The focus has recently been on increasing pasture growth and quality with minimal added nitrogen, without lessening production. This is nothing new; in 2008, a hilly dairy farm I was supervising, (250 ha of easy and 150ha of aerial,) averaged 10,867 kg/ha DM. In 2012 the average was 16,238, an increase of 49% in 5 years. Best flats went to 20,650. Hills were 9,200. Nitrogen input plummeted to 3 kg/ha.
We cut out superphosphate and potassium chloride, substituting Sechura RPR and potassium sulfate enabling the biology to repopulate. Soil fertility needs were calculated around the calcium-magnesium soil balancing and trace elements. The fertiliser budget did not change. Animal health improved and costs went down. Most of that DM response was owing to better biology although none was added. Balancing the Ca and Mg improved the microbial habitat. Mushrooms, frogs, eels, and whitebait in the environment all increased.
We have moved on since then and now have fantastic products such as Terragen Greatland microbial bio-stimulant and bio-fertiliser to work with to accelerate soil balancing. This is a game-changer, especially when microbial foods are added.
It takes 16 nutrients for a healthy system to flourish. Some suggest up to 64. It is not 4 or 5. Soluble products can be counterproductive, causing leaching. Feed the animals in the soil, not the crop. The microbes and plants will interact for their mutual benefit.
Calcium is a fertiliser, not a pH changer. Ca and Mg are critical for correct soil structure. Used correctly they improve it. Use them blindly and the soil structure and microbe numbers will collapse. Balanced soil will have the correct pH and high microbial populations. Microbes can increase the availability of almost all nutrients. Some nutrients may decrease as they will be used for extra production, and in the conversion of atmospheric nitrogen for plant use or be displaced by another nutrient. pH must be the result of the fertiliser program, not the cause of it.
Phosphorus need not be locked up in the soil, as it most often is. Biology will make it available if allowed to. I recently tested tracks through bush, and pasture soil. Both areas had the same fertiliser for the past 5 years. The bush showed 50% higher levels of P. For Ca it was 25% higher. That’s the power of fungi. Lose the fungi; lose the phosphate and calcium.
Applications of nitrogen can be scaled back drastically. Less than 50% of the N is taken up by plants in any case. The rest causes havoc in the environment. Excess nitrate compromises animal health and promotes insect attacks in plants. Nitrogen strips calcium and other cations out of the soil.
Potassium as KCl is another problem. The chloride is readily taken up by plants decreasing plant uptake of K. It hardens the soil, degrading microbial habitat. If pH is too high, you will have to restrict the amount to be applied in one application as the potassium being a single charge cation cannot dislodge double-charged cations such as calcium and magnesium. Any unattached K will be lost.
We at Kiwi Fertiliser have the skills to improve your farming business beyond your expectations.
