北京林业大学学报
北京林業大學學報
북경임업대학학보
JOURNAL OF BEIJING FORESTRY UNIVERSITY
2001年
1期
17-23
,共7页
王艳青%蒋湘宁%李悦%周晓阳%曾端香%周金池
王豔青%蔣湘寧%李悅%週曉暘%曾耑香%週金池
왕염청%장상저%리열%주효양%증단향%주금지
刺槐苗%盐胁迫%膜透性%离子%区隔化
刺槐苗%鹽脅迫%膜透性%離子%區隔化
자괴묘%염협박%막투성%리자%구격화
该文从器官水平和细胞水平对盐胁迫后的刺槐苗离子含量进行分析,比较了不同组织膜透性和盐离子在刺槐组织及细胞中的分配特点.研究表明:随胁迫时间的延长,叶片细胞膜系统受到的伤害比根部细胞膜系统大.根部的Na+含量较高,其分布量的顺序是根>茎>叶,叶片中盐离子含量较低,从而减少了盐胁迫对地上部的毒害;K+的含量则与Na+相反,其分布量的顺序为:叶>茎>根,幼嫩的组织中分布较多,以保证植物正常的代谢活动.刺槐根皮层细胞的液泡中积累Na+和Cl-的量远高于细胞质,说明刺槐的根皮层细胞对Na+和Cl-具有一定的区隔化作用.刺槐叶肉细胞的细胞壁、细胞质和液泡中Na+和Cl-的含量没有明显差别.测定结果表明,器官水平与细胞水平耐盐机制具有一致性.
該文從器官水平和細胞水平對鹽脅迫後的刺槐苗離子含量進行分析,比較瞭不同組織膜透性和鹽離子在刺槐組織及細胞中的分配特點.研究錶明:隨脅迫時間的延長,葉片細胞膜繫統受到的傷害比根部細胞膜繫統大.根部的Na+含量較高,其分佈量的順序是根>莖>葉,葉片中鹽離子含量較低,從而減少瞭鹽脅迫對地上部的毒害;K+的含量則與Na+相反,其分佈量的順序為:葉>莖>根,幼嫩的組織中分佈較多,以保證植物正常的代謝活動.刺槐根皮層細胞的液泡中積纍Na+和Cl-的量遠高于細胞質,說明刺槐的根皮層細胞對Na+和Cl-具有一定的區隔化作用.刺槐葉肉細胞的細胞壁、細胞質和液泡中Na+和Cl-的含量沒有明顯差彆.測定結果錶明,器官水平與細胞水平耐鹽機製具有一緻性.
해문종기관수평화세포수평대염협박후적자괴묘리자함량진행분석,비교료불동조직막투성화염리자재자괴조직급세포중적분배특점.연구표명:수협박시간적연장,협편세포막계통수도적상해비근부세포막계통대.근부적Na+함량교고,기분포량적순서시근>경>협,협편중염리자함량교저,종이감소료염협박대지상부적독해;K+적함량칙여Na+상반,기분포량적순서위:협>경>근,유눈적조직중분포교다,이보증식물정상적대사활동.자괴근피층세포적액포중적루Na+화Cl-적량원고우세포질,설명자괴적근피층세포대Na+화Cl-구유일정적구격화작용.자괴협육세포적세포벽、세포질화액포중Na+화Cl-적함량몰유명현차별.측정결과표명,기관수평여세포수평내염궤제구유일치성.
This paper analyzes the ion content of salt stress in Robiniapseudoacacia seedlings both on organ and cellular level, compares the ion permeability in different tissues and the characteristics in salt ion absorbing and distribution.The results show that:as salt stress increased and treatment time extended the leaves were damaged more than that of roots.Distribution of content of Na+ was root>stem>leaf,the ion content was lower in leaf, so that the damage on ion to the parts above the ground decreased.Effects of K+ was contrary to Na+,distribution of K+ in seedlings was leaf>stem>root,and was higher in plumelet tissuse; it went to stable to ensure the metabolism of seedlings.The accumulation of Na+ and Cl- in the vacuolar was much higher than that in the cytoplasm in the cell of root cortex,the cells of root cortex of Rubinia had Na+ and Cl- compartmentation.The content of Na+ and Cl- did not differ distinctly among the cell walls,cytoplasm and vocuole of the mesophyll cell of Robinia.The data show that its salt resistance mechanism is consistent with that in leave both on organ and cellular level.