西北植物学报
西北植物學報
서북식물학보
ACTA BOTANICA BOREALI-OCCIDENTALIA SINICA
2009年
7期
1421-1425
,共5页
大穗结缕草%耐盐机理%耐盐极限%盐胁迫
大穗結縷草%耐鹽機理%耐鹽極限%鹽脅迫
대수결루초%내염궤리%내염겁한%염협박
Zoysia macrostachya%salt-tolerant mechanisms%salt-tolerant limitation%salt stress
以大穗结缕草为实验材料,采用不同质量分数的NaCl处理后,观察盐胁迫对其生长及生理生化指标的影响.结果表明:随着盐胁迫浓度增大,大穗结缕草幼苗株高、鲜重、干重都逐渐下降,而根容量和根冠比却逐渐上升;随盐胁迫浓度的增大,大穗结缕草幼苗叶片细胞质膜透性和MDA含量逐渐增加,脯氨酸含量持续升高;其多数生长和生理指标在≥2.0% NaCl盐胁迫浓度下与对照差异显著,且此时的脯氨酸含量是对照的10倍以上.研究发现,大穗结缕草幼苗地上部分对盐胁迫更敏感、受害更严重;通过体内脯氨酸积累来减轻渗透胁迫是其可能的耐盐生理机制;2.0%盐胁迫可能是大穗结缕草的最高耐盐浓度.
以大穗結縷草為實驗材料,採用不同質量分數的NaCl處理後,觀察鹽脅迫對其生長及生理生化指標的影響.結果錶明:隨著鹽脅迫濃度增大,大穗結縷草幼苗株高、鮮重、榦重都逐漸下降,而根容量和根冠比卻逐漸上升;隨鹽脅迫濃度的增大,大穗結縷草幼苗葉片細胞質膜透性和MDA含量逐漸增加,脯氨痠含量持續升高;其多數生長和生理指標在≥2.0% NaCl鹽脅迫濃度下與對照差異顯著,且此時的脯氨痠含量是對照的10倍以上.研究髮現,大穗結縷草幼苗地上部分對鹽脅迫更敏感、受害更嚴重;通過體內脯氨痠積纍來減輕滲透脅迫是其可能的耐鹽生理機製;2.0%鹽脅迫可能是大穗結縷草的最高耐鹽濃度.
이대수결루초위실험재료,채용불동질량분수적NaCl처리후,관찰염협박대기생장급생리생화지표적영향.결과표명:수착염협박농도증대,대수결루초유묘주고、선중、간중도축점하강,이근용량화근관비각축점상승;수염협박농도적증대,대수결루초유묘협편세포질막투성화MDA함량축점증가,포안산함량지속승고;기다수생장화생리지표재≥2.0% NaCl염협박농도하여대조차이현저,차차시적포안산함량시대조적10배이상.연구발현,대수결루초유묘지상부분대염협박경민감、수해경엄중;통과체내포안산적루래감경삼투협박시기가능적내염생리궤제;2.0%염협박가능시대수결루초적최고내염농도.
The effect of various concentrations of NaCl on physiological and biochemical index of Zoysia macrostachya seedlings were examined.The results showed that the average height,fresh weight and dry weight of the whole plant decline with the increase of NaCl concentration in medium,but root capacities and ratio of the root/shoot fresh weight are increasing.As well as,the plasma lemma permeability,the malondialdehyda (MDA) content and proline content of Z.macrostachya seedling leaves increase gradually with the increase of NaCl concentration.Most of growth and physiology indices are significantly different with CK on the 2.0% salt concentration.These results suggest that the effect of salt stress lies in the upper part of Z.macrostachya on the ground;By the use of accumulated proline in the body to reduce osmotic stress is a possible physiological mechanism of salt-tolerance;2.0% salt stress may be the extreme salt-tolerance for Z.macrostachya seedlings.
