Some Physiological Insights of 2,4-D Sensitivity in an Aquatic Fern: Azolla pinnata R.Br

A. De, N. Dey, M. K. Adak
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引用次数: 2

Abstract

In an experiment with Azolla pinnata R.Br. under varying concentrations of herbicide (2,4-D), it reveals that the fern species has an wider ranges of physiological activities in moderation. Initially, the effects of the herbicide were reflected with minimum changes in dry matter accumulation in a dose dependent manner. The changes of membrane permeability had the maximum effects on 1000 μM of 2,4-D following the concentration gradient. However, the intermediate concentration of herbicide had not brought any significant changes in electrolytic conductivity. At initial concentration of herbicide treatments the electrolyte conductivity remains more stable. In support to osmotic stability plants recorded a significant change in water deficits that was experienced by proline accumulation in tissues. Thus, a steady increase in proline concentration was the feature of this species when interacts with 2,4-D. In another way the fern species had tolerated the loss of turgidity with significant accumulation of glycine-betaine with their maximum value at 1000 μM of 2,4-D. In further progress of effects of 2,4-D the plants were significantly characterised with an increase in ROS activities. Thus, ROS induced tissue lysis was detected by in vivo Evan's Blue staining of the root tissues with maximum intensity at 1000 μM of 2,4-D. The initial defence barrier of this species against ROS at cellular spaces was studied with in-gel analysis of enzyme like wallbound peroxidase. Plants registered a maximum peroxidase activities at influence of 2,4-D with 1000 μM. In addition to gene expression in Azolla a distinct polymorphism was observed as a function of 2,4-D treatments and that may be set as a bio indicator to herbicide interaction.
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水生蕨类植物杜鹃(Azolla pinnata R.Br) 2,4- d敏感性的生理学研究
以凤仙花为原料进行试验。在不同浓度的除草剂(2,4- d)下,揭示了蕨类植物在适度的情况下具有更广泛的生理活性。最初,除草剂的影响反映在干物质积累的最小变化上,且呈剂量依赖性。在2,4- d浓度为1000 μM时,膜透性随浓度梯度变化最大。而除草剂的中间浓度对电解电导率没有显著影响。在初始浓度除草剂处理下,电解质电导率保持较稳定。为了支持渗透稳定性,植物记录了组织中脯氨酸积累所经历的水分亏缺的显著变化。因此,当与2,4- d相互作用时,脯氨酸浓度稳定增加是该物种的特征。在另一种方式下,蕨类植物可以忍受因甘氨酸-甜菜碱的显著积累而失去肿胀性,其最大值在1000 μM的2,4- d下。在对2,4- d影响的进一步研究中,植物的ROS活性显著增加。因此,通过对根组织进行体内Evan’s Blue染色,最大强度为1000 μM的2,4- d,检测ROS诱导的组织裂解。通过凝胶内酶(如壁结合过氧化物酶)分析,研究了该物种对细胞间隙ROS的初始防御屏障。在2,4- d浓度为1000 μM时,植株过氧化物酶活性最高。在2,4- d处理下,杜鹃花除基因表达外,还存在明显的多态性,这可能是除草剂互作的生物学指标。
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