A new service that makes the benefits of precision farming readily accessible without growers having to master all its complexities is being launched by ProCam for this autumn.

FieldSense uses satellite mapping of soil and crop variability across fields, says ProCam regional technical manager, Nigel Scott, who has been integral in both developing and testing the new service.

This is then used to derive variable rate input applications tailored to these variations, rather than relying on a blanket approach, he says, with the aim of improving economic crop output across the field and bringing environmental gains.

Harry James says the system will help maximise yields in all areas of a fieldHarry James says the system will help maximise yields in all areas of a field

What makes the system – which is easily accessed via a web browser – particularly appealing, according to Mr Scott, is the fact it is based on a collaborative approach between the agronomist and grower, rather than growers having to do everything themselves.

He added: “It will be a ProCam agronomist who makes sense of the satellite images, drawing on their boots-on-the-ground experience of the field and ground-truthing any anomalies that the images might reveal.

"This can be combined with the farmer’s own knowledge of the field as necessary.

“Once maps have been interpreted, the agronomist will produce variable rate files for downloading directly to the tractor that is controlling the drill or fertiliser applicator.

"It is precision agronomy through partnership,” he explains.

“Growers can also cherry pick only those parts of the package relevant to their farm and machinery, and can begin by trying FieldSense over just a few hectares.”

The company’s western region technical manager, Harry James, who has also been integral in developing and farm-testing the system says this first phase launch will focus on four key areas for combinable cropping: grid-based soil sampling; variable rate seeding; variable rate nitrogen (N), phosphate (P), potash (K) and lime applications; and yield mapping input.

The process starts by mapping fields into various sized grids, says Mr James – for example one hectare squares for soil sampling, 24m squared grids for variable rate fertiliser spreading, and 6m squared grids for variable rate drilling, or the most appropriate grid size for the width of machine.

Mr James said: “The variable rate drilling package in FieldSense uses historical NDVI satellite maps that are available that show the variations in crop biomass that have occurred in that field over multiple years.

“From these, the agronomist will create a variable seed rate plan – to drill proportionally more seed in historically lower biomass grid squares and less seed where less is needed – with the aim of achieving a uniform, optimum tiller density over the whole field.

“In one test, we’ve found that almost double the seed rate was needed in poorer areas of a field to bring tiller numbers back up towards the better areas."

He added: "Without this knowledge, poorer areas would have been drilled at sub-optimal density, risking sub-optimal yield.”

For soil sampling, Nigel Scott says the location of where samples were taken from in each hectare is captured by GPS and shared back to the FieldSense platform.

Samples can be analysed using ProCam’s SoilSense service, he says, with the resulting gridded nutrient maps produced used by the agronomist to create variable rate spreading files to correct P and K deficiencies, and for liming if required.

“Variable rate N application, on the other hand, uses satellite NDVI measurements of the growing crop. These are taken every 5-7 days on a 10m x 10m grid or every 3-5 days on a 3m x 3m grid.

"Here, the aim is to use variable rate N to produce the optimum green area index (GAI) over the whole field.

ProCam regional technical manager, Nigel Scott says FieldSense uses satellite mapping of soil and crop variability across fieldsProCam regional technical manager, Nigel Scott says FieldSense uses satellite mapping of soil and crop variability across fields

“Farm-testing in oilseed rape where GAI in March was found to vary from a near optimum of 3.0 to just 1.0, showed that by varying N dose between 60-90kg/ha, crop uniformity was corrected by early June.”

Mr Scott added: “In fields where yield mapping is carried out on the combine harvester, yield data can also be uploaded into the system to guide future agronomic decisions.”

UK managing director, Alex Collingwood, says the launch of the system is the latest in a sequence of technical introductions from ProCam.

“FieldSense provides a way for our agronomists to take some of the complexity out of precision farming for growers, while bringing greater accuracy to agronomic decisions.

"In the case of variable rate application of nutrients, there are also potential SFI payments available of £27/ha." he added.

“In essence, the system offers focused use of key inputs for optimum crop output through partnership, technology, and boots-on-the-ground collaboration. Satellite image field maps are one element of precision farming, but they are just the start. They need underpinning with solid field experience to interpret and make sense of them,” Mr Collingwood concludes.