Granular Lime
Granular Lime
Granular lime, a widely used agricultural product, offers several benefits that significantly contribute to increasing crop yield and enhancing overall nutrition in farming:
Soil pH Adjustment: One of the primary benefits of granular lime is its role in adjusting soil pH levels. It neutralizes acidity in the soil, raising the pH to more optimal levels. This adjustment creates a more balanced environment, ensuring that essential nutrients are readily available for plant uptake.
By neutralizing soil acidity, granular lime facilitates enhanced availability of crucial nutrients. It allows for better absorption of essential elements by plants, promoting healthier growth, and supporting improved overall crop health.
In acidic soils, toxic elements like aluminum and manganese can become more available and harmful to plants. Granular lime's capacity to reduce soil acidity helps in minimising the toxicity of these elements, ensuring a safer environment for plant growth.
Granular lime's impact is long-term. It dissolves slowly, releasing calcium and magnesium into the soil over an extended period. This gradual release sustains the soil's improved pH and nutrient availability, benefiting crops over multiple growing seasons. Granular lime contributes to soil aggregation and structure, improving its texture and reducing compaction. This better soil structure promotes better root development and water infiltration, crucial for healthy plant growth.
By balancing soil pH, granular lime enhances the effectiveness of applied fertilisers. It ensures that nutrients present in the soil and those introduced through additional fertilisation are more readily available for plant uptake, thus improving their overall efficiency.
Granular lime contributes to improving soil stability, reducing the risk of erosion. A well-structured soil is less susceptible to erosion caused by wind or water, preserving the topsoil and its essential nutrients. By ensuring balanced pH levels and improved soil conditions, granular lime supports plants in becoming more resilient to stressors such as diseases, adverse weather conditions, and fluctuations in nutrient availability.
