1、Protective effects of brassinosteroids against herbicides

The role of brassinosteroids in protecting plants from herbicide damage has increasing interest owing to the projected effects of herbicides on modern agriculture. Earlier data suggested that brassinosteroids can alleviate the decreases in plant growth caused by herbicides, and brassinosteroids have been applied to palliate this undesirable effect. However, rigorous and systematic studies on ...

2、Brassinosteroids play a critical role in the regulation of pesticide

Pesticide residues in agricultural produce pose a threat to human health worldwide. Although the detoxification mechanisms for xenobiotics have been extensively studied in mammalian cells ...

3、Plant hormones (brassinosteroids, salicylates, and jasmonates) as

This can be accomplished by maintaining soil fertility, using high-yielding cultivars, and preventing the losses inflicted by different pests. One of the measures which can help in maintaining soil fertility is the prevention of the growth of weeds/plants that can otherwise exploit the soil nutrients, thereby affecting the desired crop yield.

Understanding brassinosteroid

Brassinosteroids (BRs) play a crucial role in regulating multiple biological processes in plants, particularly those related to crop productivity and stress tolerance. During their functioning, BRs engage in extensive and intricate interactions with other phytohormones, including auxin, cytokinins, …

(PDF) Brassinosteroids and its Implication in Agriculture

clay), pastes (lanolin) or liquids (usually water or hydroalcoholic mixtures) for use as powders, pellets, tablets, pastes, suspensions, solutions and these can be applied

Brassinosteroid biology, potential uses in post

This review article summarizes the post-harvest effects of BR in fruits and vegetables by family, depending on the mode of application and structure-function relationship, and brings together the very few research articles that have also evaluated the use of BR inhibitors in post-harvest.

Brassinosteroids as a multidimensional regulator of plant physiological

Exogenously applied BRs can enhance plant growth and development by mitigating various stress conditions. BRs regulate expressions of thousands of stress-induced genes. However, there is still a need to investigate various transcription factors and signaling proteins that communicate with BZR1 and BES1 to augment stress tolerance.

Practical applications of brassinosteroids in horticulture—Some field

The brassinosteroid analogue was considered more efficient when applied for three consecutive weeks after the appearance of the first flower due to the great increase in yield and soluble solids contents in passion fruit (Gomes et al., 2006).

Understanding brassinosteroid‐centric phytohormone interactions for

High-density planting can increase the number of panicles, but this is contingent upon conditions that favor such dense planting. Therefore, plant architecture—encompassing plant height, leaf angle, and tiller number—can serve as an indicator of panicle number per unit area.

Brassinosteroids and their use in agriculture

Brassinosteroids (BRs) are a class of plant hormones that play a significant role in various physiological processes, including cell elongation, cell division, seed germination, flowering, and stress tolerance. They are structurally similar to animal steroid hormones. The application of brassinosteroids in agriculture has been explored to enhance plant growth, stress tolerance, and overall ...

Brassinosteroid and herbicide are two distinct types of pesticides with different mechanisms of action, application methods, and precautions. they must be used cautiously to avoid harm to humans and the environment.

1. Mechanism of Brassinosteroid: Brassinosteroid is a plant growth regulator that promotes plant growth by influencing the balance of growth hormones. It increases the synthesis and accumulation of gibberellin within plants, thereby stimulating growth. Additionally, brassinosteroid enhances plants' resistance to stresses such as drought and salinity.

2. Application Method for Brassinosteroid: Brassinosteroid is typically used in liquid or soluble powder forms. To apply, dissolve the appropriate amount in water and spray it evenly over the plant surface or directly apply it to stems and leaves. Avoid mixing brassinosteroid with other pesticides to prevent adverse reactions.

3. Mechanism of Herbicide: Herbicides kill weeds by inhibiting photosynthesis or disrupting nutrient absorption in plants. Common types include diphenyl ethers, phenoxyacetic acids, and pyridinones.

4. Application Method for Herbicide: Herbicides are usually applied in their original form or as emulsifiable concentrates. Follow product instructions for dilution and application. Do not mix herbicides with other pesticides to avoid adverse reactions. When applying, follow the principle of "treating distant areas before nearby ones, and higher areas before lower ones" to ensure even coverage.

5. Mixing Brassinosteroid and Herbicide: Brassinosteroid and herbicide should not be mixed. Their differing mechanisms may lead to reduced efficacy, increased toxicity, or negative impacts on plant growth and development.

6. Precautions for Brassinosteroid and Herbicide:

   • Dilute and apply strictly according to product instructions; avoid overuse.
   • Protect eyes, skin, and respiratory tracts to prevent exposure to harmful substances.
   • Prune and organize crops before application to improve effectiveness.
   • Avoid applying during windy, rainy, or harsh weather conditions.
   • Clean up residues promptly after application to minimize environmental and health risks.

Brassinosteroid and herbicide are functionally distinct pesticides with unique mechanisms and usage requirements. Prioritize safety and environmental protection when applying them. Additionally, adopt proper agricultural practices such as fertilization and irrigation to enhance crop yield and quality.