中国马铃薯
中國馬鈴藷
중국마령서
CHINESE POTATO
2014年
6期
331-334
,共4页
罗爱花%徐美蓉%陆立银%胡新元%国宏%谢奎忠
囉愛花%徐美蓉%陸立銀%鬍新元%國宏%謝奎忠
라애화%서미용%륙립은%호신원%국굉%사규충
马铃薯%品种%茎叶%α-茄碱
馬鈴藷%品種%莖葉%α-茄堿
마령서%품충%경협%α-가감
potato%variety%stem and leaf%α-solanine
马铃薯茎叶具有较高的饲用价值,但马铃薯茎叶中α-茄碱(龙葵素)含量高,适口性差,不易青贮,是影响马铃薯茎叶利用的主要因素。研究马铃薯茎叶中龙葵素的含量变化可为其利用提供安全技术保障。将马铃薯茎叶收获后风干粉碎,用乙醇-乙酸法提取,高效液相色谱法(HPLC法)测定混合样品中的α-茄碱含量,研究不同马铃薯品种茎叶中α-茄碱含量的差异。结果表明:‘费乌瑞它’、‘克新2号’、‘陇薯3号’、‘陇薯6号’、‘陇薯7号’5个马铃薯品种茎叶样品中α-茄碱的含量分别为0.138,0.171,0.159,0.185和0.199 mg/g。茎叶中α-茄碱的含量存在基因型差异。
馬鈴藷莖葉具有較高的飼用價值,但馬鈴藷莖葉中α-茄堿(龍葵素)含量高,適口性差,不易青貯,是影響馬鈴藷莖葉利用的主要因素。研究馬鈴藷莖葉中龍葵素的含量變化可為其利用提供安全技術保障。將馬鈴藷莖葉收穫後風榦粉碎,用乙醇-乙痠法提取,高效液相色譜法(HPLC法)測定混閤樣品中的α-茄堿含量,研究不同馬鈴藷品種莖葉中α-茄堿含量的差異。結果錶明:‘費烏瑞它’、‘剋新2號’、‘隴藷3號’、‘隴藷6號’、‘隴藷7號’5箇馬鈴藷品種莖葉樣品中α-茄堿的含量分彆為0.138,0.171,0.159,0.185和0.199 mg/g。莖葉中α-茄堿的含量存在基因型差異。
마령서경협구유교고적사용개치,단마령서경협중α-가감(룡규소)함량고,괄구성차,불역청저,시영향마령서경협이용적주요인소。연구마령서경협중룡규소적함량변화가위기이용제공안전기술보장。장마령서경협수획후풍간분쇄,용을순-을산법제취,고효액상색보법(HPLC법)측정혼합양품중적α-가감함량,연구불동마령서품충경협중α-가감함량적차이。결과표명:‘비오서타’、‘극신2호’、‘롱서3호’、‘롱서6호’、‘롱서7호’5개마령서품충경협양품중α-가감적함량분별위0.138,0.171,0.159,0.185화0.199 mg/g。경협중α-가감적함량존재기인형차이。
Stem and leaf of potato have high feeding values, but high content ofα-solanine in potato stem and leaf, which leads to poor palatability and difficulty in silage storage, is the main factor affecting utilization for potato stem and leaf. Understanding the content changes inα-solanine of stem and leaf could provide technical support for their safe use. After harvesting, stem and leaf of potato were dried and crushed, the mixed samples were extracted with ethanol acetic forα-solanine, and then high performance liquid chromatography (HPLC method) was used to determine its changes in different potato varieties. The results showed that theα-solanine contents of stem and leaf in 'Favorita', 'Kexin 2', 'Longshu 3', 'Longshu 6', and 'Longshu 7' were 0.138, 0.171, 0.159, 0.185 and 0.199 mg/g, respectively. Theα-solanine content of stems and leaves has genotypic difference.
