Since the Haney test was developed it has been highly scrutinized and questioned for being calibrated to specific regions. Universities, commercial labs, and agronomists have done their fair share of finger waving attempting to discredit and shame the Haney test for not being "calibrated". But is the Haney test calibrated? The answer is yes and no.

The amount of nutrients extracted by any solution in the laboratory is relative to the extractant used. Currently, most commercial soil testing labs use extractants that (1) treat the soil as a non-living non-integrated system, (2) focus on physical and chemical, (3) ignore the biological components of the soil, (3) extract soil with chemistry that soil never sees, and (4) measure the house and not the food source for the biological systems responsible for nutrient cycling. The Bray, Olsen and Mehlich 3 extracts were developed between 1945 and 1984.

Why are we using antiquated extractants and technology to determine nutrient availability in the soils? For perspective, I turn to Jimmy Emmons, who commented, "very few people still farm with a 40-50's tractor, why would they want to use technology that old?"

Regardless, these common soil extractants are used in varying regions depending on the general pH of the soils in that region. Bray is normally used in soils with pH values below 6.8, Olsen in soil with pH values greater than 7, and Mehlich was originally developed for soils with a low pH. Mehlich 3, however, is now used as a "universal" soil extractant despite the fact that the extractant itself has a pH of 2.5. All three extracts are highly buffered so when the soil exposed to these extractants, it assumes the pH of the extractant. Why is this important? The amount of nutrients solubilized is directly related to the pH of the extractant. Lance Gunderson of Regen Ag Lab often uses the metaphor of trying to dissolve a penny in a jar. If you place the penny in a jar of water, it will take a very long time (years possibly) to dissolve the penny. If you place the penny in a jar of soda, the penny will dissolve in weeks as the soda is acidic. If you place the penny in a jar of nitric acid it will dissolve in days as the nitric is highly acidic.

Because Mehlich 3 is so acidic, it will dissolve many P compounds that may or may not be plant available over the growing season such as calcium phosphates and iron/aluminum phosphates. In a field where we are not exposing the soil to pH values that low under natural conditions, these phosphates would not normally be plant available. Essentially, we can change the ph of a soil extractant to dissolve whatever amount of any given nutrient we desire. This is where soil test calibration comes in. To determine the effectiveness of an extract, because it does not represent natural field conditions, correlation and calibration to relative yields are used to determine threshold nutrient availability.

Hochmuth et. al (2018) state that soil test correlation is defined as the "process of determining the relationship between plant nutrient uptake or yield and the amount of nutrient extracted by a particular soil test method" (Mitchell and Mylavarapu 2014). Beegle (Interpretation of Soil Test Results, Cooperative Bulletin No. 493) indicates that the strength of this correlation is the basis for selecting a particular soil test extractant for a given combination of soil, crop, and growing conditions. Beegle explains calibration as follows:

For example, in the case of N below, the optimum fertilization rate is about 180 lbs of N/acre to achieve a non-limiting relative yield of over 200 bu/acre.

We must, however, consider what the data really looks like before the response cure is determined. The response to N fertilization when P and K are not limiting in the research plots above actually looks like this:

So inherently, we are not really measuring "plant available" nutrients under varying field conditions and varying crops but rather crop response to fertilization relative to the particular nutrient extracted in the laboratory and then fitted to a nice curve. This is problematic for many reasons. First and foremost, when we are determining crop response in a plot trial, we are not considering the complex biochemical pathways that are occurring in the plant/soil synergistic relationship under varying climatic and management conditions (the spread in the data above under each fertilizer treatment). From a reductionist viewpoint, if we are treating the soil as though it is not nutrient limited because we have provided the amount of N, P, or K for optimal crop production, but not considered micronutrients and bioavailability of all nutrients under varying conditions in all fields with all crops, what are we really measuring?

Again, is the Haney test, and in particular, the H3A extractant, calibrated? In the standard sense, no, the H3A extractant has not been compared to relative yield under all crop conditions when all nutrients are independently treated as non-limiting. The standard commercial extracts have also not been tested under all of these varying conditions either.

