By Tyre Zim
Working the field with a tractor can be daunting exercise on rainy days. This can keep farmers from entering their fields, and consequently delay planting which leads to costing yields. There exist optimal soil conditions that are recommended when working the field. One of the easiest ways to prevent soil compaction is to avoid working in wet fields for as long as possible, especially when soil moisture is at, or close to, field capacity. Field capacity is reached when the pores in the soil are filled with equal parts of air and water. Field capacity is the ideal condition for compaction to occur. Water in saturated soils acts as a lubricant, allowing soil particles to slide around and fill in the voids. Working on saturated soils can lead to a host of other issues, most notably rutting and sidewall compaction in the furrow. Ideally, farmers should wait for drier soils before operating heavy equipment in their fields to prevent compaction. Drier soils have a higher proportion of air-filled pores which act like suspension, better support heavy farm machinery, and prevent soil particles from smashing together.
A Simple Test for Soil Conditions – A simple way to judge whether a field is ready to support heavy equipment to collect a handful of soil from the top two or three inches of the ground, mould it into a ball, and see if the ball crumbles apart or deforms. If the ball crumbles or cracks, the field is ready for equipment, but if it deforms, the field will benefit from being given time to further dry.
Tyre Size and Inflation – Soil compaction is caused by the weight of a machine exerting force on the ground, and one of the simplest ways to reduce the impact of a machine is by spreading its weight over a larger area. Because of this, it’s important for equipment to operate using properly sized tyres inflated to the correct tyre pressure. Larger tyres operated at lower air pressures are vital to a field’s well-being, as they produce a larger footprint by distributing the weight of equipment over a larger surface area hence, minimizing compaction caused by heavy farm machinery.
IF/VF Tyres – Many farmers have turned to radials and high-tech IF/VF tyres for their ability to maximize footprint size and operate at low inflation pressure. Radial tyres are designed to provide a longer more uniform footprint than a standard bias tyre improving traction and reducing compaction. IF/VF tyres can operate between 20% and 40% lower air pressures than conventional radials (or carry 20% to 40% more load at the same inflation pressure). Because of this, IF/VF tyres produce a large contact patch that spreads the weight of hulking planting equipment over a greater area than a standard radial farm tyre. Even if you have the perfect field conditions and a machine outfitted with a just-right set of tyres, get in the habit of checking tyre pressure before entering the field. This is especially true in changing weather, as ambient temperature fluctuation can result in a pressure change in a tyre.
Axle Loads– Reducing axle load is another sound strategy for lessening soil compaction at planting. According to the University of Minnesota Extension, farm machinery with loads between 18 and 40 tons per axle can create compaction two or three feet down, while axle loads under 10 tons contain compaction to the top six to ten inches. Restricting compaction to the very top of the soil is key, as it can be broken up by normal tillage and crops.
‘Being patient and waiting for optimal conditions before entering the fields can have a positive long-term effect on a farm. However, waiting for drier soil is not always an option, increasing the importance of reducing the impact of farm equipment on the field is’.
Contact Tyre Zim today on 08677 200 300 or email@example.com or www.tyrezim.com to learn more about how Alliance flotation and IF/VF tyres can help your operation minimize compaction at planting.