1、Brassinolide Application Improves the Drought Tolerance in

In this study, possible role of exogenously applied brassinolide (BR) in alleviating the detrimental effects of drought in maize was evaluated in a rain-protected wire-house.

2、Brassinolide should not be used in 9 cases, agronomic knowledge must be

Should not be sprayed before the rain: after spraying brassinolide before the rain, the foliage of the crop absorbs more water, which makes the concentration of brassinolide in the plant dilute, thus losing the role of promoting growth.

3、Comparative effect of gibberellic acid and brassinolide for mitigating

Drought stress significantly reduces the crop productivity, including pea (Pisum sativum L.), 'necessitating development of effective strategies to mitigate these losses under changing climatic conditions. This study explores the potential of foliar-applied gibberellic acid (GA 3) and brassinolide (BR), individually and in combination, to enhance the drought resilience in pea plants. A pot ...

4、Brassinolide: A Plant’s Key to Growth and Resilience

Brassinolide can be applied in various ways, including foliar sprays, seed treatments, or soil drenches. Its use aligns with sustainable agriculture principles by potentially reducing the need for chemical fertilizers and pesticides.

Brassinolide enhances maize production under drought by modulating

Brassinolide (BR) can be expected to mitigate the drought stress in crops during production. However, it remains unclear whether the BR can consistently enhance crop yield and water productivity under both full irrigation (FI) and deficit irrigation (DI).

How to use brassinolide?

Especially in the current situation of more extreme weather, when applying fungicides, insecticides, and acaricides, adding brassinolide at the same time can not only increase the efficacy of the drug, but also improve the resistance of crops.

Common brassinolide effects and use precautions

Focusing on promoting root development and enhancing plant resistance, especially under adverse conditions such as drought and salinity, it can effectively improve the survival rate and yield of crops.

Brassinolide sprayed 4 hours rain effect you

If it is around 4 hours must be impossible, because of the rain beat brassinolide after words, crops and not in just a few hours to complete absorption of drug, the efficacy of the play is certainly influential.

Phytochemical responses of camelina to brassinolide and boron foliar

The high level of boron in dryland and semi-arid soils is an important issue that strongly affects growing and developing crops, especially under drought stress. Meanwhile, brassinosteroid (BR) as a noval stress hormone can improve resistance to abiotic stress in plants.

There are so many uses for brassinolides!

Brassinolide is a new type of green and environmentally friendly plant growth regulator, and it is the plant endogenous hormone with the highest activity and the most functions found so far.

Brassinolide (Beta-naphthophenoxyacetic acid, abbreviated as BNPA), also known as brassinosteroid, is a plant growth regulator that promotes plant growth, increases yield, and improves quality. In agricultural practices, brassinolide is commonly used to prevent crop diseases, enhance stress resistance, and accelerate early maturation of crops.

Regarding the application of brassinolide after rain, the following suggestions are provided:

1. Impact of Rainwater on Brassinolide: Rainwater may dilute or wash away brassinolide from the soil, reducing its effectiveness. it is recommended to conduct soil testing after rain to assess the residual brassinolide content. If the content is low, consider applying brassinolide before the next rainfall.

2. Soil Conditions Affecting Brassinolide: Factors such as soil pH, organic matter content, and temperature influence the effectiveness of brassinolide. Acidic soils generally facilitate better absorption and utilization of brassinolide. When using brassinolide, select varieties suited to local soil conditions and adjust soil pH as needed.

3. Crop Type Considerations: Different crops vary in sensitivity to brassinolide. For example, some crops may respond strongly to brassinolide, while others remain unaffected. Choose brassinolide formulations based on local cropping patterns and market demands.

4. Timing and Application Methods: The optimal timing for brassinolide application depends on crop type and growth stage. Generally, early growth stages yield better results. Avoid overapplication to prevent phytotoxicity.

5. Combination with Fertilizers and Pesticides: Brassinolide can be used with other fertilizers and pesticides to enhance efficacy. monitor interactions between products to avoid adverse effects.

6. Environmental Factors: Temperature, humidity, and light conditions affect brassinolide performance. Observe crop growth closely and adjust management practices accordingly.

brassinolide can be applied after rain, but adjustments and management should align with specific conditions. To maximize effectiveness, consider soil properties, crop types, timing, and application methods.