Effects of high temperature during grain filling on physicochemical properties of waxy maize starch

doi:10.1016/S2095-3119(15)61095-4

Journal of Integrative Agriculture ›› 2016, Vol. 15 ›› Issue (2): 309-316.DOI: 10.1016/S2095-3119(15)61095-4

Effects of high temperature during grain filling on physicochemical properties of waxy maize starch

LU Da-lei, YANG Huan, SHEN Xin, LU Wei-ping

Jiangsu Key Laboratory of Crop Genetics and Physiology/Co-Innovation Center for Modern Production Technology of Grain Crops, Yangzhou University, Yangzhou 225009, P.R.China

收稿日期:2015-02-06 出版日期:2016-02-05 发布日期:2016-02-01
通讯作者: LU Wei-ping, Tel: +86-514-87979377, Fax: +86-514-87996817, E-mail: wplu@yzu.edu.cn
基金资助:
This study was supported by the National Natural Science Foundation of China (31271640 and 31471436), the Jiangsu High School Natural Science Major Project, China (14KJA210004), the Priority Academic Program Development of Jiangsu Higher Education Institutions, China, and the New Century Talents Project of Yangzhou University, China.

Effects of high temperature during grain filling on physicochemical properties of waxy maize starch

LU Da-lei, YANG Huan, SHEN Xin, LU Wei-ping

Jiangsu Key Laboratory of Crop Genetics and Physiology/Co-Innovation Center for Modern Production Technology of Grain Crops, Yangzhou University, Yangzhou 225009, P.R.China

Received:2015-02-06 Online:2016-02-05 Published:2016-02-01
Contact: LU Wei-ping, Tel: +86-514-87979377, Fax: +86-514-87996817, E-mail: wplu@yzu.edu.cn
Supported by:
This study was supported by the National Natural Science Foundation of China (31271640 and 31471436), the Jiangsu High School Natural Science Major Project, China (14KJA210004), the Priority Academic Program Development of Jiangsu Higher Education Institutions, China, and the New Century Talents Project of Yangzhou University, China.

摘要/Abstract

摘要： Understanding the waxy maize starch physicochemical properties response to heat stress during grain filling could improve starch quality. The effects of heat stress during early (1–15 days after pollination, DAP) and late (16–30 DAP) grain filling stages on the starch physicochemical properties of four waxy maize varieties were evaluated. Crystallinity only increased in Suyunuo 5 after exposure to high temperature at late grain filling stage. The effects of heat stress on digestibility and swelling power were dependent on varieties and stages. Generally, swelling power was increased by heat stress at early grain development stage and digestibility was increased by high temperature at late grain filling stage, respectively. The results of correlation analysis indicated the starch with large granule size could swell well and easy digest. Peak, trough, final, and breakdown viscosities in response to heat stress were dependent on stages and varieties. In general, peak, trough and final viscosities were decreased and increased by heat stress at early grain formation and late grain filling stages, respectively; whereas the breakdown and setback viscosities were similar among the three treatments. Heat stress increased the gelatinization temperatures and retrogradation percentage. Gelatinization range decreased under heat stress at 1–15 DAP but remained constant under heat stress at 16–30 DAP in all varieties. The starch exposed to high temperature at 16–30 DAP presented higher digestibility and peak viscosity and lower retrogradation percentage than those at 1–15 DAP. Therefore, heat stress at early grain formation stage severely affects the physicochemical properties of starch.

