The effects of Uniconazole on root viability and plant height
Uniconazole treatment has a significant promoting effect on the underground root system of plants. The root vitality of rapeseed, soybeans and rice was greatly improved after being treated with Uniconazole. After wheat seeds were dry-treated with Uniconazole, the absorption intensity of 32P by its root system increased by 25.95%, which was 5.7 times higher than that of the control. Overall, Uniconazole treatment made the root system well-developed, increased the root mass, and brought about positive changes in the structure of the plant root system, thereby expanding the absorption area of nutrients and water by the root system and enhancing the vitality of the plant root system.
The influence of Uniconazole on crop yield and quality
Uniconazole can increase the protein content of wheat grains, change the proportion of protein components in the grains, and increase the wet gluten content and sedimentation value of wheat flour, prolong the formation time and stabilization time of dough, and improve the water absorption rate. Among them, the water absorption rate of the dough, formation time and stabilization time were all significantly or extremely significantly positively correlated with the gluten content. After the rice was treated with Uniconazole, both the protein content and protein yield in the rice were increased.
The effect of Uniconazole on the stress tolerance of plants
Uniconazole treatment can enhance the adaptability of plants to adverse conditions such as low temperature, drought and diseases. Existing studies have shown that Uniconazole treatment reduces the water requirement of plants and increases the water potential of leaves, thereby enhancing the plants’ adaptation to drought. The increase in leaf water potential reduces the inhibition of plant growth by drought stress and plays a key role in the formation of plant yield. Therefore, the application of Uniconazole under water stress enabled plants to have a higher net photosynthetic rate than those without application.
The treatment with Uniconazole also has some control effect on powdery mildew in wheat, damp-blight in rice, etc. Mainly because Uniconazole shows high inhibitory activity against many pathogenic bacteria and can strongly inhibit the growth and reproduction of many pathogenic bacteria at low doses. Its bactericidal mechanism is mainly through inhibiting the synthesis of ergol alcohol in plants, resulting in changes in spore morphology, membrane structure and function. This thereby inhibits the growth of fungi and plays a role in sterilization. In terms of sterilization, the activity of Uniconazole is significantly higher than that of triazolidone.
Application of Uniconazole in the Preservation of Cut Flowers
In addition to being widely used in the cultivation of crops and flowers, Uniconazole also plays a certain physiological role in the preservation of cut flowers.
Post time: May-07-2025