两个番茄品种叶绿体超微结构及光合生理对弱光胁迫的响应

孟宪敏¹(

),季延海^1,²,孙旺旺³,武占会^1,²,储昭胜¹,刘明池^1,²(

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Response of Chloroplast Ultrastructure and Photosynthetic Physiology of Two Tomato Varieties to Low Light Stress

XianMin MENG¹(

),YanHai JI^1,²,WangWang SUN³,ZhanHui WU^1,²,ZhaoSheng CHU¹,MingChi LIU^1,²(

)

图3. 弱光对气孔空间分布格局的影响
A、B分别为‘佳西娜’的对照和弱光处理,C、D分别为‘京丹1号’的对照和弱光处理。图中上下两条虚线代表95%置信区间的上下边界,红线代表K(d)值,绿线代表叶片上气孔分布由规则变为随机时,所对应的空间尺度和L(d)值。L(d)表示最小邻域距离,当L(d)值小于95%置信区间时,气孔在该尺度为规则分布,且L(d)的最小值越小,则气孔空间分布越规则

Fig. 3. Effect of low light on spatial distribution pattern of stomata
A, B are CK and low light treatment of Glorioso; C, D are CK and low light treatment of Jingdan No.1, respectively. The upper and lower dashed lines represent the upper and lower boundaries of 95% confidence intervals, the red line represents the K(d) value, and the green line represents the corresponding spatial scale and L(d) value when stomatal distribution on leaves changed from regular to random. L(d) is the minimum neighborhood distance, when L(d) value is less than 95% confidence interval, the stomata distribution is regular in this scale, and the smaller of L(d), the more regular the spatial distribution of stomata