1、Brassinosteroids: Molecular and physiological responses in plant growth
Brassinosteroids improves crop yields by altering plant metabolism and protecting plants from several abiotic stresses. Brassinosteroids regulate gene expression and signal transduction pathways to stimulate abiotic stress tolerance.
2、Brassinosteroids (BRs) Role in Plant Development and Coping with
Brassinosteroids (BRs) are an important group of plant hormones involved in regulating plant growth and development, and they help plants to adapt to the environment [7].
3、Multifunctional Role of Brassinosteroids in Plant Growth, Development
Brassinosteroids (BRs) are growth-promoting steroid hormones in plants, which play a crucial role in regulating several physiological activities.
4、Brassinosteroids: Biosynthesis, Signaling, and Hormonal
Studies on the effect of BRs on the reproductive growth of fruit crops are accumulating, given the potential of this PGR as a management tool in agriculture. This review explores the multifaceted roles of BRs in fruit crop maturation.
5、Brassinosteroids – Role In Agriculture
Seed Treatment: Seeds can be treated with brassinosteroids to improve germination, seedling vigor, and early growth. Soil Drenches: Brassinosteroid solutions can be applied directly to the soil around the plant’s root zone.
(PDF) Brassinosteroids: The promising plant growth regulators on
In this research, the impact of brassinosteroids (BRs) on the production rate, quality, photosynthesis efficiency, and nutrient uptake are being assessed.
Brassinosteroid Action in Plant Abiotic Stress Tolerance
Protocols to assess BR effects on abiotic stress tolerance in Arabidopsis and rapeseed seedlings are described here and they can be fine-tuned and adapted for other plant species.
Brassinosteroids: Relevant Evidence Related to Mitigation of Abiotic
Brassinosteroids (BRs) are natural or synthetic steroids with significant properties that promote plant growth and development. In the current world scenario, research and solutions that can improve plant tolerance to climate change are strategic to ensure food security.
Brassinosteroids: An Innovative Compound Family That Could Affect the
Brassinosteroids (BRs), a new family of plant hormones, have been used in a range of food staples, oil crops, and cereals. However, the scientific literature pertaining to their use in fleshy fruits remains scarce.
Significance of brassinosteroids and their derivatives in the
Exogenous application of brassinosteroids at appropriate time can save plants from oxidative stresses. Brassinosteroids enhance carbon dioxide assimilation capacity, chlorophyll contents, antioxidants including ascorbate, carotenoids and proline under adverse environmental conditions.
Brassinosteroid is a plant growth regulator primarily used to promote plant growth and increase yield. Brassica (cabbage), a vegetable belonging to the Cruciferae family, can benefit from brassinosteroid treatment. its use requires caution due to potential environmental and human health impacts. Fertilization strategies should be tailored to factors such as cabbage variety, soil conditions, and climate.
1. Select Appropriate Brassinosteroid Products
Many brassinosteroid products with varying types and concentrations are available on the market. When choosing, consider the cabbage variety, soil conditions, climate, and expected yield goals. Generally, low-concentration formulations are safer for promoting cabbage growth, while high concentrations may have negative effects.
2. Timing and Methods of Application
Apply brassinosteroid during the appropriate growth stage of cabbage, such as the bolting phase. Application methods include foliar spraying (directly onto leaves to enhance nutrient absorption) or soil application (mixed with soil to stimulate root development).
3. Control Dosage and Concentration
Avoid overapplication by adhering to recommended doses. For example, apply 20–50 grams per mu (adjust based on growth stage and soil conditions). Ensure concentrations remain within safe limits to prevent toxicity.
4. Coordinate with Other Fertilizers
Apply major nutrients (nitrogen, phosphorus, potassium) before brassinosteroid to prevent excessive nitrogen-induced growth spurts, which may compromise quality and yield.
5. Monitor Plant Responses
Observe cabbage growth closely. If symptoms like yellowing or deformation occur, halt brassinosteroid use immediately and take remedial actions. Regularly check soil moisture, pH, and other environmental factors.
6. Combine with Other Fertilizers
Pair brassinosteroid with organic fertilizers (e.g., chicken manure, cow dung) to improve soil fertility and nutrient uptake. Balance fertilization ratios of nitrogen, phosphorus, and potassium according to growth stages.
7. Prioritize Environmental Safety
Avoid excessive chemical use to minimize environmental pollution. Comply with national and local regulations regarding brassinosteroid application.
8. Integrated Pest Management
Enhance pest and disease resistance through measures like selecting resistant varieties, crop rotation, and scientific fertilization. Use biological or physical control methods when necessary to reduce pest outbreaks.
Scientific application of brassinosteroid, combined with proper fertilization practices, balanced nutrient management, environmental awareness, and pest control, ensures healthy cabbage growth and optimized yields. Prioritize safety, monitoring, and ecological sustainability throughout the process.
