烟草科技
煙草科技
연초과기
Tobacco Science & Technology
2015年
9期
9-13,26
,共6页
李淮源%刘柏林%邓世媛%宋丹妮%周一叶%陈佳%陈建军
李淮源%劉柏林%鄧世媛%宋丹妮%週一葉%陳佳%陳建軍
리회원%류백림%산세원%송단니%주일협%진가%진건군
烤烟%铝胁迫%农艺性状%光合特性
烤煙%鋁脅迫%農藝性狀%光閤特性
고연%려협박%농예성상%광합특성
Flue-cured tobacco%Aluminum stress%Agronomic trait%Photosynthetic characteristic
为明确酸性土壤条件下烟草遭受铝毒害的生理机制,以烤烟为材料,采用水培盆栽试验在营养液pH5.0条件下设置硫酸铝浓度分别为0、50、250和500μmol·L-1 4个处理,研究了铝胁迫对烤烟生长及光合特性的影响.结果表明:①烤烟在铝胁迫条件下根系活力明显降低;②根系鲜质量和干质量、茎叶生物量随铝处理浓度的升高而降低,且对烤烟根系生长的抑制效应大于对茎和叶的抑制效应;③铝胁迫条件下烤烟株高、茎围和单叶叶面积亦受到抑制,但对叶片长度与宽度的影响则不同,铝胁迫处理对叶片伸长没有明显影响,而对叶宽的抑制效应明显,导致受到铝胁迫的烤烟烟叶叶片狭长;④铝胁迫5 d时的烤烟叶绿素含量(质量分数)明显增加,但铝胁迫20 d时对其含量没有产生明显影响;⑤在50μmol·L-1(低浓度)铝胁迫条件下,烟叶净光合速率、气孔导度及蒸腾速率升高,而在250和500μmol·L-1(高浓度)铝胁迫条件下烟叶净光合速率、气孔导度及蒸腾速率明显降低,铝胁迫对烟叶胞间CO2浓度没有明显影响.
為明確痠性土壤條件下煙草遭受鋁毒害的生理機製,以烤煙為材料,採用水培盆栽試驗在營養液pH5.0條件下設置硫痠鋁濃度分彆為0、50、250和500μmol·L-1 4箇處理,研究瞭鋁脅迫對烤煙生長及光閤特性的影響.結果錶明:①烤煙在鋁脅迫條件下根繫活力明顯降低;②根繫鮮質量和榦質量、莖葉生物量隨鋁處理濃度的升高而降低,且對烤煙根繫生長的抑製效應大于對莖和葉的抑製效應;③鋁脅迫條件下烤煙株高、莖圍和單葉葉麵積亦受到抑製,但對葉片長度與寬度的影響則不同,鋁脅迫處理對葉片伸長沒有明顯影響,而對葉寬的抑製效應明顯,導緻受到鋁脅迫的烤煙煙葉葉片狹長;④鋁脅迫5 d時的烤煙葉綠素含量(質量分數)明顯增加,但鋁脅迫20 d時對其含量沒有產生明顯影響;⑤在50μmol·L-1(低濃度)鋁脅迫條件下,煙葉淨光閤速率、氣孔導度及蒸騰速率升高,而在250和500μmol·L-1(高濃度)鋁脅迫條件下煙葉淨光閤速率、氣孔導度及蒸騰速率明顯降低,鋁脅迫對煙葉胞間CO2濃度沒有明顯影響.
위명학산성토양조건하연초조수려독해적생리궤제,이고연위재료,채용수배분재시험재영양액pH5.0조건하설치류산려농도분별위0、50、250화500μmol·L-1 4개처리,연구료려협박대고연생장급광합특성적영향.결과표명:①고연재려협박조건하근계활력명현강저;②근계선질량화간질량、경협생물량수려처리농도적승고이강저,차대고연근계생장적억제효응대우대경화협적억제효응;③려협박조건하고연주고、경위화단협협면적역수도억제,단대협편장도여관도적영향칙불동,려협박처리대협편신장몰유명현영향,이대협관적억제효응명현,도치수도려협박적고연연협협편협장;④려협박5 d시적고연협록소함량(질량분수)명현증가,단려협박20 d시대기함량몰유산생명현영향;⑤재50μmol·L-1(저농도)려협박조건하,연협정광합속솔、기공도도급증등속솔승고,이재250화500μmol·L-1(고농도)려협박조건하연협정광합속솔、기공도도급증등속솔명현강저,려협박대연협포간CO2농도몰유명현영향.
In order to clarify the physiological mechanism of tobacco suffered aluminum toxicity in acidic soil, the effects of aluminum stress on the growth and photosynthetic characteristics of flue-cured tobacco were studied via hydroponics experiments at 4 aluminum sulfate concentrations, 0, 50, 250 and 500μmol·L-1, with the nutrient solution pH of 5.0. The results showed that: 1) The root vigor of tobacco decreased obviously. 2) The fresh weight, dry weight of roots and the biomass of stems and leaves decreased with the increase of aluminum concentration, and the root was affected more than stems and leaves. 3) Under aluminum stress, the plant height, stalk circumference and single leaf area were inhibited;however, leaf length was not affected obviously, while leaf width did, which resulted in narrow long leaves. 4) The content of chlorophyll in leaves increased significantly 5 days after aluminum stress, but the influence became unobvious 20 days after aluminum stress. 5) The net photosynthetic rate, stomatal conductance and transpiration rate of tobacco leaves increased at 50 μmol·L-1, while significantly decreased at 250 and 500 μmol·L-1. However, aluminum stress did not remarkably affect the intercellular CO2 concentration of tobacco leaves.
