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• A precision farming advisor from the Midwest advises farmers to find the 20 percent of the technology that gives you an 80 percent return, not the other way around.• Making precision agriculture work on your farm requires a scientific approach — collect data, analyze it, draw a conclusion, assign a value to that conclusion, then implement an action plan.

Elton Robinson 1, Editor

February 8, 2013

4 Min Read

If you’re a farmer thinking about getting into precision agriculture, Kelly Robertson, a consultant with Precision Crop Service, Benton, Ill., has some advice — find a provider who believes strongly in your knowledge and experience.

Robertson discussed “the good, the bad and the ugly” of precision agriculture in Midwest corn and soybean production during the National Alliance of Independent Crop Consultants annual meeting in Jacksonville, Fla., recently.

The “good” of precision agriculture, according to Robertson, is that high fertilizer prices have led to the use of variable-rate potash and phosphate applications. “Over the last five years, 95 percent of my customer base has gone from a standard rate to some type of variable-rate application. Almost everyone is on variable-rate lime applications.

“We’re also seeing a shift from grid-sampling to smart-grid or zone sampling, using more implement guidance and row shutoffs on sprayers and planters. Our customers run everything from standard GPS with no correction to RTK guidance. We have become very good at finding the 80 percent of the technology which gives us a 20 percent return.”

The “bad” of precision farming, according to Robertson, is that farmers will experiment on precision farming “based on (media stories) they’ve read on its success. Other farmers do precision farming because they can, or because they have the technology (it comes with a new piece of equipment).”

Robertson says that yield monitor calibration on combines “is lacking, and in many cases it’s getting worse. A lot of this is because when you’re farming 10,000 acres, the guy running the combine is worried only about getting done.”

While data collection is a huge benefit of precision farming, “It’s often still about bad data collection instead of good data use,” Robertson said. “We worry about collecting data, and we collect all kinds of bad data, but we don’t want to use good data, or we don’t know how to use it.”

The ugly

Robertson says the “ugly” aspects of precision farming in the Midwest, is that “dealer support is almost non-existent in some places. They can sell it, but they can’t support it. As-applied mapping is still non-existent for the areas I work in. Fertilizer and chemical dealers are reluctant to provide as-applied maps after they do variable-rate applications.”

Robertson says Midwest precision farming tends to “oversell” the accuracy of RTK. But even so, “we don’t need RTK on everything. There is still a lot of inoperability within the hardware. We’re still trying to plug brand X into brand Y to get zero results.”

Making precision agriculture work on your farm requires a scientific approach, according to Robertson. “Precision farming is collecting data, analyzing that data, deriving a conclusion, assigning a value to those conclusions and then and only then, implementing an action plan based on the value of the conclusions.

“That seems fairly simple. But in reality, we skip a whole bunch of steps. For many people precision farming is collecting data and then implementing an action because we have the tools to do it.”

The key to harnessing the power of precision agriculture, according to Robertson “is to model the entire environment. We can’t do that if we are focused on just fertility, or soil type. Don’t be so focused on one thing in that field that you don’t look at something that’s telling you a story that’s going to solve that problem.”

For example, a field drainage map may explain why yields differ in two areas of a field even though they have the same soil type. “We could be over-managing one area and under-managing another. We have to consider all variables when we consider yield. But yield is not a variable. Yield is an autopsy. Yield is the post-mortem, the result.”

Robertson says to not underestimate the knowledge and experience of the farmer. “After we got started in precision farming, I handed my father a yield map, and he looked at it and said already knew that’s what it would look like. During his life, he had made 77 harvests off those fields. Based on the year, he could tell you where the high and the low yields were going to be. But that’s experience. So much of what we do in precision agriculture cuts the farmer and his experience out of the action being taken.”

Robertson says to partner with an information technology provider “who will welcome you the farmer in the analysis of the variables, and who understands that yield is the result of variables and not a sales tool. The biggest mistake we can make is replacing the farmer with technology.”

Farmers should be willing to consider all of the factors affecting yield, whether it be fertility, pH, insect pressure, drainage or CEC. “But remember that spatial variability is determined by our sampling density. In other words, how the pictures are going to look is determined by how you sample.”

Precision farming is not necessarily about increasing yield, Robertson said. “It’s about profit. I want to work with profitable farmers. I don’t care if they win yield contests. Our true focus should be on the 20 percent of that data that is going to make us an 80 percent return.”

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About the Author(s)

Elton Robinson 1

Editor, Delta Farm Press

Elton joined Delta Farm Press in March 1993, and was named editor of the publication in July 1997. He writes about agriculture-related issues for cotton, corn, soybean, rice and wheat producers in west Tennessee, Arkansas, Mississippi, Louisiana and southeast Missouri. Elton worked as editor of a weekly community newspaper and wrote for a monthly cotton magazine prior to Delta Farm Press. Elton and his wife, Stephony, live in Atoka, Tenn., 30 miles north of Memphis. They have three grown sons, Ryan Robinson, Nick Gatlin and Will Gatlin.

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