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Striking a balance with smart technology

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John Deere Limited is the UK and Irish arm of the world’s largest manufacturer of agricultural, turf, construction and forestry equipment.

The agricultural product range includes tractors, loaders, combine harvesters, drills, sprayers, balers, mower-conditioners, self-propelled foragers, Gator utility vehicles and Precision Ag products and services. John Deere also offers Europe’s broadest single-brand range of professional and domestic turf equipment for lawns, gardens, parks, playing fields, golf courses, sports grounds and other amenity turf maintenance.

All John Deere machines are sold and supported by specialist servicing dealers, backed by flexible finance programmes from John Deere Financial. The worldwide parts network provides instant information on parts availability, day or night, with orders shipped from anywhere in the world within 24 hours, and overnight or even same day delivery on the UK mainland.

Find out more at deere.co.uk/sustainability

Farmers are constantly faced by various challenges, with climate change and agriculture’s carbon footprint the latest of these.

With politicians and consumers now calling for more sustainable food production, agriculture must continue to feed the growing global population and deal with the consequences of climate change.

At the company’s first Sustainability Day in 2021, John Deere discussed with farmers, advisors and experts how the agricultural machinery industry can contribute to finding a better balance between economy and ecology.

John Deere 8RX tractor

© John Deere

In particular, digital solutions can reduce environmental impacts and help farmers achieve the same or even higher yields with less use of mineral fertilisers, agrochemicals and fuel.

Precision ag enables farmers to combine efficient field work with environmental and nature protection. Using these technologies, by 2030 CO2 emissions could be reduced by as much as 11 per cent.

Digitalisation is a key enabler to make farming more sustainable. It also provides better transparency through enhanced documentation. In this way, farmers can become climate savers and increase consumer confidence.

Sustainability impact

John Deere has identified three areas that have a particular impact on the sustainability of agriculture:

  • Soil protection – protecting the soil with modern design concepts;
  • Fertilisation – using digital nutrient measurement to upgrade manure and slurry as a valuable organic fertiliser;
  • Crop protection – reducing the use of agrochemicals by more precise applications.

Increased soil protection

Soil protection is mainly about using larger machinery footprints, which helps to avoid damaging soil compaction. This ensures greater soil fertility while increasing porosity and the soil’s capacity to store more nutrients and water.

In recent years, tractors have undoubtedly become heavier. Nevertheless, soil compaction has steadily decreased due to the use of larger tyres and the ability to work with low inflation pressures.

For example, a modern 22-tonne tractor only puts a pressure of 0.6kg/cm² on the ground, while a 3-tonne 75hp tractor built in the 1970s applies much more weight, at 1.5kg/cm².

Tracked tractors are even gentler on the soil. The new John Deere four-track 8RX has a huge footprint of 4.6m², so the contact surface pressure is very low at only 0.4kg/cm². A larger footprint also means less track depth, which reduces compaction in the deeper soil layers and reduces roll resistance.

Less roll resistance means lower fuel consumption and therefore fewer CO2 emissions. Tests have shown that fuel consumption can be reduced in this way by 10 per cent, so this innovative driving concept can make an active contribution to climate protection.

Fertilising more accurately with manure

Fertilising farmland with manure is often the subject of critical public debate. There’s no doubt that slurry is a valuable organic fertiliser that needs to be used correctly. However, this only works if the farmer is able to determine the nutrient demand of the crop as well as the nutrient content of the manure. Today, both can be measured accurately by taking soil and plant samples. The results allow farmers to create application maps, which make site-specific fertiliser applications possible.

John Deere HarvestLab

© John Deere

With the John Deere HarvestLab sensor, the precise nutrient content of the manure can be accurately measured. The sensor’s NIR technology identifies the exact amounts of nitrogen, phosphorus and potassium, even when the values vary.

Controlled in real time by these active measurements and the application map recommendations, a tractor and slurry tanker are able to adjust the application rate automatically.

This ensures the exact amount of organic fertiliser is applied according to the specific needs of the crop. Over- and under-fertilisation is prevented, which avoids both air and water pollution, and the use of mineral fertilisers can be significantly reduced.

Ultimately the environment will also benefit, since the production of fertilisers uses a lot of energy and generates a lot of CO2.

Targeted crop protection

Overlaps and overdoses of agrochemicals should also be avoided. Technologically, these problems can be solved by accurate GPS-controlled driving with AutoTrac, intelligent SectionControl and John Deere’s ExactApply individual nozzle control.

John Deere Exact Apply

© John Deere

At the same time, there is a growing trend towards the use of site-specific or even individual plant treatments instead of uniformly spraying complete fields.

Site-specific applications divide fields into zones that can be treated differently. Drones or satellite images, for example, can measure crop density and related disease pressure, so the necessary fungicides can be applied.

Again based on application maps, sections of the field are only treated where necessary. This approach can provide massive cost savings, depending on crop and field variations.

See & Spray

John Deere’s new See & Spray technology is even more precise. High-speed cameras and artificial intelligence help to capture crop populations, and See & Spray Select can identify weeds and apply a herbicide at specific locations across the field.

The next step up is the advanced See & Spray system, which can distinguish between weeds and the growing crop. Again, only the individual weeds are treated, while the crop is not affected.

See & Spray technology is currently developed for row crop applications in the US, where herbicide savings of up to 90 per cent are possible.

Mechanical weed control also benefits from the use of high-speed camera technology. The AutoTrac Implement Guidance system provides precise control of mechanical hoes used between crop rows. The system’s accuracy allows the tractor to be driven at high speeds of up to 16kph.

For organic farms in particular, this technology offers a real efficiency advantage. Even conventional farms can benefit by combining chemical and mechanical measures, and therefore significantly reduce the cost and environmental burden of herbicide use.

Reduce your costs and carbon footprint

These technologies cannot on their own contribute to the total climate neutrality of agriculture. However, they can help to reduce fertiliser, agrochemical and fuel costs, and significantly reduce farming’s carbon footprint.

Farmers are certainly willing to produce food and energy more sustainably. This approach calls for action by all participants to set a new course for European agriculture in such a way that a successful balance can be struck between economy and ecology.

For further details and farmer experiences, click here:

https://www.deere.co.uk/en/our-company/sustainability/ https://www.deere.co.uk/en/agriculture/publication/green-power/