1、Recent advances in micronutrient foliar spray for enhancing crop

Therefore the micronutrient foliar spray is effective with minimum water (per hectare, 200 L required for each foliar spray) and cost-effective, to maximize on-farm crop yields under abiotic stress.

2、Optimal Spraying Frequency for Tomato Boron Fertilizer

The optimal frequency and timing of tomato boron fertilizer depend on specific growth stages and goals. A scientific approach combining precise application, balanced fertilization, and meticulous management maximizes yields and fruit quality.

3、Molybdenum Foliar Fertilization Improves Photosynthetic Metabolism and

Foliar spraying increased Mo content by 22% and 23% in soybean leaves and 32% and 34% in maize leaves in the first and second growing seasons, respectively (Figures 2E, F).

4、Optimum Timing of Foliar Nutrient Sprays

For an optimum yield response to foliar fertilization it is possible that the optimum growth stage of the plant for the timing of foliar nutrient sprays does not necessarily fall within the recommended time interval as dictated by pesticide spraying.

The Function of Molybdenum and Boron on the Plants The Function of

The most effective boron application method was determined as soil + foliar boron application but other application methods were more effective than control parcels.

8 Micronutrient Foliar Sprays: What Growers Should Know

Review the essentials of micronutrient foliar sprays for optimal crop health and how they interact, synergistically. Learn about key micronutrients, their functions, and the importance of timing and nutrient interactions.

Optimal Timing for Foliar Application of Boron Fertilizer in

This article introduces the types, characteristics, and application methods of boron fertilizer, explores the impact of boron fertilizer on rapeseed yield and quality, and elucidates the mechanism of boron in the formation of rapeseed quality.

Effect of Foliar Molybdenum Application on Seed Quality of Soybean

The objective of this study was to evaluate the effect of Mo foliar application on four soybean cultivars (Glycine max [L.] Merrill) and their physiological qualities, crude protein, and lipid content.

Effects of Foliar Fertilization: a Review of Current Status and Future

Foliar fertilizer application after soil fertilization is an effective method to increase the contents of trace elements in crops and crop yield, and to improve the soil environment. However, the application of inorganic foliar fertilizer results in difficulties in nutrient absorption and migration in plants.

Effect of boron, molybdenum and biofertilizers on growth and yield of

In this context a two year field experiment was conducted to assess the effect of boron, molybdenum and biofertilizers on growth, nodulation and pod yield of vegetable cowpea in acid soil of eastern Himalayan region.

Kidney beans, also known as broad beans or snap beans, are widely cultivated vegetables and grain crops. Proper fertilization during their growth is crucial for improving quality and yield. Below is a detailed guide on when and how to apply molybdenum and boron fertilizers to help farmers achieve optimal crop growth.

I. Timing and Methods for Applying Molybdenum Fertilizer

1. Functions of Molybdenum Fertilizer

• Promotes root development: Molybdenum is essential for chlorophyll synthesis, supporting healthy root growth and enhancing water/nutrient absorption.
• Improves photosynthesis: Increases leaf efficiency, boosting crop yields.
• Strengthens plant immunity: Enhances resistance to pests and diseases, reducing infection risks.

2. Application Timing

• Early spring: Critical for root establishment and early growth.
• Post-flowering: Enhances fruit quality and yield during the reproductive stage.

3. Application Methods

• Soil testing: Analyze molybdenum levels in soil before application to adjust dosage.
• Uniform spreading: Apply evenly around roots to avoid burns from overconcentration.
• Regular topdressing: Supplementary applications based on growth stages and soil conditions.

II. Timing and Methods for Applying Boron Fertilizer

1. Functions of Boron Fertilizer

• Supports pollen development: Improves pollination rates, increasing fruit set and yield.
• Enhances stress resistance: Boosts tolerance to drought, salinity, and other adverse conditions.
• Drives cell division/elongation: Stimulates growth and differentiation of plant tissues.

2. Application Timing

• Pre-/post-flowering: Maximizes pollen viability and fruit formation.
• Late growth stage: Promotes cell elongation and overall crop quality.

3. Application Methods

• Deep incorporation: Apply boron deeply into the soil for better uptake.
• Even distribution: Prevent localized excess to avoid root damage.
• Balanced supplementation: Adjust doses based on crop needs and soil tests.

III. Comprehensive Management Practices

1. Soil Management

• Crop rotation & deep tillage: Improves soil structure and fertility.
• Organic amendments: Use farm manure or compost to enrich microbial activity and nutrients.
• Soil disinfection: Reduces pathogens and pests through regular sterilization.

2. Water Management

• Rational irrigation: Tailor watering to growth stages and weather.
• Drainage systems: Prevents waterlogging and root hypoxia.
• Rainwater harvesting: Minimizes dependence on irrigation.

3. Pest/Disease Control

• Preventive focus: Prioritize field hygiene to minimize outbreaks.
• Biological controls: Employ natural predators or pathogens to reduce chemical use.
• Safe chemical use: Apply pesticides judiciously when necessary, following safety guidelines.

Strategic application of molybdenum and boron fertilizers, combined with soil, water, and pest management practices, is key to maximizing kidney bean yield and quality. By following these guidelines, farmers can optimize crop performance and enhance agricultural sustainability.