1、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.
2、Optimal use of irrigation water and fertilizer for strawberry based on
To obtain a comprehensive optimal irrigation and fertilization scheme that considers the benefits of both strawberries production and soil environmen-tal condition, 12 treatments including four irrigation levels and three fertilization levels were conducted over two growth seasons.
3、A genome
Through physiological measurements and RNA-seq analysis, a boron concentration of 0.048 mM was identified as optimal for enhancing the nutritional composition and content of aroma compounds in strawberry fruits, particularly boosting the accumulation of soluble sugars, such as sucrose.
Suggested Fertilizer Practices for Strawberries
For every 100 sq. ft. of intended strawberry bed, mix ¾ of an ounce (about 2 tablespoons) of borax into a gallon of water. Do not overapply as excess boron can cause plant injury. Soils regularly amended with compost or natural organic fertilizers generally contain sufficient boron for strawberries. Year of Planting:
Crop Guide: Strawberry
The deviation from optimal concentrations of boron in the plant can risk its performance in both a deficiency or an excessive concentration, and the difference between the two is rather small, so care must be taken to make sure that the plant has enough, but never too much.
Boron deficiency in strawberries
Because zinc and boron deficiency are widespread around the world, a product with both nutrients is a good fit in many regions. Zincubor brings these two important micronutrients together in one product.
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).
Influence of boron and zinc on yield, nutrient uptake and quality of
Strawberry (Fragaria X ananassa Duch.) is responsive to boron (B) and zinc (Zn) fertilizer application. Hence, an experiment was conducted in winter season of 2017-18 and 2018-19 to evaluate the effect of boron and zinc application on yield traits, yields, nutrient uptake and quality of strawberry.
Guide to Fertilizing Strawberries for Maximum Yield
Water the planting bed first, then use a watering can or hose with a fertilizer attachment to evenly distribute a water-based fertilizer. Apply the mixture as close to ground level as possible and feed plants early in the day to allow wet foliage to dry before nightfall.
(PDF) Fall Fertilization of Strawberries with Boron
Boron application significantly increases boron concentration in strawberries without nitrogen fertilizer. Strawberries show optimal fruit yield with nitrogen levels of 135 kg/ha and boron at 1.7 kg/ha.
Strawberry (scientific name: Fragaria × ananassa) is a widely beloved fruit, celebrated for its sweet, juicy flesh and nutritional richness. Boron, an essential micronutrient for plant growth, plays a critical role in strawberry development and fruit quality. Proper application of boron fertilizer promotes healthy plant growth, enhances yield, and improves fruit characteristics. The following sections detail best practices for maximizing boron uptake in strawberries.
1. Selecting the Right Type of Boron Fertilizer
First, familiarize yourself with available boron fertilizer options. Common types include solid borax, liquid boric acid, and slow-release boron formulas. Solid borax is widely used due to its ease of storage and handling. liquid boric acid and slow-release fertilizers offer greater precision in dosage control. The choice depends on the strawberry growth stage, soil conditions, and personal preference.
2. Conduct Soil Testing
Soil analysis is crucial before applying boron fertilizer. Testing reveals the soil’s boron content, guiding whether supplementation is needed and how much to apply. Deficient soils require boron addition, while excessive boron can hinder nutrient absorption. For accurate results, collaborate with reputable laboratories or specialized institutions.
3. Application Methods
Based on soil test outcomes, select the appropriate fertilizer type and method:
- Solid borax: Typically applied at 5–10 grams per square meter around plants. its poor mobility in soil may limit root absorption.
- Liquid boric acid or slow-release formulas: Preferred for better root uptake and sustained nutrient release.
- Timing: Apply boron during early growth (e.g., at transplanting and pre-flowering) to support root development and flower formation.
4. Timing of Application
Boron absorption efficiency varies by growth stage:
- Early stages (e.g., bud differentiation): Boron promotes flower bud formation and fruit set.
- Flowering period: Enhances pollen tube growth and fertilization success.
- Fruit enlargement: Supports healthy fruit development. Align applications with these phases for optimal results.
5. Key Considerations
- Avoid overapplication: Excess boron causes toxicity symptoms (leaf yellowing, stunted growth, malformed fruits). Adhere strictly to recommended doses.
- Combine with other fertilizers: Mixing boron with nitrogen, phosphorus, or organic matter improves nutrient uptake and soil health.
- Environmental factors: High temperatures or drought reduce boron absorption. Apply during cooler periods to ensure effectiveness.
Strategic boron fertilization is vital for boosting strawberry yields and quality. By choosing suitable fertilizers, conducting soil tests, timing applications correctly, and avoiding common pitfalls, growers can ensure adequate boron supply. Proper boron management strengthens plant resilience and paves the way for high-quality, productive strawberry crops. Farmers are encouraged to prioritize boron application to harness its full benefits.
