后猛, 李强, 唐忠厚, 王欣, 辛国胜, 吴问胜, 王良平, 张允刚, 唐维, 李秀英, 马代夫. 不同生态环境对甘薯主要品质性状的影响[J]. 中国生态农业学报(中英文), 2012, 20(9): 1180-1184. DOI: 10.3724/SP.J.1011.2012.01180
引用本文: 后猛, 李强, 唐忠厚, 王欣, 辛国胜, 吴问胜, 王良平, 张允刚, 唐维, 李秀英, 马代夫. 不同生态环境对甘薯主要品质性状的影响[J]. 中国生态农业学报(中英文), 2012, 20(9): 1180-1184. DOI: 10.3724/SP.J.1011.2012.01180
KOU Meng, LI Qiang, TANG Zhong-Hou, WANG Xin, XIN Guo-Sheng, WU Wen-Sheng, WANG Liang-Ping, ZHANG Yun-Gang, TANG Wei, LI Xiu-Ying, MA Dai-Fu. Effects of ecological conditions on main quality traits of sweetpotato[J]. Chinese Journal of Eco-Agriculture, 2012, 20(9): 1180-1184. DOI: 10.3724/SP.J.1011.2012.01180
Citation: KOU Meng, LI Qiang, TANG Zhong-Hou, WANG Xin, XIN Guo-Sheng, WU Wen-Sheng, WANG Liang-Ping, ZHANG Yun-Gang, TANG Wei, LI Xiu-Ying, MA Dai-Fu. Effects of ecological conditions on main quality traits of sweetpotato[J]. Chinese Journal of Eco-Agriculture, 2012, 20(9): 1180-1184. DOI: 10.3724/SP.J.1011.2012.01180

不同生态环境对甘薯主要品质性状的影响

Effects of ecological conditions on main quality traits of sweetpotato

  • 摘要: 为研究甘薯鲜薯总胡萝卜素、淀粉、蛋白质、还原性糖和可溶性糖等主要块根品质特性在不同地区的生态变异, 选用"徐薯25"与"徐22-5"杂交所获得的不同甘薯基因型, 在4个生态点进行栽插试验, 系统分析不同生态环境下甘薯块根主要品质性状的变异规律。结果表明: 生态点、年份、基因型、地点×基因型互作、年份×基因型互作对甘薯鲜薯总胡萝卜素、淀粉、蛋白质、还原性糖和可溶性糖的影响均达到显著水平。胡萝卜素表现为基因型×环境互作效应大于基因型效应和环境效应, 而其他品质性状均表现为环境效应远大于基因型效应和基因型×环境互作效应; 可溶性糖和蛋白质含量的年际效应明显大于基因型主效应或基因型×年份互作效应, 而其余3个品质性状的基因型×年份互作效应大于基因型主效应或年份主效应。在4个生态点中, 徐州点的胡萝卜素、还原性糖和可溶性糖含量最高, 但淀粉含量最低; 烟台点的蛋白质含量最高, 胡萝卜素含量最低; 南昌点的蛋白质含量最低, 胡萝卜素含量最高; 万州点的还原性糖和可溶性糖含量最低, 上述品质性状随纬度变化的规律不明显。值得关注的是, 不同环境下, 蛋白质含量为烟台点>徐州点>万州点>南昌点, 表现出随纬度升高而增大的趋势。不同年份处理间, 2008年的胡萝卜素、还原性糖及可溶性糖含量高于2009年, 而2008年的淀粉和蛋白质含量低于2009年。淀粉、可溶性糖含量变幅范围在2年间差别不大, 而其他3个性状变幅范围在2年间差别较大。各甘薯基因型在不同地点、不同年份间品质性状的变异中, 以胡萝卜素变异系数为最大, 淀粉变异为最小。

     

    Abstract: Sweetpotato is one of the world's most important foods and industrial raw materials that is highly nutritious with a variety of beneficial ingredients. Sweetpotato chromosome is highly heterozygous with highly separable characteristics after hybridization. Furthermore, sweetpotato is a vegetatively propagated plant with stabilized traits during hybrid generation such that each line is a potential genotype. Storage root quality characteristics included the contents of total carotene, starch, reducing sugar, soluble sugar and protein. These storage traits are important indicators in measuring the consumption and processing quality of sweetpotato and are closely related with sweetpotato commodity. To study variations in storage root quality characteristics under different ecological environments and to provide a theoretical basis for screening specific cultivation areas conducive to the accumulation of certain quality traits, hybrids of "Xushu 25" and "Xu 22-5" were selected for research in four sites (Xuzhou, Jiangsu Province; Yantai, Shandong Province; Wanzhou, Chongqing City; Nanchang, Jiangxi Province) and two years (2008 and 2009). The results showed that ecological environment (E), year (Y), genetype (G), E×G and Y×G interactions had significant impacts on the contents of total carotene, starch, reducing sugar, soluble sugar and protein. Carotene showed that G×E interaction effect was larger than genotype and environmental effects. However, other quality traits showed that environmental effect was larger than genotype and G×E interaction effects. Soluble sugar and protein indicated that inter-annual effect was significantly higher than genotype or G×Y interaction effect. The remaining three quality traits indicated that G×Y interaction effect was larger than genotype or year effect. At the four experimental sites, the highest total carotene, reducing sugar and soluble sugar contents and the lowest starch content occurred at the Xuzhou site. The highest protein and lowest carotene contents occurred at Yantai site. Also the lowest protein and highest carotene contents occurred at Nanchang site. Then the lowest reducing and soluble sugar contents occurred at Wanzhou site. It was worthy to note that sweetpotato storage root protein content apparently increased with increasing latitude. For the two years, total carotene, reducing and soluble sugar contents in 2008 were higher than in 2009. Also starch and protein contents in 2008 were lower than in 2009. While the range of difference in starch and soluble sugar contents between the two years was small, that in the other traits was big. For the hundred different genotypes, coefficient of variation in total carotene content was largest, and that in starch content was smallest under different eco-sites and years.

     

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