生态与农村环境学报
生態與農村環境學報
생태여농촌배경학보
JOURNAL OF ECOLOGY AND RURAL ENVIRONMENT
2010年
1期
87-91
,共5页
铝胁迫%马尾松幼苗%根系分泌物%有机酸%根际pH
鋁脅迫%馬尾鬆幼苗%根繫分泌物%有機痠%根際pH
려협박%마미송유묘%근계분비물%유궤산%근제pH
aluminum stress%masson pine (Pinus massoniana) seedling%root exudation%organic acid%rhizosphere pH
以马尾松幼苗为试验材料,选用砂培法研究铝胁迫对马尾松根际pH值、有机酸分泌以及植株中铝累积变化的影响.结果表明,高浓度铝导致根际pH值增加,当铝浓度高于300 μmol·L~(-1)时,根际pH值则趋于平稳.在测试的5种有机酸(草酸、苹果酸、柠檬酸、琥珀酸、乙酸)中,当铝浓度由0升至300 μmol·L~(-1)时,草酸和苹果酸根系分泌量随之升高,与根际pH值呈正相关关系;而当铝浓度高于300 μmol·L~(-1)时,草酸和苹果酸分泌量则趋于平稳,草酸和苹果酸的分泌影响根际pH值的变化.其次,活性铝通过根系进入植株后,由于营养作用和运输机制,出现分布差异,根部铝积累量明显高于茎和叶.当根系接触的铝浓度低于300 μmol·L~(-1)时,植株铝积累量与根际pH值,以及草酸、苹果酸分泌量呈显著正相关.
以馬尾鬆幼苗為試驗材料,選用砂培法研究鋁脅迫對馬尾鬆根際pH值、有機痠分泌以及植株中鋁纍積變化的影響.結果錶明,高濃度鋁導緻根際pH值增加,噹鋁濃度高于300 μmol·L~(-1)時,根際pH值則趨于平穩.在測試的5種有機痠(草痠、蘋果痠、檸檬痠、琥珀痠、乙痠)中,噹鋁濃度由0升至300 μmol·L~(-1)時,草痠和蘋果痠根繫分泌量隨之升高,與根際pH值呈正相關關繫;而噹鋁濃度高于300 μmol·L~(-1)時,草痠和蘋果痠分泌量則趨于平穩,草痠和蘋果痠的分泌影響根際pH值的變化.其次,活性鋁通過根繫進入植株後,由于營養作用和運輸機製,齣現分佈差異,根部鋁積纍量明顯高于莖和葉.噹根繫接觸的鋁濃度低于300 μmol·L~(-1)時,植株鋁積纍量與根際pH值,以及草痠、蘋果痠分泌量呈顯著正相關.
이마미송유묘위시험재료,선용사배법연구려협박대마미송근제pH치、유궤산분비이급식주중려루적변화적영향.결과표명,고농도려도치근제pH치증가,당려농도고우300 μmol·L~(-1)시,근제pH치칙추우평은.재측시적5충유궤산(초산、평과산、저몽산、호박산、을산)중,당려농도유0승지300 μmol·L~(-1)시,초산화평과산근계분비량수지승고,여근제pH치정정상관관계;이당려농도고우300 μmol·L~(-1)시,초산화평과산분비량칙추우평은,초산화평과산적분비영향근제pH치적변화.기차,활성려통과근계진입식주후,유우영양작용화운수궤제,출현분포차이,근부려적루량명현고우경화협.당근계접촉적려농도저우300 μmol·L~(-1)시,식주려적루량여근제pH치,이급초산、평과산분비량정현저정상관.
Masson pine seedlings were used as subject in a sand culture experiment to study effect of aluminum (Al) stress on rhizosphere pH, organic acid exudation and Al accumulation of masson pine seedlings. Results show that during the growth of masson pine seedlings, rhizosphere pH increased simultaneously with Al concentration rising from 0 to 300 μmol·L~(-1), but leveled off when Al concentration exceeded 300 μmol·L~(-1). Among the five organic acids (citric, oxalic, succinic, malic and acetic acids) examined in this experiment, only oxalic and malic acids demonstrated a similar trend, and a positive correlation to rhizosphere pH. The exudation of oxalic and malic acids plays an important role in variation of rhizosphere pH. Besides, once entering masson pine seedlings through their root system, active Al ions accumulated unevenly in the plant as a result of nutrition and transport mechanism and were significantly higher in roots than in stems and leaves. Al accumulation within the seedlings was positively correlated with rhizosphere pH, root exudation of oxalic and malic acids when Al concentration in the soil was under 300 μmol·L~(-1).