1、Foliar spraying of boron prolongs preservation period of strawberry
Foliar spraying of boron improved flesh firmness and prolonged shelf life of strawberry fruits. Boron alleviated the decrease of B in CBP, cellulose and hemicellulose in fruits during fruit softening and decay. Boron inhibited cell wall degradation by affecting activities of PG, PL, and PME.
2、Foliar spraying of boron prolongs preservation period of strawberry
Boron (B), an essential micronutrient for fruit development, also plays a crucial role in maintaining the shelf life of strawberries (Fragaria ananassa Duch.) by affecting cell wall structure and components.
3、Boron Applications and Bee Pollinators Increase Strawberry Yields
In this study, the application of B and honey bees was evaluated on strawberry yields and their quality. The efects of honey bee activity and B applications on pollen viability and pollen tube growth were also evaluated.
4、The Application of Nitrogen Fertilization and Foliar Spraying with
This experiment investigates the effects of N fertilization and foliar spraying with calcium (Ca) and boron (B) on growth, chemical composition of plant foliage, fruit yield, and quality of strawberry plants (Fragaria × ananassa Duch. cv. Fortuna).
5、Foliar spraying of boron prolongs preservation period of
Foliar spraying of 0.1% H 3 BO 3 promoted the growth of strawberry seedlings and improved fruit yield and flesh firmness by 45.7% and 25.6%. During the fruit softening and decay process, the content of bound B and cell wall-B decreased while more B was allocated to the protoplast and apoplast.
Does Strawberry Need Boron Fertilization? How to Apply It Properly
Boron is indispensable for strawberry growth, aiding flower differentiation, fruit quality, and stress resilience. Mastering its proper use—selecting the right type, timing, and method—is essential for maximizing benefits.
Growth and Yield Improvement in Strawberry through Foliar Application
Foliar application of boron and zinc significantly influenced key growth and reproductive traits in strawberry. Boron at 0.02% (B0.02) and zinc at 0.04% (Zn0.04) individually reduced days to 50% flowering (62.67 and 63.04 days, respectively)
Foliar spraying of boron prolongs preservation period of strawberry
Foliar spraying of 0.1% H3BO3 promoted the growth of strawberry seedlings and improved fruit yield and flesh firmness by 45.7% and 25.6%. During the fruit softening and decay process, the content...
Appropriate water and fertilizer supply enhanced yield by promoting
Ultimately, considering both the growth process and outcome, the optimal water and fertilizer scheme was determined using multi-objective optimization methods. The results of this study will provide a theoretical basis for rational irrigation and fertilization strategies in strawberry production.
Boron application improves on yield and chemical composition of strawberry
The objectives of this study were (1) to evaluate the yield response of strawberry to B fertilizer; (2) to determine the effects of B addition on the mineral composition of strawberry; and (3) to determine optimum soil test B levels for strawberry under semi arid climate field conditions.
Strawberries are a popular fruit known for their high nutritional value and pleasant taste. Boron fertilizer plays a critical role in strawberry growth and fruit quality. Below is a detailed guide on effective boron supplementation practices.
1. Understand the Role of Boron
Boron is an essential micronutrient for plant growth, influencing developmental, reproductive, and stress-resistance processes. In strawberry cultivation, proper boron application promotes healthy plant growth, improves fruit quality and yield, enhances flower bud differentiation, and increases pollination rates.
2. Select Appropriate Boron Sources
Choose boron fertilizers based on the strawberry’s growth stage and soil conditions:
- Seedling stage: Use fast-acting options like borax or boric acid.
- Mature plants: Opt for slow-release formulas like calcium borate. Prioritize eco-friendly, low-pollution products to ensure safety.
3. Timing and Application Methods
Apply boron during peak growth phases, typically in spring and autumn. Two methods are recommended:
- Foliar spraying: Dissolve boron in water and spray onto leaves. Simple but requires caution to avoid overapplication.
- Soil application: Sprinkle boron directly onto soil or mix it before fertilizing. Provides lasting effects but risks salt buildup if excessive.
4. Dosage and Concentration Control
- Typical rate: 5–10 kg of boron fertilizer per mu (≈0.067 hectare).
- Adjust concentrations based on soil tests and plant needs. Excessive boron can harm strawberries.
5. Complementary Management Practices
Maximize results by integrating these strategies:
- Maintain consistent soil moisture to prevent salt accumulation.
- Prune excess foliage for better airflow and sunlight.
- Implement pest/disease control to safeguard plant health.
6. Key Precautions
- Avoid overapplication to prevent toxicity.
- Use environmentally safe boron products.
- Apply in cool weather (avoid high temperatures) to reduce risk.
- Coordinate with other fertilizers to prevent nutrient interactions.
Effective boron management in strawberries hinges on tailored application, precise dosing, and holistic care. By combining scientific fertilization with robust agricultural practices, growers can achieve superior yields and fruit quality.
