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Relationship Between Negative Air Ion Generation by Plants and Stomatal Characteristics Under Stimulation of Pulsed Electrical Field
Wu Renye, Sun Yuanfen, Zheng Jingui, Deng Chuanyuan, Ye Dapeng, Wang Qingshui
Chinese Bulletin of Botany    2017, 52 (6): 744-755.   DOI: 10.11983/CBB16242
Abstract   (1297 HTML17 PDF(pc) (641KB)(1142)  

Under normal conditions, the capacity of plants to generate negative air ions (NAIs) is very weak. However, stimulation of a pulsed electrical field can result in substantial improvement of the ability for NAI generation. We examined NAI generation in Stromanthe sanguinea, Calathea zebrina, and Hippeastrum rutilum in glass chambers under the natural state and under pulsed electrical field and light stimulation and analyzed the shape of stomata. We found variation in NAI generation by plants due to the different combined parameters of the pulsed electrical field. Each plant has its own optimal pulsed electrical field with a combination of parameters for efficient NAI generation: S. sanguinea with A3B3C3 (A3, U=1.5×104 V; B3, T=1.5 s; C3, τ =65 ms), C. zebrina with A3B4C1 (A3, U=1.5×104 V; B4, T=2.0 s; C1,τ =5 ms) and H. rutilum with A4B4C1 (A4, U=2.0×104 V; B4, T=2.0 s; C1, τ=5 ms). With the application of a pulsed electrical field to plants, the higher the voltage, the greater the capacity for NAI generation. With enhanced light intensity, the ability to generate NAI significantly increased with application of a pulsed electrical field. Without the pulsed electrical field, despite the slightly increased NAI concentration with increasing light intensity, NAI concentration did not differ (P>0.05). Finally, NAI generation was closely related to the characteristics of leaf stomata. Furthermore, a greater degree of stomatal opening and stomatal density was associated with stronger capacity to generate NAI.


Level Factors
A (103 V) B (s) C (ms)
1 8 0.5 5
2 10 1.0 35
3 15 1.5 65
4 20 2.0 90
Table 2 Factors and levels for orthogonal test
Extracts from the Article
脉冲电场作用下植物释放负离子浓度的测量实验设置1个对照组, 即土壤(无植物)。采用福建农林大学研制的电脉冲刺激仪进行测定, 该仪器平均脉冲输出电压U=0.8×104-2.0×104 V, 脉冲间隔T=0.5-2.0 s, 脉冲宽度τ=5-90 ms。为研究施加不同强度脉冲电场对植物释放负离子能力的影响, 采用3因素(脉冲电压A、脉冲间隔B和脉冲宽度C) 4水平(表2)的正交设计实验, 共设置16个处理, 每个处理3个重复。测量前将脉冲刺激仪的探针在离株茎外围5 cm处埋入土壤(深5 cm), 之后施加脉冲电场刺激。3次重复的负离子浓度均值作为该脉冲电场作用下该植物释放负离子的浓度值。
表2
P0: 盆土。P4、P6和P7同表1。A、B和C同表2。同列不同小写字母表示在不同参数的脉冲电场作用下同一品种间差异显著(P<0.05)。
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