DCPTA对干旱胁迫下玉米种子萌发影响的无损检测

    Non-destructive detection of the effects of DCPTA on maize seed germination under drought stress

    • 摘要: 为探究2-(3,4-二氯苯氧基)乙基二乙胺(2-(3,4-dichlorophenoxy) ethyl triethylamine,DCPTA)在干旱胁迫下对玉米种子萌发的影响,使用聚乙二醇(polyethylene glycol-6000,PEG-6000)和浓度为0.5、1.0、1.5 mg/L的DCPTA混合溶液对玉米种子进行浸泡处理,采用种子标准发芽试验总结得出不同浓度的DCPTA对玉米种子发芽情况影响的规律,再结合低场核磁共振(low field nuclear magnetic resonance,LF-NMR)及核磁共振成像(magnetic resonance imaging,MRI)技术,通过研究其内部水分变化情况、水分迁移规律及水分分布特征解释造成该结果的原因。试验结果表明:一定浓度的DCPTA可以提高玉米种子萌发过程中的耐旱性能,加快种子内部水分的存储速率,提供种子萌发所需的水分条件,减轻干旱胁迫对玉米种子造成的损害。DCPTA对玉米种子干旱胁迫的缓解效果随着其浓度的升高呈现先上升后下降的趋势,以1.0 mg/L的DCPTA处理效果最显著(P<0.05)。该研究有助于揭示DCPTA缓解干旱胁迫下玉米种子萌发的内部变化规律,可为提高玉米种子抗旱性的相关研究提供重要手段。

       

      Abstract: 2-(3,4-dichlorophenoxy)ethyl triethylamine (DCPTA) serves as one of the most important regulators to improve the stress resistance of crops. Taking the corn seeds as the research object, this study aims to investigate the effects of different DCPTA concentrations on drought stress in plant growth. Distilled water was taken as the control group. A 10% concentration of polyethylene glycol 6000 (PEG-6000) solution was as the control group of drought stress. The drought environment was then simulated during the growth of corn seeds. Three types of 10% PEG-6000 solutions were mixed with DCPTA at the concentrations of 0.5, 1.0, and 1.5 mg/L as three experimental groups. Corn seeds were also soaked in five solutions. Three experiments were conducted to verify the alleviating effect of DCPTA on maize seeds under drought stress. Firstly, the seed standard germination test was carried out to determine the germination rate, germination potential, as well as the average embryo and radicle length of maize seeds on the 8th day of germination. The drought resistance index of seed germination was also calculated for four experimental groups, except for the distilled water group. These germination indicators were selected to clarify the effects of DCPTA concentrations on the germination of corn seeds. Two LF-NMR experiments were used to reveal the internal causes of this pattern from a molecular perspective. Low-field nuclear magnetic resonance (LF-NMR) technology was used to obtain T2 relaxation spectra during maize seed germination. According to the differences in T2 relaxation spectra among five experimental groups, the differences were then obtained in the internal water and water migration patterns during maize seed germination in the solution environments. Finally, magnetic resonance imaging (MRI) technology was used to obtain a proton density-weighted image of corn seeds. The pseudo-color image was then obtained using pseudo-color processing. The color and area feature parameters were further extracted from the pseudo-color images. The color feature parameters R, G, and the sum of R and G were normalized by area in the pseudo color images. The trend was achieved in the changing pattern of water distribution in corn seeds. The experimental results showed that the germination rate of corn seeds increased by 34%, 20%, and 12%, respectively, while the germination potential increased by 18%, 8%, and 6%, respectively, and the germination drought resistance index increased by 26.29%, 16.33%, and 9.96%, respectively, as the addition of 0.5, 1.0, and 1.5 mg/L DCPTA increased, compared with the drought stress group. The length of the embryo and radicle also increased in the maize seeds. According to the T2 relaxation spectrum of corn seeds, DCPTA reduced the proportion of semi-bound water in corn seeds, while increasing the proportion of free water and the content of total water, thereby promoting the transition of corn seeds to a more fluid state with a better conditions for the germination of corn seeds. According to the changes in the color characteristic parameters of corn seeds, DCPTA can be expected to make the water distribution of corn seeds more concentrated at the center of the embryo, thus promoting the germination of corn seeds. The relieving effect of DCPTA on drought stress in the maize seeds showed a trend of first increasing and then decreasing with the increase of the concentration. The most significant performance was found in the treatment with 1.0 mg/L DCPTA, followed by 1.5 and 0.5 mg/L DCPTA solutions. There was the highest proportion of free water, total water content, and the rightward shift of the T2 relaxation spectrum. Therefore, DCPTA can be used to improve the drought resistance of corn seeds during germination, and then accelerate the storage rate of internal water, in order to promote the transformation of semi-bound water into bound water inside corn seeds. The necessary water conditions can be provided for the seed germination, thus reducing the damage caused by drought stress to corn seeds. This finding can greatly contribute to the internal factors that mitigate the effects of DCPTA on maize seeds. An important way can offer to improve the drought resistance in maize seeds.

       

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