1、The combined formulation of brassinolide and pyraclostrobin increases

Our results first validated that the combined usage of BL and Pyr exerted striking synergistic effects on enhancing plant biomass and yield by increasing photosynthetic efficiency.

2、Co

Applying brassinolide (BL, a phytohormone) in combination with pyraclostrobin (Pyr, a fungicide) has shown effective disease control in field trials. However, the mechanism by which BL + Pyr control disease remains uncertain.

3、The combined formulation of brassinolide and pyraclostrobin increases

Our results first validated that the combined usage of BL and Pyr exerted striking synergistic effects on enhancing plant biomass and yield by increasing photosynthetic efficiency.

The combined formulation of brassinolide and pyraclostrobin increases

It is validated that the combined usage of BL and Pyr exerted striking synergistic effects on enhancing plant biomass and yield by increasing photosynthetic efficiency and stimulated the efforts to develop new environment-friendly replacement for Pyr to minimize the ecotoxicology of Pyr.

The combined formulation of brassinolide and pyraclostrobin increases

The combined formulation of brassinolide and pyraclostrobin increases biomass and seed yield by improving photosynthetic capacity in <i>Arabidopsis thaliana</i>.

Effect of Brassinolide Combined with Pyraclostrobin on Wheat Yield

In order to actively explore new ways to control wheat diseases and insect pests and increase yield, the combination of brassinolide and pyraclostrobin was applied at jointing stage, booting stage and filling stage of wheat.

Multi

We previously found that the co-application of brassinolide (BL) and pyraclostrobin (Pyr) synergistically boosted biomass and yield via regulating photosynthesis in Arabidopsis thaliana. However, the synergistic effect of BL and Pyr on N metabolism remains unclear.

The combined formulation of brassinolide and pyraclostrobin increases

Our results first validated that the combined usage of BL and Pyr exerted striking synergistic effects on enhancing plant biomass and yield by increasing photosynthetic efficiency.

Co

Applying brassinolide (BL, a phytohormone) in combination with pyraclostrobin (Pyr, a fungicide) has shown effective disease control in field trials. However, the mechanism by which BL + Pyr control disease remains uncertain.

The combined formulation of brassinolide and pyraclostrobin increases

Our results first validated that the combined usage of BL and Pyr exerted striking synergistic effects on enhancing plant biomass and yield by increasing photosynthetic efficiency.

Pyraclostrobin and brassinolide are two commonly used plant growth regulators with widespread applications in agriculture. These compounds have distinct chemical structures and mechanisms of action, which may lead to synergistic or antagonistic effects when used in combination.

1. Mechanism of Pyraclostrobin

Pyraclostrobin is a broad-spectrum, systemic fungicide primarily used to control various plant diseases, such as downy mildew, late blight, and gray mold. It disrupts the integrity of pathogen cell membranes, leading to pathogen death. Pyraclostrobin exhibits strong activity against many fungi and bacteria, though pathogen sensitivity to it may vary.

2. Mechanism of Brassinolide

Brassinolide is a plant hormone that regulates hormonal balance within plants, influencing growth, development, and stress resistance. It promotes root development, enhances resilience to adversity, and improves yield and quality. Additionally, brassinolide inhibits pathogen growth, reducing the incidence of plant diseases.

3. Effects of Combining Pyraclostrobin and Brassinolide

Combining pyraclostrobin and brassinolide may produce the following outcomes:

(1) Synergistic Enhancement: Under certain conditions, the two compounds may work synergistically to boost plant growth rates and yield. For example, while controlling specific diseases, they may also enhance stress resistance and disease tolerance. This synergy likely arises from their combined impact on physiological processes, such as root development and hormonal regulation.

(2) Antagonistic Effects: In some cases, the compounds may antagonize each other, suppressing plant growth. This could result from competitive or interfering mechanisms within the plant, reducing their individual bioactivities. Mixing them under such conditions might lower overall growth speed and yield.

(3) No Significant Impact: Under specific circumstances, combining the two may yield no noticeable effects. This might occur if their chemical properties are too similar or interactions are weak to induce synergy or antagonism. In such scenarios, using either compound alone may suffice for agricultural needs.

4. Practical Considerations

In practice, select pyraclostrobin and brassinolide formulations based on crop type, disease profile, and environmental conditions, adhering to recommended dosages and application methods. Monitor outcomes carefully to adjust strategies as needed. Avoid prolonged or excessive use to prevent potential harm to the environment and human health.

Key Terms:

• Synergistic effects: 协同效应
• Antagonistic effects: 拮抗作用
• Systemic fungicide: 内吸性杀菌剂
• Hormonal balance regulation: 激素平衡调节