中国农学通报
中國農學通報
중국농학통보
CHINESE AGRICULTURAL SCIENCE BULLETIN
2013年
13期
163-167
,共5页
陈朝应%顾怀胜%徐宇航%邱萍%曹廷茂%李祖良%袁有波%林叶春
陳朝應%顧懷勝%徐宇航%邱萍%曹廷茂%李祖良%袁有波%林葉春
진조응%고부성%서우항%구평%조정무%리조량%원유파%림협춘
烤烟%成熟期%土壤水分%碳氮化合物
烤煙%成熟期%土壤水分%碳氮化閤物
고연%성숙기%토양수분%탄담화합물
flue-cured tobacco%maturity stage%soil moisture%carbonitride
成熟期是烤烟需水次临界期。为明确烤烟成熟期土壤水分对烟叶主要碳氮化合物的影响,试验在烤烟成熟期进行土壤控水,研究烟叶总糖、还原糖、淀粉、总氮和烟碱等的变化。结果表明:土壤含水率70%~85%,烤烟生长后期(移栽后约83天)烟叶总糖、还原糖和淀粉含量较高;干旱胁迫降低碳代谢,而干旱后复水碳代谢增强。70%~85%土壤含水率,烤烟总氮和烟碱水平较低;干旱胁迫促进氮代谢,总氮和烟碱含量较高;干旱胁迫后复水,烟叶总氮和烟碱含量处于中等水平。烤烟成熟期,土壤水分过高或过低,均不利于协调烟叶碳氮代谢平衡。
成熟期是烤煙需水次臨界期。為明確烤煙成熟期土壤水分對煙葉主要碳氮化閤物的影響,試驗在烤煙成熟期進行土壤控水,研究煙葉總糖、還原糖、澱粉、總氮和煙堿等的變化。結果錶明:土壤含水率70%~85%,烤煙生長後期(移栽後約83天)煙葉總糖、還原糖和澱粉含量較高;榦旱脅迫降低碳代謝,而榦旱後複水碳代謝增彊。70%~85%土壤含水率,烤煙總氮和煙堿水平較低;榦旱脅迫促進氮代謝,總氮和煙堿含量較高;榦旱脅迫後複水,煙葉總氮和煙堿含量處于中等水平。烤煙成熟期,土壤水分過高或過低,均不利于協調煙葉碳氮代謝平衡。
성숙기시고연수수차림계기。위명학고연성숙기토양수분대연협주요탄담화합물적영향,시험재고연성숙기진행토양공수,연구연협총당、환원당、정분、총담화연감등적변화。결과표명:토양함수솔70%~85%,고연생장후기(이재후약83천)연협총당、환원당화정분함량교고;간한협박강저탄대사,이간한후복수탄대사증강。70%~85%토양함수솔,고연총담화연감수평교저;간한협박촉진담대사,총담화연감함량교고;간한협박후복수,연협총담화연감함량처우중등수평。고연성숙기,토양수분과고혹과저,균불리우협조연협탄담대사평형。
Maturity stage is subcritical period of water demand for flue-cured tobacco. This study was to demonstrate effect of different soil moisture regimes at the maturity stage on content of total sugar, reducing sugar, starch, total nitrogen and alkaloid in flue-cured tobacco in field. The results showed that: with soil moisture content of 70% to 85%, the flue-cured tobacco had high contents of tobacco total sugar, reducing sugar and starch at the late growing stage (after transplanting approximately 83 days);drought stress decreased carbon metabolism, however, after the drought re-watering enhanced carbon metabolism. When soil moisture content of 70% to 85%, total nitrogen and nicotine levels was lower; drought stress promoted nitrogen metabolism, and total nitrogen and nicotine content was increased; while re-watering after drought stress, contents of tobacco leaf nitrogen and nicotine was in the middle level. At the maturity stage of tobacco, soil moisture was too high or too low, not to facilitate the coordination of the balance between tobacco leaf carbon and nitrogen metabolism.