1、Impact of drip irrigation and boron application on seed yield, yield

Optimal irrigation and nutrient management are widely acknowledged as key factors in the arid and semiarid regions. However, the synergistic effects of drip irrigation and micronutrient application, particularly boron, on alfalfa seed production in these areas remain insufficiently understood.

2、Effect of drip irrigation and boron application on enhancing seed

Seed yield shown a negative parabolic relationship with both irrigation and boron. The optimal combination exhibited higher seed quality, WUE, and economic benefits. The number of reproductive branches per plant was the key contributor to seed yield.

3、Progression of drip irrigation and fertigation in cotton across the

Consequently, this review article endeavors to provide a concise and informative update on the (i) current status of water and nutrient use in cotton, (ii) irrigation scheduling techniques and, (iii) drip irrigation and fertigation trends in cotton worldwide.

4、Influence of Drip Fertigation and Foliar Spray of Boron on Yield and

The results indicated that, yield, nutrient uptake and nutrient use efficiency of nitrogen, phosphorus and potassium under study were significantly influenced by various fertigation and boron levels.

5、(PDF) Productivity of Field Crops as Influenced by Foliar Spray of

Foliar application of nutrients plays an important role in changing growth and physiological characteristics of field crops. In optimizing fertilization strategies, inclusion of foliar...

Effect of Drip Fertigation and Boron Foliar Spray on Growth

In this view, the present investigations were conducted to know the effect of drip fertigation and boron foliar spray on growth, seed yield, quality of onion (Allium cepa L.) in cv. Palam Lohit.

Boron in Soils and Plant Nutrition

Boron (B) is one of seven essential micronutrients—vital to fertilization, as well as fruit and seed production. Boron deficiency is the most widespread of all micronutrient deficiencies, affecting almost all major crops grown around the world.

Effects of Foliar Fertilization: a Review of Current Status and Future

Compared with root fertilization, foliar fertilization, as a supplementary fertilization strategy, can deliver nutrients directly to the target through aerial plant parts, thereby helping to reduce negative impacts on the soil (Bindraban et al. 2015; Fernández and Eichert 2009).

Responses of Water and Fertilizer Utilization Efficiency and Yield of

In this study, the effects of magnetic–electric-activated water irrigation and foliar biostimulant application on cotton growth and yield were investigated, with the aim of understanding the underlying mechanisms.

How Many Grams of Boron Fertilizer Are Appropriate for a Single

II. Application Methods for Cotton Boron Fertilizer Common Methods: Basal Application: Spread boron fertilizer on the soil surface for root absorption. Topdressing: Apply boron fertilizer with irrigation water. Foliar Spraying: Spray diluted boron solution onto cotton leaves. Drip Irrigation: Dissolve boron fertilizer in water and deliver it via drip systems. Basal Application: Spread boron ...

Applying boron fertilizer to cotton is a critical practice for improving yield and fiber quality. Boron enhances cotton growth, disease resistance, and fiber properties. When applying boron, both drip irrigation and foliar spraying have distinct advantages and disadvantages. Below is a detailed comparison of the two methods.

I. Drip Irrigation Method

1. Advantages

• Precise Control: Drip irrigation systems enable accurate regulation of water and fertilizer distribution, ensuring uniform boron supply to cotton root zones.
• Reduced Evaporation Loss: By delivering boron directly into the soil, water evaporation is minimized, improving fertilizer utilization efficiency.
• Minimized Runoff Risk: Drip systems reduce fertilizer loss due to improper application, lowering environmental pollution.
• Labor-Saving: Automated drip systems decrease manual labor requirements for fertilization.

2. Disadvantages

• High Costs: Initial setup and maintenance of drip systems are expensive, particularly for large-scale farms.
• Technical Complexity: Installation and operation require specialized knowledge, making implementation challenging.
• Topographical Limitations: Steep or uneven terrain may hinder effective drip system deployment.

II. Foliar Spraying Method

1. Advantages

• Ease of Operation: Spraying is simpler and more accessible to farmers compared to drip systems.
• Lower Costs: Requires less infrastructure investment, suitable for widespread agricultural use.
• Versatility: Adaptable to diverse terrains without geographical constraints.

2. Disadvantages

• Lower Fertilizer Efficiency: Spraying may result in insufficient soil-borate contact, reducing absorption rates.
• Environmental Risks: Increased potential for fertilizer runoff or drift, posing ecological hazards.
• Inconsistent Outcomes: Lower utilization rates may lead to inadequate boron supply during critical growth stages, affecting cotton development.

Both drip irrigation and foliar spraying have unique strengths and weaknesses. The choice depends on factors such as local topography, farm scale, budget, and technical capacity. Where feasible, drip irrigation is recommended for optimal boron efficiency and environmental sustainability.