关键词: waxy maize , heat stress , digestibility , pasting , gelatinization , retrogradation

Abstract: Understanding the waxy maize starch physicochemical properties response to heat stress during grain filling could improve starch quality. The effects of heat stress during early (1–15 days after pollination, DAP) and late (16–30 DAP) grain filling stages on the starch physicochemical properties of four waxy maize varieties were evaluated. Crystallinity only increased in Suyunuo 5 after exposure to high temperature at late grain filling stage. The effects of heat stress on digestibility and swelling power were dependent on varieties and stages. Generally, swelling power was increased by heat stress at early grain development stage and digestibility was increased by high temperature at late grain filling stage, respectively. The results of correlation analysis indicated the starch with large granule size could swell well and easy digest. Peak, trough, final, and breakdown viscosities in response to heat stress were dependent on stages and varieties. In general, peak, trough and final viscosities were decreased and increased by heat stress at early grain formation and late grain filling stages, respectively; whereas the breakdown and setback viscosities were similar among the three treatments. Heat stress increased the gelatinization temperatures and retrogradation percentage. Gelatinization range decreased under heat stress at 1–15 DAP but remained constant under heat stress at 16–30 DAP in all varieties. The starch exposed to high temperature at 16–30 DAP presented higher digestibility and peak viscosity and lower retrogradation percentage than those at 1–15 DAP. Therefore, heat stress at early grain formation stage severely affects the physicochemical properties of starch.

Key words: waxy maize , heat stress , digestibility , pasting , gelatinization , retrogradation

LU Da-lei, YANG Huan, SHEN Xin, LU Wei-ping. Effects of high temperature during grain filling on physicochemical properties of waxy maize starch[J]. Journal of Integrative Agriculture, 2016, 15(2): 309-316.

参考文献

Battisti D S, Naylor R L. 2009. Historical warnings of futurefood insecurity with unprecedented seasonal heat. Science,323, 240-244

Beckles D M, Thitisaksakul M. 2014. How environmentalstress affects starch composition and functionality in cerealendosperm. Starch/Stärke, 66, 58-71

Brewer L R, Cai L, Shi Y. 2012. Mechanism and enzymaticcontribution to in vitro test method of digestion for maizestarches differing in amylose content. Journal of Agriculturaland Food Chemistry, 60, 4379-4387

Cairns J E, Sonder K, Zaidi P H, Verhulst N, Mahuku G, BabuR, Nair S K, Das B, Govaerts B, Vinayan M T, Rashid Z,Noor J J, Devi P, San Vicente F, Prasanna B M. 2012. Maizeproduction in a changing climate: Impacts, adaptation,and mitigation strategies. In: Donald S, ed., Advances inAgronomy. Academic Press, Burlington, USA. pp. 1-58

Commuri P D, Jones R J. 1999. Ultrastructural characterizationof maize (Zea mays L.) kernels exposed to high temperatureduring endosperm cell division. Plant, Cell & Environment,22, 375-385

Hasanuzzaman M, Nahar K, Alam M M, Roychowdhury R,Fujita M. 2013. Physiological, biochemical, and molecularmechanisms of heat stress tolerance in plants. InternationalJournal of Molecular Sciences, 14, 9643-9684

IPCC (Intergovernmental Panel on Climate Change). 2007.Climate Change 2007: The Physical Science Basis.Summary for Policymakers. WMO/UNEP, Paris.

Knutson C A, Khoo U, Cluskey J E, Inglett G E. 1982. Variationin enzyme digestibility and gelatinization behavior of cornstarch granule fractions. Cereal Chemistry, 59, 512-515

Liu P, Guo W, Jiang Z, Feng C, Zhu X, Peng Y, Kuang A, LittleC R. 2011. Effects of high temperature after anthesis onstarch granules in grains of wheat (Triticum aestivum L.).Journal of Agricultural Science, 149, 159-169

Liu H, Ramsden L, Corke H. 1997. Physical properties andenzymatic digestibility of acetylated ae, wx, and normalmaize starch. Carbohydrate Polymers, 34, 283-289

Lobell D B, Burke M B. 2010. On the use of statistical models topredict crop yield responses to climate change. Agriculturaland Forest Meteorology, 150, 1443-1452

Lobell D B, Hammer G L, McLean G, Messina C, Roberts MJ, Schlenker W. 2013. The critical role of extreme heatfor maize production in the United States. Nature ClimateChange, 3, 497-501

