1、Brassinosteroids alleviate wheat floret degeneration under low nitrogen

Brassinosteroids mitigate wheat floret degeneration by promoting carbohydrate redistribution from stems to spikes. The trade-off between yield and environmental effects caused by nitrogen fertilizer application is an important issue in wheat production.

2、Reducing brassinosteroid signalling enhances grain yield in

A strategy that depends on attenuated brassinosteroid signalling is described for the design of semi-dwarf wheat varieties with improved grain yield compared with that of green revolution...

3、Roles of Brassinosteroids in Mitigating Heat Stress Damage in Cereal

Brassinosteroids (BR) are a class of plant hormones that impact tolerance to various biotic and abiotic stresses and regulate cereal growth and fertility. Fine-tuning the action of BR has the potential to increase cereals’ tolerance and acclimation to heat stress and maintain yields.

Growth

It was shown that treatment of plants by spraying with brassinosteroids or ferulic acid led to the activation of growth processes, the productivity of morphogenesis and reproduction, and an increase in the level of endogenous brassinosteroids, free radical oxidation, and pigments.

The Best Months to Apply Brassinosteroid on Wheat

Brassinosteroid is a plant growth regulator widely used in agricultural production. Timely application during wheat cultivation can promote its growth and development, enhancing yield and quality. Below are recommendations for the optimal timing of applying brassinosteroid on wheat:

Harnessing Brassinosteroids for Heat Resilience in Wheat: A

This comprehensive review focused on understanding the critical interplay between Brassinosteroids (BRs), a class of plant hormones, and the high-temperature stress response in wheat (Triticum...

Brassinosteroids improve the redox state of wheat florets under low

Brassinosteroids optimize carbon allocation in the tricarboxylic acid cycle (TCA) cycle and boost adenosine triphosphate (ATP) to reduce floret degeneration. Reducing nitrogen application rates can mitigate issues such as environmental degradation and resource wastage.

Understanding brassinosteroid‐centric phytohormone interactions for

Brassinosteroids (BRs) play a crucial role in regulating multiple biological processes in plants, particularly those related to crop productivity and stress tolerance.

Brassinosteroids improve the redox state of wheat florets under low

Brassinosteroids optimize carbon allocation in the tricarboxylic acid cycle (TCA) cycle and boost adenosine triphosphate (ATP) to reduce floret degeneration. Reducing nitrogen application rates can mitigate issues such as environmental degradation and resource wastage.

Harnessing Brassinosteroids for Heat Resilience in Wheat: A

This comprehensive review focused on understanding the critical interplay between Brassinosteroids (BRs), a class of plant hormones, and the high-temperature stress response in wheat (Triticum aestivum) in the context of climate change.

Brassinosteroid is a plant growth regulator primarily used to promote plant growth and development. It regulates growth processes by influencing hormonal balance in plants. When applied to wheat cultivation, brassinosteroid effectively enhances growth, yield, and quality.

1. Choosing the Appropriate Brassinosteroid Type

Various brassinosteroid products are available on the market, such as brassinolide and ethyl brassinolide. The choice depends on specific needs and crop characteristics. For example, brassinolide is recommended for promoting wheat growth, while ethyl brassinolide is better suited for improving stress resistance.

2. Determining the Optimal Concentration

The concentration of brassinosteroid should align with crop traits and environmental conditions. For most crops, a range of 50–100 mg/L is ideal. Excessive concentrations may harm the crop, while insufficient levels might yield suboptimal results. Conduct small-scale trials before application to refine dosage.

3. Timing of Application

Apply brassinosteroid during the jointing to heading stage of wheat. This period coincides with rapid growth and high nutrient demand, making it prime for maximizing growth benefits.

4. Dosage Adjustment

Application rates typically range from 1–2 kg per mu (~0.0667 hectares), adjusted based on soil conditions and crop traits. Overuse can lead to toxicity, while underuse may fail to deliver desired effects.

5. Synergizing with Other Fertilizers

Combine brassinosteroid with phosphorus, potassium, or organic fertilizers to boost nutrient uptake and soil health. Mixing with organic matter improves soil structure and fertility.

6. Proper Application Methods

Mix brassinosteroid with water for foliar spraying or incorporate it into the soil. Ensure even coverage of plant surfaces. Avoid application under extreme heat, humidity, or adverse weather.

7. Monitoring Crop Response

After application, closely observe the crop for signs of distress (e.g., yellowing, wilting). Regularly assess growth to adjust dosage or concentration as needed.

8. Regulatory Compliance

Adhere to local laws and guidelines governing pesticide/growth regulator use. Check regional restrictions before application.

Brassinosteroid effectively enhances wheat growth, yield, and quality when used appropriately. Prioritize selecting the right type, optimizing concentration and timing, integrating with fertilizers, monitoring crop reactions, and complying with regulations to ensure safe and efficient use.