摘要
在人工模拟水分胁迫情况下,对抗旱性不同的3个绿豆突变体即172-3(高抗)、159-1(中抗)、145-1(弱抗)和原材料中绿2号(不抗)在不同生育期不同程度水分胁迫下的抗旱生理响应进行了研究,旨在探明其不同的抗性机理。研究发现:随着水分胁迫的加剧,抗旱性强的突变体叶绿素含量减小幅度小,SOD活性、POD活性和NR活性明显高于抗性低的品种,表明水分胁迫对这些生理特性的影响程度与绿豆的抗旱性有关。
The drought resistance physiological responses of three mung bean mutants 172-3 (high resistance), 159-1 (moderate resistance), 145-1 ( low resistance) and their parent cultivars Zhonglv No. 2 ( drought sensitive) were studied in the distinct growing stage and under varying water stress. The purpose was to ascertain the mechanism of drought resistance. The results were as follows:With the increasing of water stress levels, compared with weak drought-resistance varieties, the high drought-resistance mung bean mutant were characterized as that the content of chlorophyll decreased by a less and the activity of SOD, POD and NR is obviously higher, which indicated these physiological characters were related to the drought-resistance of mung bean's.
出处
《华北农学报》
CSCD
北大核心
2007年第6期98-102,共5页
Acta Agriculturae Boreali-Sinica
基金
山西省自然科学基金项目(20011085)
关键词
抗旱性
绿豆突变体
水分胁迫
生理响应
Drought resistance
Mung bean mutants
Water stress
Physiological responses
