拟南芥AtFTCD-L参与根系响应土壤紧实度的机制

刘雨函, 曹启江, 张诗晗, 李益慧, 王菁, 谭晓萌, 刘筱儒, 王显玲

Mechanism by which AtFTCD-L is Involved in the Root Response to Soil Compaction

Yuhan Liu, Qijiang Cao, Shihan Zhang, Yihui Li, Jing Wang, Xiaomeng Tan, Xiaoru Liu, Xianling Wang

图4 突变体与野生型(WT)拟南芥植株根尖在高紧实度阻力下的细胞形态 (A) 突变体与野生型植株根在琼脂浓度梯度培养基中的生长情况; (B) 图(A)中突变体与野生型7天根尖细胞横向宽度的统计结果; (C) 突变体与野生型植株根尖在高紧实度(3%)培养基中的细胞形态; (D) 图(A)中突变体与野生型7天根尖细胞长度统计结果。* P<0.05。Bars=20 μm

Figure 4 Comparison of the cell morphology of Arabidopsis thaliana root tips between the mutant and wild-type (WT) plants in high-compactness resistance media (A) Root growth of the mutant and WT lines in gradient agar media; (B) Statistical results of apical width of the root tip cells on the 7th day in figure (A); (C) Cell morphology of the root tips for mutant and WT in high-compactness resistance media (3%); (D) Statistical results of the root tip cell length of the mutant and WT plants on the 7th day in figure (A). * P<0.05. Bars=20 μm