热带农业科学
熱帶農業科學
열대농업과학
CHINESE JOURNAL OF TROPICAL AGRICULTURE
2015年
6期
5-10
,共6页
陈伟立%谢小林%李娟%陈杰忠%姚青
陳偉立%謝小林%李娟%陳傑忠%姚青
진위립%사소림%리연%진걸충%요청
‘砂糖橘’%缺镁%矿质养分%抗氧化酶
‘砂糖橘’%缺鎂%礦質養分%抗氧化酶
‘사당귤’%결미%광질양분%항양화매
‘Shatangju’%magnesium deficiency%mineral nutrients%anti-oxidant enzymes
试验采用珍珠岩基质培养法,研究缺镁胁迫对枳砧‘砂糖橘’植株的矿质养分吸收和抗氧化活性等生理生化过程的影响。结果表明:与对照相比,缺镁处理90 d导致‘砂糖橘’植株叶片叶绿素含量显著降低; N、P、 K、 Mg含量降低,但都未达到显著水平,其中镁含量下降幅度最大,为23.0%;另外,缺镁处理3个月后发现N、 P和Mg含量都降低,而钾含量增加了2倍多。缺镁胁迫引起叶片中过氧化氢和MDA含量增加,相应地导致POD和CAT活性提高,但是SOD活性未受影响, APX活性变化也无规律。这些数据表明,90 d的缺镁胁迫能够引起‘砂糖橘’植株叶片中活性氧的累积, POD和CAT可能参与了活性氧的清除。
試驗採用珍珠巖基質培養法,研究缺鎂脅迫對枳砧‘砂糖橘’植株的礦質養分吸收和抗氧化活性等生理生化過程的影響。結果錶明:與對照相比,缺鎂處理90 d導緻‘砂糖橘’植株葉片葉綠素含量顯著降低; N、P、 K、 Mg含量降低,但都未達到顯著水平,其中鎂含量下降幅度最大,為23.0%;另外,缺鎂處理3箇月後髮現N、 P和Mg含量都降低,而鉀含量增加瞭2倍多。缺鎂脅迫引起葉片中過氧化氫和MDA含量增加,相應地導緻POD和CAT活性提高,但是SOD活性未受影響, APX活性變化也無規律。這些數據錶明,90 d的缺鎂脅迫能夠引起‘砂糖橘’植株葉片中活性氧的纍積, POD和CAT可能參與瞭活性氧的清除。
시험채용진주암기질배양법,연구결미협박대지침‘사당귤’식주적광질양분흡수화항양화활성등생리생화과정적영향。결과표명:여대조상비,결미처리90 d도치‘사당귤’식주협편협록소함량현저강저; N、P、 K、 Mg함량강저,단도미체도현저수평,기중미함량하강폭도최대,위23.0%;령외,결미처리3개월후발현N、 P화Mg함량도강저,이갑함량증가료2배다。결미협박인기협편중과양화경화MDA함량증가,상응지도치POD화CAT활성제고,단시SOD활성미수영향, APX활성변화야무규률。저사수거표명,90 d적결미협박능구인기‘사당귤’식주협편중활성양적루적, POD화CAT가능삼여료활성양적청제。
The influences of magnesium (Mg) deficiency on the physio-biochemical processes of‘Shatangju’ plants on trifoliate orange rootstock, e.g. uptake of mineral nutrients and anti-oxidant enzyme activities, were studied using perlite as substrate. The results showed that compared with the control, the treatment of Mg deficiency for 90 days significantly decreased the chlorophyll contents in the leaves of 'Shatangju' plants. And the contents of N, P, K and Mg declined without significant difference, among which the maximum reduction(23.0%) was found in Mg content. Besides, at the end of the treatment of Mg deficiency, the contents of N, P and Mg decreased, but not K. Mg deficiency induced the increase in the H2O2 and MDA contents, and accordingly increased the POD and CAT activities, however, SOD activity was not affected and the change in APX activity was stable. These data indicate that Mg deficiency for 90 days can induce the accumulation of reactive oxygen species (ROS) in the leaves of‘Shatangju’ plants, and that POD and CAT are possibly involved in scavenging ROS.