1、Improving Fertilizer Use Efficiency—Methods and Strategies for the
This editorial introduces our Special Issue entitled “Improving Fertilizer Use Efficiency—Methods and Strategies for the Future”. The fertilizer use efficiency (FUE) is a measure of the potential of an applied fertilizer to increase the productivity ...
2、Calcium lactate as a soil amendment: Mechanistic insights into its
In this study we thoroughly investigate the potential of using calcium lactate (CL) as a soil amendment to mitigate the effects caused by soil salinization. We comprehensively analyze how CL affects soil parameters such, as salinity, colloid morphology and physicochemical properties.
3、Review on enhancing the efficiency of fertilizer utilization
To maximize FUE and advance sustainable agriculture, this article addresses the significance of nutrient management planning, precision agriculture approaches, improved fertilizer formulations, and application techniques, in addition to nutrient stewardship and best management practices.
(PDF) A Review on Challenges and Opportunities of Fertilizer Use
The efficient use of fertilizers is a critical component of sustainable agriculture, ensuring optimal nutrient supply to crops while minimizing environmental impacts. This comprehensive...
Optimization of Fertilizer Use in Modern Agriculture: Strategies and
In this article, we will explore how to implement innovative practices to optimize fertilizer application and boost agricultural productivity. Efficient fertilizer application not only increases crop productivity but also minimizes negative environmental effects.
Understanding the Importance of Calcium in Fertilizer Formulations for
Discover how calcium enhances fertilizer formulations, supporting plant growth, soil health, and nutrient absorption for optimal agricultural productivity.
Calcium Fertilizers
Calcium fertilizer is defined as a substance that supplies calcium to soil and plants, with common sources including calcium carbonate, calcium hydroxide, and calcium oxide.
(PDF) Improving Fertilizer Use Efficiency—Methods and Strategies for
The fertilizer use efficiency (FUE) is a measure of the potential of an applied fertilizer to increase the productivity and utilization of the nutrients present in the soil/plant system.
Calcium lactate as a soil amendment: Mechanistic insights
In this study we thoroughly investigate the potential of using calcium lactate (CL) as a soil amendment to mitigate the effects caused by soil salinization. We comprehensively analyze how CL affects soil parameters such, as salinity, colloid morphology and physicochemical properties.
Long
Previous studies have shown that optimized fertilization with slow-release fertilizer (SRF) or organic fertilizer is a feasible approach to reduce chemical N fertilization and to increase N utilization and crop productivity in paddy fields (Hou et al. 2021; Singh et al. 2019; Xue et al. 2020).
Calcium lactate fertilizer is a common agricultural product rich in calcium, playing a critical role in plant growth and development. its effectiveness depends on multiple factors, including fertilizer quality, application methods, soil conditions, and more. Below is a detailed analysis of how to maximize its efficacy:
1. Fertilizer Quality
The quality of calcium lactate fertilizer directly impacts its performance. High-quality products typically contain higher calcium concentrations, fewer impurities, and are less prone to soil adsorption or leaching. Superior fertilizers also exhibit better solubility and stability, ensuring efficient absorption by plants. To guarantee reliability, select products from reputable brands and trusted sources.
2. Application Methods
Proper application is key. Spread calcium lactate evenly on the soil surface or in furrows, avoiding direct contact with roots to prevent damage. Increase irrigation to aid dissolution and absorption. Follow the principle of moderation; excessive use can elevate soil salinity, hindering plant growth.
3. Soil Conditions
Soil type significantly affects fertilizer uptake. For example, sandy soils may leach calcium, while clay soils bind it, reducing availability. Tailor fertilizer selection to local soil properties (e.g., texture, pH) to improve efficacy.
4. Plant Requirements
Calcium needs vary by crop. Legumes and peanuts, for instance, benefit greatly from calcium supplements, whereas crops like corn or wheat may show limited responses. Match fertilizer use to specific plant demands for optimal results.
5. Timing of Application
Apply calcium lactate during critical growth stages—early development and peak growth periods—to align with plants’ nutritional needs. Avoid late-stage applications, as reduced nutrient uptake may lead to wasted resources.
6. Synergistic Fertilization
Combine calcium lactate with other nutrients (e.g., nitrogen, phosphorus) to enhance overall efficiency. For example, pairing with nitrogen boosts calcium uptake, while combining with phosphorus improves phosphorus uptake. Balanced blends optimize plant health.
7. Environmental Factors
Climate influences efficacy. Hot, rainy conditions may reduce solubility due to excess moisture, while droughts limit dissolution. Adjust application rates and timing based on seasonal weather patterns.
8. Post-Application Management
Monitor soil moisture and pH post-application to maintain ideal growing conditions. Regularly inspect plants for stress signs and adjust fertilization strategies if needed. Integrate pest and disease control to support robust plant health.
In Summary The effectiveness of calcium lactate fertilizer hinges on coordinated considerations: quality, application techniques, soil and plant compatibility, timing, synergy with other nutrients, environmental adaptation, and diligent post-application care. By addressing these factors holistically, farmers can design effective fertilization plans to maximize crop yields and health.
