贵州农业科学
貴州農業科學
귀주농업과학
GUIZHOU AGRICULTURAL SCIENCES
2015年
4期
54-58
,共5页
危月辉%王红丽%孙榅淑%黄化刚%史宏志
危月輝%王紅麗%孫榅淑%黃化剛%史宏誌
위월휘%왕홍려%손온숙%황화강%사굉지
烤烟%氮素%质体色素%中性致香成分
烤煙%氮素%質體色素%中性緻香成分
고연%담소%질체색소%중성치향성분
flue-cured tobacco%nitrogen%chromoplast pigment%neutral aroma components
为生产优质烟叶提供理论依据,以贵州烟区主栽品种毕纳1号进行盆栽试验,精准控制烟株不同时期的供氮比例,研究3种氮素供应模式(处理1,伸根期20%+旺长期45%+成熟期35%;处理2,伸根期25%+旺长期55%+成熟期20%;处理3,伸根期30%+旺长期65%+成熟期5%)对烟叶质体色素和烤后烟叶香气物质含量的影响。结果表明:处理3 烟叶成熟期质体色素降解速度快,烤后烟叶色素残留量低,类胡萝卜素含量最大,中部、上部烟叶分别为(177.84±5.69)μg/g 和(139.93±1.13)μg/g,分别比处理2增加13.8%和20.1%,比处理1 增加4.6%和10.0%,其中处理3 烟叶的β-大马酮、β-二氢大马酮、巨豆三烯酮等及类西柏烷类含量、上部叶棕色化产物和新植二烯等致香成分含量均较高。前重后轻供氮模式的烟叶质量显著优于后期持续供氮模式的烟叶,有利于促进烟叶前期合成较多的质体色素,后期充分降解形成香气成分,对提高烟叶香味品质十分有利。
為生產優質煙葉提供理論依據,以貴州煙區主栽品種畢納1號進行盆栽試驗,精準控製煙株不同時期的供氮比例,研究3種氮素供應模式(處理1,伸根期20%+旺長期45%+成熟期35%;處理2,伸根期25%+旺長期55%+成熟期20%;處理3,伸根期30%+旺長期65%+成熟期5%)對煙葉質體色素和烤後煙葉香氣物質含量的影響。結果錶明:處理3 煙葉成熟期質體色素降解速度快,烤後煙葉色素殘留量低,類鬍蘿蔔素含量最大,中部、上部煙葉分彆為(177.84±5.69)μg/g 和(139.93±1.13)μg/g,分彆比處理2增加13.8%和20.1%,比處理1 增加4.6%和10.0%,其中處理3 煙葉的β-大馬酮、β-二氫大馬酮、巨豆三烯酮等及類西柏烷類含量、上部葉棕色化產物和新植二烯等緻香成分含量均較高。前重後輕供氮模式的煙葉質量顯著優于後期持續供氮模式的煙葉,有利于促進煙葉前期閤成較多的質體色素,後期充分降解形成香氣成分,對提高煙葉香味品質十分有利。
위생산우질연협제공이론의거,이귀주연구주재품충필납1호진행분재시험,정준공제연주불동시기적공담비례,연구3충담소공응모식(처리1,신근기20%+왕장기45%+성숙기35%;처리2,신근기25%+왕장기55%+성숙기20%;처리3,신근기30%+왕장기65%+성숙기5%)대연협질체색소화고후연협향기물질함량적영향。결과표명:처리3 연협성숙기질체색소강해속도쾌,고후연협색소잔류량저,류호라복소함량최대,중부、상부연협분별위(177.84±5.69)μg/g 화(139.93±1.13)μg/g,분별비처리2증가13.8%화20.1%,비처리1 증가4.6%화10.0%,기중처리3 연협적β-대마동、β-이경대마동、거두삼희동등급류서백완류함량、상부협종색화산물화신식이희등치향성분함량균교고。전중후경공담모식적연협질량현저우우후기지속공담모식적연협,유리우촉진연협전기합성교다적질체색소,후기충분강해형성향기성분,대제고연협향미품질십분유리。
The effects of three different nitrogen supply patterns (Treatment 1: The nitrogen application amount of tobacco plants at root elongation,vigorous growth and maturity stage is 20%,45%and 35% of total nitrogen application amount respectively;Treatment 2:The nitrogen application amount of tobacco plants at root elongation,vigorous growth and maturity stage is 25%,55% and 20% of total nitrogen application amount respectively;Treatment 3:The nitrogen application amount of tobacco plants at root elongation,vigorous growth and maturity stage is 30%,65% and 5% of total nitrogen application amount respectively) on chromoplast pigment content in tobacco leaves and the content of aroma substances in cured tobacco leaves of Bina 1 were analyzed by the pot test to provide the theoretical basis for producing high-quality tobacco leaf.The degradation velocity of chromoplast pigment in tobacco leaves of treatment 3 at maturity stage is fast.The pigment residual amount and carotenoids content in cured tobacco leaves of Treatment 3 are low and the maximum.The carotenoids content in middle and upper leaf of cured tobacco leaves of Treatment 3 is 177.84±5.69 μg/g and 139.93±1.13 μg/g,13.8% and 20.1%, and 4.6% and 10.0% higher than treatment 2 and treatment1 respectively.Theβ-damascenone,β-dihydro damascenone and megastigmatrienone content in tobacco leaves and brown product and neophytadiene content in upper leaf of Treatment 3 are higher.The tobacco quality under the nitrogen supply model of Treatment 3 is significantly higher than under the nitrogen supply models of Treatment 2 and Treatment 1 because the nitrogen supply model of Treatment 3 benefits to promote synthesis of more chromoplast pigment in tobacco leaves at early growth stage and form aroma components by fully degrading chromoplast pigment at later growth stage,which is good for aroma quality of tobacco leaf.