to S fertilizer and sulfur balance in soil of Henan province. Phosphate Compound Fert (磷肥与复肥), 2004, 19(4): 70-72 (in Chinese with English abstract)
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