1、Molecular mechanisms underlying plant responses to low phosphate stress
Molecular mechanisms underlying plant responses to low phosphate stress and potential applications in crop improvement - ScienceDirect
2、Phosphorus Plays Key Roles in Regulating Plants’ Physiological
This review aims to analyze the influence of phosphorus supply on various aspects of plant growth and plant development under hostile environmental conditions, with a special emphasis on stomatal development and operation.
3、Plant Growth and Development in Relation to Phosphorus: A review
Part of P applied to soil as fertilizer is could be into insoluble forms, rendering it unavailable to plants and causing environmental pollution. Therefore, increasing p absorption ability by...
Influence of Concentrated Slow
New concentrated phosphate fertilizers have a positive effect on the development of cotton plants, stimulating the growth of plant organs by 3–19% and increasing yield by 6.4–12.2%.
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.
Soil phosphorus transformation and plant uptake driven by phosphate
This article summarizes and analyzes how PSMs promote the absorption and utilization of P nutrients by plants from four perspectives: the types and functions of PSMs, phosphate-solubilizing mechanisms, main functional genes, and the impact of complex inoculation of PSMs on plant P acquisition.
Phosphorus acquisition by plants: Challenges and promising strategies
Whilst phosphorus (P) in soil is considered to be abundant, the portion available for plant uptake constitutes less than 1% of the overall P present. To enhance crop productivity, the utilization of mineral P fertilizers has become pervasive in agriculture.
Phosphorus applications adjusted to optimal crop yields can help
Here we match plant-available soil Olsen phosphorus concentrations to thresholds for optimal productivity of improved grassland and 28 of the world’s most widely grown and valuable crops.
Effects of various phosphorus fertilizers on maize yield and phosphorus
ABSTRACT The performance of fertilizers may differ significantly in different soils. Here, we quantify effects of various phosphorus (P) fertilizers on maize yield and P uptake in soils with different pH values, using a pot experiment.
Role of Phosphates Fertilizers in Sustain Horticulture Production
Phosphorus is one of the major nutrients that play a vital role in the whole plant stages. It is a limiting factor in the growth and productivity of different crops. Phosphorus uses in both synthetic and organic fertilizer forms. Vegetable plants absorb phosphorus as H 2 PO 4.
Phosphate fertilizers play a critical role in plant maturation, growth, and development. Phosphorus is an essential nutrient for plants, significantly influencing their growth, development, reproduction, and stress resistance. Below is a detailed analysis of how phosphate fertilizers affect plant maturation:
1. Promoting Root Development
Phosphate fertilizers stimulate root growth, increasing the number and length of roots. Roots are the primary organs for water and nutrient absorption, and enhanced root systems improve plants’ ability to uptake water and nutrients. Additionally, robust roots strengthen the exchange of mineral ions in the soil, boosting drought resistance and disease resistance.
2. Enhancing Fruit and Seed Formation
Phosphate fertilizers significantly impact fruit and seed development. Optimal phosphorus application improves fruit quality and yield. In fruit cultivation, proper phosphate use enhances sugar content, taste, and appearance, while increasing economic returns. Phosphate also promotes seed formation and germination, raising germination rates and seedling survival.
3. Boosting Photosynthesis
Phosphate fertilizers enhance photosynthesis by increasing photosynthetic efficiency. Phosphorus is a key component of photosynthetic pigments, such as chlorophyll. Adequate phosphorus promotes chlorophyll synthesis, improving light energy capture. Plants with higher photosynthetic efficiency accumulate more organic matter, supporting robust growth and development.
4. Improving Stress Resistance
Phosphate fertilizers enhance plants’ adaptability to environmental stress. Phosphorus regulates hormonal balance, strengthening resilience against drought, salinity, pests, and diseases. Healthy root systems also improve the adsorption and immobilization of soil contaminants (e.g., heavy metals), reducing toxicity risks.
5. Accelerating Growth
Phosphate fertilizers support overall plant growth by promoting protein synthesis, cell wall development, and structural integrity. Stronger cells and tissues increase disease resistance, while improved root systems enhance water and nutrient absorption, driving faster growth.
6. Facilitating Reproduction
Phosphate fertilizers boost plant reproductive capacity. They enhance pollen formation, pollination success, and seed setting rates. By improving seed quality and germination rates, phosphate fertilizers contribute to sustainable agricultural production.
7. Increasing Crop Yields
Phosphate fertilizers directly improve crop yields and quality. Strategic phosphorus application optimizes harvests, enhances profitability, and reduces pesticide reliance, aligning with sustainable farming practices.
Phosphate fertilizers multifacetedly influence plant maturation. Proper application accelerates root development, fruit/seed formation, photosynthesis, stress resistance, growth, and reproduction, ultimately enhancing maturity and overall plant health. Rational use of phosphate fertilizers is crucial for sustainable agriculture.
