1、What Is the Best Fertilizer for Beans?

Ensuring a sufficient supply of these two nutrients supports a productive bean crop. The ideal fertilizer for beans translates the focus on P and K into specific NPK ratios (Nitrogen, Phosphate, and Potash).

2、Fertilizing Broad Bean to Double Its Growth

Organic fertilizers like compost, well-rotted manure, and bone meal enrich the soil naturally, promoting healthy microbial activity. On the other hand, synthetic fertilizers such as balanced NPK options (like 10-10-10) provide a quick nutrient boost.

3、Effect of urea fertilization on growth of broad bean (Vicia faba L

However, addition of acetic acid solution induced the improvement of NUE % and Ndff % by shoot and root of broad bean plants. This study provides insight into how to improve plant yield without damaging the soil health and will be helpful to create a better world with sustainable agriculture.

4、Impact of Some Organic Manure with Chemical Fertilizers on Growth

For achieving this aim, broad bean plants were fertilized with different rates of organic fertilizers (poultry or farmyard manures) and minerals (NPK). Different growth parameters,...

5、Growing beans with Haifa Fertilizers

It is important to include nitrate fertilizer relatively frequently (with every irrigation cycle) until well-developed foliage has been built up. Potassium should be applied in increased amounts while pods are starting their intensive development. K/N ratio should preferably be 3/1.

Optimal Fertilizer for Growing Broad bean: What You Need to Know

Learn how to properly fertilize Broad bean (Vicia faba). Discover fertilizing frequency, nutrient requirements, and best practices for healthy growth.

What Is the Best Fertilizer for Growing Healthy Beans?

Discover the best fertilizer for beans to boost your crop yield and ensure healthy plant growth. Learn about the essential nutrients and top fertilizer options tailored for beans. Get expert tips to maximize your bean harvest with the right feeding strategy.

EFFECT OF CHEMICAL AND ORGANIC FERTILIZER ON THREE VARIETIES OF BROAD BEAN

as well as its advantage in creating deeper and more abundant roots (Sharma, 2002). Therefore, the use of organic fertilizer as a substitute for the chemical fertilizers in the role of this fertilizer in improving the soil structure and increase the efficiency of the roots on the absorption of water and soluble food from the soil and increase ...

EFFECT OF BIO

A field experiment was carried out at 2018-2017 growth season in Babylon / Saddat El-Hindia, Iraq in clay loam soil to study the effect of bio-fertilizer (addition and control) and chemical ...

EFFECT OF BIO

Chemical fertilizer has an important role in increasing the production of agricultural crops by 50%, provided that there is a balance when added (Anon, 2004).

Broad bean (also known as fava bean, Vicia faba) is a widely cultivated leguminous crop valued for its nutritional richness, unique taste, and economic significance. Selecting appropriate chemical fertilizers as base fertilizer is critical for successful broad bean cultivation. Below are recommendations for choosing suitable fertilizers:

1. Soil Testing:

   • Conduct soil tests before fertilization to determine pH, nutrient levels (e.g., nitrogen, phosphorus, potassium), organic matter content, and microbial activity. This helps identify specific nutrient deficiencies and optimal fertilizer dosages.
   • Soil testing services are typically provided by local agricultural extension departments or third-party agencies. Test results guide the selection of fertilizer types and application rates tailored to broad bean growth requirements.

2. Organic Fertilizer Selection:

   • Farm Manure: Compost or green manure improves soil structure and water/nutrient retention. ensure heavy metals are within safe limits by treating raw materials properly.
   • Animal Manure: Chicken, cow, or other animal manures are rich in nitrogen (N), phosphorus (P), potassium (K), and microelements. Pasteurize to eliminate pathogens before use.
   • Algae-Based Fertilizers: Brown or red algae extracts provide high N, K, and calcium, promoting growth and stress resistance.

3. Chemical Fertilizer Selection:

   • Nitrogen Fertilizer: Moderate N promotes stem and leaf growth but excessive use causes excessive vegetative growth. Apply based on soil tests and plant needs.
   • Phosphate Fertilizer: Enhances root development and disease resistance. Coordinate with nitrogen to avoid over-supplementation.
   • Potassium Fertilizer: Improves stress tolerance, fruit maturation, and quality. Adjust applications according to growth stages and soil conditions.

4. Micronutrient Fertilizers:

   • Boron: Stimulates flower bud differentiation, increases flower quantity/quality, and strengthens roots and drought resistance.
   • Molybdenum: Boosts photosynthesis and protein synthesis, enhancing yield and quality.
   • Zinc: Enriches chlorophyll production, strengthens photosynthesis, and improves disease resistance.

5. Compound Fertilizers:

   • Choose formulated fertilizers containing N, P, K, and microelements based on soil tests and growth demands. Such fertilizers balance nutrient supply while reducing environmental risks.

6. Fertilization Methods:

   • Apply fertilizers in "small amounts, multiple times." Provide moderate top-dressing during early/mid growth stages, reducing late-stage applications to avoid waste or pollution.
   • Ensure fertilizer solubility and pH compatibility. Avoid direct root contact to prevent burning.

7. Timing of Fertilization:

   • Match fertilization to growth stages: prioritize N during seedling and flowering stages; shift to P/K during fruiting for better yield and quality.
   • Adjust timing based on climate: increase frequency/dosage in dry/hot seasons; reduce in rainy/cool periods to prevent disease or frost damage.

8. Fertilizer Proportions:

   • Calculate N, P, K, and microelement ratios per mu (0.067 ha) using soil test data and scientific guidelines. Coordinate with supplemental fertilizers (e.g., add P after applying superphosphate or N after ammonium sulfate).

9. Precautions:

   • Avoid sprinkling fertilizers directly onto plants or near roots. Instead, evenly distribute and incorporate into soil.
   • Irrigate after fertilization to aid absorption, but control water volume to prevent soil compaction or disease.

10. Soil Amendment:

    • Address salinization or acidification by applying lime (to raise pH) or organic matter (to improve structure). Rotate crops or interplant to reduce pest/disease risks and sustain soil health.

scientific fertilization with balanced organic and chemical inputs ensures robust broad bean growth. Prioritize soil testing, precise nutrient management, and eco-friendly practices to maximize yields and environmental sustainability.