Lu D, Lu W. 2012. Effects of protein removal on thephysicochemical properties of waxy maize flours. Starch/Stärke, 64, 874-881

Lu D, Shen X, Cai X, Yan F, Lu W, Shi Y C. 2014. Effects ofheat stress during grain filling on the structure and thermalproperties of waxy maize starch. Food Chemistry, 143,313-318

Lu D, Sun X, Yan F, Wang X, Xu R, Lu W. 2013. Effects of hightemperature during grain filling under control conditionson the physicochemical properties of waxy maize flour.Carbohydrate Polymers, 98, 302-310

Lu T J, Jane J L, Keeling P L, Singletary G W. 1996. Maizestarch fine structures affected by ear developmentaltemperature. Carbohydrate Research, 282, 157-170

Morita T, Ito Y, Brown I L, Ando R, Kiriyama S. 2007. In vitroand in vivo digestibility of native maize starch granulesvarying in amylose contents. Journal of AOAC International,90, 1628-1634

Prasad P V V, Staggenborg S A, Ristic Z. 2008. Impacts ofdrought and/or heat stress on physiological, developmental, growth, and yield processes of crop plants. In response ofcrops to limited water, understanding and modeling waterstress effects on plant growth processes. In: Ahuja L H,Saseendran S A, eds., Advances in Agricultural SystemsModeling Series. ASA-CSSA: Madison, WI, USA. pp.301-355

Sandhu K S, Singh N, Kaur M. 2004. Characteristicsof the different corn types and their grain fractions:Pphysicochemical, thermal, morphological and rheologicalproperties of starches. Journal of Food Engineering, 64,119-127

Sasaki T, Matsuki J. 1998. Effect of wheat starch structure onswelling power. Cereal Chemistry, 75, 525-529

Singh N, Inouchi N, Nishinari K. 2006. Structure, thermal andviscoelastic characteristics of starches separated fromnormal, sugary and waxy maize. Food Hydrocolloids, 20,923-935

Singh S, Singh N, Isono N, Noda T. 2010. Relationship ofgranule size distribution and amylopectin structure withpasting, thermal, and retrogradation properties in wheatstarch. Journal of Agricultural and Food Chemistry, 58,1180-1188

Tang Q Y, Feng M G. 2007. DPS Data Processing System:Experimental Design, Statistical Analysis and Data Mining.Science Press, Beijing, China. (in Chinese)Thitisaksakul M, Jimenez R C, Abias M C, Beckles D M.2012. Effects of environmental factors on cereal starchbiosynthesis and composition. Journal of Cereal Science,56, 67-80

Wang J, Feng C N, Guo W S, Zhu X K, Li C Y, Peng Y X. 2008.Effects of high temperature after anthesis on starch traitsof grain in wheat. Journal of Triticeae Crops, 28, 260-265(in Chinese)

Wang Y, Frei M. 2011. Stressed food - The impact of abioticenvironmental stresses on crop quality. Agriculture,Ecosystems and Environment, 141, 271-286

Zhang G F, Wang Z H, You J, Wang Q S, Ding Y F, Ji Z J.2006. Effect of higher temperature in different filling stageson rice qualities. Acta Agronomica Sinica, 32, 283-287(in Chinese)

Zhong L, Cheng F, Wen X, Sun Z, Zhang G. 2005. Thedeterioration of eating and cooking quality caused by hightemperature during grain filling in early-season indica ricecultivars. Journal of Agronomy and Crop Science, 191,218-225

Zhu L J, Liu Q Q, Wilson J D, Gu M H, Shi Y C. 2011.Digestibility and physicochemical properties of rice (Oryzasativa L.) flous and starches differing in amylose content.Carbohydrate Polymers, 86, 1751-1759

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Effects of high temperature during grain filling on physicochemical properties of waxy maize starch

Effects of high temperature during grain filling on physicochemical properties of waxy maize starch

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