1、Exploring phosphorus fertiliser management in wheat production

For responsible management of P fertilisers across varying fertilisers supply scenarios in wheat cultivation, it is imperative to systematically assess the impact of soil characteristics, crop varieties, and crop rotation practices on P efficiency.

2、Polyphosphate fertilizer impacts the enzymatic and non

Our results demonstrated that salinity caused a series of variations in the antioxidant capacity of wheat plants, at both, enzymatic and non-enzymatic levels. Remarkably, a strong correlation...

3、Impact of Two Phosphorus Fertilizer Formulations on Wheat

Our study evaluated the impact of two phosphorous formulations (polyphosphates and orthophosphates) on physiological traits of wheat related to yield (photosynthetic parameters, biomass, and root morphology) and its associated microbiota. A greenhouse experiment was conducted using agricultural soil deficient in P (1.49%).

Long

These fertilizers enhance crop productivity and impact the soil environment by promoting aboveground and root biomass growth through the adequate supply of necessary nutrients to plants.

Impact of Different Doses of Phosphorus Fertilizer Application on Wheat

The aim of the study was to investigate the impact of phosphorus (P) dose application effects on bread wheat (Triticum aestivum) yield, mineral nutrients concentration and soil C (C) and nitrogen (N) concentration.

Evaluating the Impact of Phosphatic Fertilizers on Soil Nutrients and

A field experiment was conducted to evaluate the effects of phosphatic fertilizers, including DAP, NP, and SSP, applied at dose of 84 kg P 2 O 5 ha⁻¹, on soil nutrient dynamics and the ...

Layered application of phosphate fertilizer increased winter wheat

Rapid innovation in modern agriculture has revealed that optimized P fertilizer placement allows to reduce P fertilizer input, thereby effectively increasing fertilizer use efficiency and crop yield (Du et al., 2020).

Impact of Two Phosphorus Fertilizer Formulations on Wheat Physiology

Our study evaluated the impact of two phosphorous formulations (polyphosphates and orthophosphates) on physiological traits of wheat related to yield (photosynthetic parameters, biomass, and root morphology) and its associated microbiota. A greenhouse experiment was conducted using agricultural soil deficient in P (1.49%).

The Impact of Different Phosphorus Fertilizers Varieties on

In a four-year field experiment conducted from 2017 to 2021, we assessed the impact of various P fertilizer types on crop yield in a continuous wheat–maize rotation system.

Effects of phosphorus fertilizer on root characteristics, uptake and

Abstract: To understand the growth responses of dryland wheat to different application rates of phosphorus fertilizer in different rainfall years, we examined root characteristics, spike number, yield and phosphate utilization.

The effects of phosphate fertilizer on wheat plants are multifaceted, influencing not only crop growth and development but also soil health. Below is a detailed exploration of its impacts.

I. Promoting Root Development

1. Enhanced Root System: Phosphate fertilizer stimulates root growth, making roots thicker and more extensively distributed. This improves water and nutrient absorption, boosting drought and disease resistance.
2. Increased Root Activity: Phosphate fertilizer enhances root vitality, enabling roots to efficiently seek water and nutrients. This is critical for wheat growth in dry or infertile soils.

II. Improving Photosynthetic Efficiency

1. Boosted Chlorophyll Synthesis: Phosphorus is essential for chlorophyll. Phosphate fertilizer promotes chlorophyll production, intensifying leaf greenness and photosynthetic efficiency.
2. Higher Photosynthetic Rate: Phosphate fertilizer increases the rate of photosynthesis (energy captured per unit time), enhancing yield and grain quality.

III. Enhancing Nutrient Uptake

1. Balanced Absorption of Nitrogen, Phosphorus, and Potassium: Phosphate fertilizer improves the uptake of key nutrients like nitrogen, phosphorus, and potassium, optimizing resource use and crop quality.
2. Preventing Nutrient Imbalances: Proper application avoids phosphorus deficiency issues, such as yellowing caused by low phosphorus levels.

IV. Supporting Growth and Development

1. Accelerated Germination: Phosphate fertilizer speeds up seed germination, facilitating the transition from seeds to seedlings.
2. Stronger Tillering and Stems: It promotes tillering and stem growth, creating sturdier plants better equipped to withstand adverse weather.

V. Improving Stress Resistance

1. Drought Tolerance: Phosphate fertilizer strengthens drought resistance, ensuring stable growth under dry conditions.
2. Disease Resistance: It enhances the plant’s ability to fend off pests and diseases, safeguarding yield and quality.

VI. Facilitating Grain Maturation

1. Improved Grain Quality: Phosphate fertilizer accelerates grain maturation, resulting in plump, vibrant kernels with higher market value.
2. Extended Storage Life: It prolongs post-harvest storage duration while maintaining grain integrity, reducing food losses.

Phosphate fertilizer profoundly impacts wheat growth, development, and soil health. Proper application boosts yields and resilience, but overuse risks soil acidification and nutrient imbalances. phosphate dosage should align with soil conditions and crop needs for optimal results.