1、Better performance of compound fertilizers than bulk

Compound fertilizers had 10.2%−19.2% lower NH 3 emissions than bulk-blend fertilizers. Adding bentonite and humic acid to bulk-blend fertilizers helped reduce NH 3 emissions. Simultaneous presence of high concentrations of N, P, and K promoted soil nitrification.

2、Co

To assess the impact of the combined application of coated diammonium phosphate and humic acid on wheat yield enhancement, we conducted pot experiments along with leaching and ammonia volatilization simulation tests, aiming to elucidate the effects of this combination on nutrient transport.

3、Effects of synergistic phosphate fertilizer on photosynthetic

The results showed that the photosynthetic characteristics and the senescence of wheat treated with synergistic phosphate fertilizer were better than CK, and T2 treatment was the best. Discover the latest articles, books and news in related subjects, suggested using machine learning.

4、Development of bacteria

For the first time, this study reports the combined application of bio-organic phosphate fertilizer and heat-tolerant PSB, which offers an eco-friendly option to harvest better wheat yield with low fertilizer input.

5、Effects of Different Varieties of Phosphate Fertilizer Application on

Therefore, in order to increase wheat P efficiency, APP or DAP was recommended as a proper fertilizer in lime concretion black soil, while DAP or TSP was recommended as a proper P fertilizer in red soil.

Effects of Different Varieties of Phosphate Fertilizer

【Objective】 Effects of different phosphorus (P) fertilizers application on soil P transformation as well as P uptake and utilization in wheat were investigated, so as to provide a theoretical basis for precise matching and efficient utilization of P fertilizer in soil - P fertilizer - crop system.

Phosphorus

In our current review article, we address the knowledge gap by classifying PNMs according to green synthesis methods and the valence state of phosphorus while elucidating the underlying mechanisms through which these PNMs facilitate plant growth.

Effects of Different Varieties of Phosphate Fertilizer Application on

Effects of different phosphorus (P) fertilizers application on soil P transformation as well as P uptake and utilization in wheat were investigated, so as to provide a theoretical basis for precise matching and efficient utilization of P fertilizer in soil - P fertilizer - crop system.

Development of bacteria

For the first time, this study reports the combined application of bio-organic phosphate fertilizer and heat-tolerant PSB, which offers an eco-friendly option to harvest better wheat yield with low fertilizer input.

Exploring phosphorus fertilizers and fertilization strategies for

We argue that the improvement of the nutritional value of crops, especially cereals, through reduced phytic acid and increased zinc and iron contents should be among the most important drivers toward the development of innovative fertilizer products and fertilization technologies.

In agricultural production, the selection of base fertilizer is critical, as it directly impacts crop growth and yield. Wheat, as one of the most important food crops, requires careful consideration when choosing base fertilizer. Compound fertilizers and phosphate fertilizers are two common types of base fertilizers, each with unique characteristics and advantages. Below is a detailed comparison of their applicability for wheat cultivation.

I. Characteristics and Advantages of Compound Fertilizers

1. Comprehensive Nutrient Content Compound fertilizers typically contain nitrogen (N), phosphorus (P), and potassium (K), along with other essential nutrients. This composition meets the diverse nutritional needs of crops at different growth stages, making it an ideal choice for wheat, which requires balanced nutrition.

2. Enhanced Fertilizer Utilization The balanced nutrients in compound fertilizers are efficiently absorbed by crops, reducing waste from over-application of single-nutrient fertilizers. This improves fertilizer use efficiency and minimizes environmental pollution.

3. Promotes Root Development The multi-nutrient formula supports healthy root growth, enhances nutrient uptake capacity, and improves the crop’s resilience to stress. This is particularly crucial for wheat during critical growth phases.

4. Convenient Management Compound fertilizers are easy to apply, allowing precise dosing based on crop requirements. This reduces risks associated with excessive fertilization.

II. Characteristics and Advantages of Phosphate Fertilizers

1. Supports Crop Growth Phosphate fertilizers provide essential phosphorus, which plays a vital role in promoting growth, increasing wheat yield, and improving grain quality.

2. Boosts Disease Resistance Phosphorus strengthens a crop’s immune system, enhancing its ability to resist pests and diseases. This is especially beneficial for protecting wheat from common agricultural threats.

3. Improves Soil Structure Phosphate fertilizers enhance soil aeration and water-retention capabilities, creating an optimal environment for root development. This contributes to long-term soil health and sustainable wheat production.

4. Optimizes Nutrient Use Similar to compound fertilizers, phosphate fertilizers reduce nutrient wastage by targeting specific deficiencies, thereby improving efficiency and minimizing environmental harm.

III. Applicability Analysis: Compound vs. Phosphate Fertilizers

1. Rapid-Growth Crops (e.g., Wheat) Compound fertilizers are preferable for crops requiring quick nutrient uptake. Their fast-acting formula satisfies immediate growth demands, while their ease of application enables precise management.

2. Long-Term Nutrient Stability Phosphate fertilizers excel in providing sustained nutrient release, ensuring steady growth and development. They are particularly effective for crops like wheat, which benefit from prolonged phosphorus availability.

3. Integrated Application Combining compound and phosphate fertilizers can harness their complementary strengths. For example, using a phosphate-rich compound fertilizer addresses both immediate and long-term needs. application rates should be adjusted based on soil tests and crop requirements to avoid over-fertilization.

The choice between compound and phosphate fertilizers for wheat base fertilization depends on specific crop needs and soil conditions. Both options offer distinct benefits: compound fertilizers provide balanced, rapid-acting nutrition, while phosphate fertilizers support long-term soil health and disease resistance. A rational combination of the two, coupled with scientific application practices, ensures efficient resource use and environmental sustainability.