外源氮对盐胁迫条件下长春花生长和氮代谢途径的影响1)
외원담대염협박조건하장춘화생장화담대사도경적영향1)
Effects of Exogenously Supplied Nitrogen on Growth and Nitrogen Metabolism of Periwinkle (Catharanthus roseus (l.) g.Don) under Salt Stress
  • 万方数据
    东北林业大学学报 동북임업대학학보
    JOURNAL OF NORTHEAST FORESTRY UNIVERSITY
    2015年 7期 59-62 ,共4页

    朱虹%郭晓瑞

    주홍%곽효서

    长春花%外源氮%盐胁迫%初级氮代谢 長春花%外源氮%鹽脅迫%初級氮代謝
    장춘화%외원담%염협박%초급담대사
    Catharanthus roseus ( l.) g.Don%Exogenous nitrogen%Salt stress%Elementary nitrogen metabolism
    以药用植物长春花( Catharanthus roseus ( L.) G.Don)为对象,研究不同形态外源氮供应条件下,长春花生长发育与体内氮代谢响应盐胁迫的变化特点。结果表明,无盐胁迫条件下,不同形态氮源供应对长春花生长影响不显著,但硝态氮与氨态氮混合供应的情况下,硝酸还原酶( NR)和谷氨酰胺合成酶( GS)的活性及游离氨基酸总质量分数显著高于其他氮源条件下的;在盐胁迫条件下,硝态氮和氨态氮混合供应显著增加了叶片生物量积累,同时,NR活性也显著提高。总体上,混合氮源供应可以减少盐胁迫对长春花的伤害。这种作用可能与氮代谢过程中关键酶活性的增加有关,特别是与氨代谢有关的酶有关,适量的氨离子可以节省植物代谢硝态氮的能量。
    이약용식물장춘화( Catharanthus roseus ( L.) G.Don)위대상,연구불동형태외원담공응조건하,장춘화생장발육여체내담대사향응염협박적변화특점。결과표명,무염협박조건하,불동형태담원공응대장춘화생장영향불현저,단초태담여안태담혼합공응적정황하,초산환원매( NR)화곡안선알합성매( GS)적활성급유리안기산총질량분수현저고우기타담원조건하적;재염협박조건하,초태담화안태담혼합공응현저증가료협편생물량적루,동시,NR활성야현저제고。총체상,혼합담원공응가이감소염협박대장춘화적상해。저충작용가능여담대사과정중관건매활성적증가유관,특별시여안대사유관적매유관,괄량적안리자가이절성식물대사초태담적능량。
    With the periwinkle (Catharanthus roseus (L.) G.Don), we studied the growth characteristics and nitrogen metabolismof plant under exogenous nitrogen in different forms of exogenous nitrogen under salt stress.The effect of nitrogensource in different forms on the periwinkle plants upon non-salt stress was not significant.But nitrate reductase (NR) andsynthetase (GS) activity and total free amino acid amount were significantly higher when nitrate nitrogen and ammoniumnitrogen were mixed to be supplied.Under salt stress, the leaf biomass accumulation was significantly increased in mixtureof nitrate nitrogen and ammonium nitrogen.NR activity was improved significantly .Overall, when the nitrogen source wasmixed to be supplied, plant damage of salt stress was reduced on periwinkle.The key enzyme activity increased was relatedto ammonium metabolism enzymes in nitrogen metabolism.The right amount of ammonium ion can save the energy of thenitrate nitrogen from plant metabolism.
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