The Haney test was developed to extract the soil under conditions that best mimic natural conditions in the field. The H3A extract consists of 3 of the most common plant root exudates in row crop conditions, malic acid, citric acid and oxalic acid. The extract is slightly acidic and non-buffered. This means that the pH of the soil remains within approximately 1 unit of the soils natural pH, similar to what happens in the root zone when plant root exudates are pumped into the soil to solubilize nutrients. The H3A extract is used to determine P, K, and micronutrients in the soil that would be solubilized around the root zone and are directly plant available. These extractable nutrients are then considered in combination with microbial activity, carbon to nitrogen ratios, and the carbon compounds that are the food source for the microbes. In combination, we use the metrics to determine if the soil is in balance and if extractable nutrients will actually be available to the plants during the growing season.

Soil Regen is focused on improving producer ROI through thoughtful agronomic practices, including reducing nutrient inputs. While soil testing is not the cause of all problems in agriculture, current soil testing methods and conventional agriculture practices have led to the over-application of nutrients that result in surface and ground water pollution. We believe that soils are the foundation of improving ROI, crop health and the environment. Therefore, a focus on soil testing methods that improve ROI by reducing inputs while improving crop yields is very important. There are many testing methods that can be used in combination to gain a greater understanding of the impact of management practices under varying context and provide guidance to improve crop vigor and therefore producer profitability. In turn, management practices that improve production also improve soil health and mitigate negative impacts to the environment such as sediment and nutrient runoff to streams, lakes and rivers.

So who are you to wave your finger unless you are looking at the soil as the complex ecological system that it is by using soil analyses that focus on biological function and balance as it relates to nutrient release.

We are excited to announce that Cedar Meadow Farms is Regenerative Verified! It's official.

The Farm

Cedar Meadow Farm is in Holtwood, PA, just a 17 miles south of Lancaster, PA.

It was 1935 that Steve Groff's grandparents purchased the piece of earth that he now stewards and preserves – a legacy that the 4th generation is beginning to manage.

Steve's grandmother was an ardent follower of J.I. Rodale (now the Rodale Institute) and practiced his organic methods in her garden. They didn't make fun of her at that time . . . but neither did they support the methods she used in growing vegetables.

Steve graduated from high school and dove right into his passion for farming. In 1982, he convinced his dad that they needed to eliminate tillage so they wouldn't have ditches in their fields. These needed to be closed in order to harvest the crops in the fall.

In the mid-nineties, Steve realized that they needed to use cover crops to not only further protect their soils from erosion but to ENHANCE the fields with biological diversity.

These practices have nearly tripled their organic matter - some fields are over 6% - and they have lowered the costs of production significantly.

As a bonus, the nutrient density of what they grow has increased, benefiting those who consume our products.

And now, the CBD hemp they are growing in these carefully managed fields really does yield "better oil from better soil!" Other experts have seen our tests and have been amazed at the diversity of other cannabinoids in addition to CBD.

Steve recounts, "I know my grandmother would be proud if she could see what we have done to increase the soil health of this farm over the years!"

Cedar Meadow Farm is easily accessible from Harrisburg, York, Chambersburg, Wilmington, Baltimore, West Chester and Philadelphia.

Find out more about Cedar Meadow Farm

(Hickory, NC) — Soil Regen is proud to share that co-founder and first-generation farmer, Russell Hedrick has submitted an entry of 459.51 bushels per acre to the North Carolina Corn Growers Association. The yield bests the current national yield record of 442 bushels per acre held by Francis Childs.

“The average corn yield for Catawba County is somewhere between 100 and 124 bushels an acre according to USDA NASS data,” Hedrick says, adding that his yield climb didn’t happen overnight. “This all started five years ago when Richard Linton, the previous Dean of NC State University, challenged us to push our yields to see what was possible in our state, chasing 400-bushel corn,” he says. “It’s taken us all five years – we’ve seen some 400s on the yield monitor trying new techniques but seeing a field average over 400 has taken us five.”

Hedrick designs his plots in the fall of the previous season, planting a cover crop mix that would offer both nutrient availability, weed suppression and moisture conservation. In February, Hedrick was ready to pull soil samples. The field of plots was zone tested and the samples were sent to Regen Ag Lab to have PLFA and Haney tests ran. The results gave Hedrick a real-time snapshot of the size and activity of the microbial community in his soils. Hedrick adds “Farmers really need to look at sampling their soils at different depths, deeper then what is currently recommended currently by most universities. Lance Gunderson, President and Co-Owner of Regen Ag Lab, along with Rick and Liz Haney, have spent a lot of time with farmers like myself to explain how nutrients work in the soil and how testing methods have evolved and how we understand them as farmers to make key management decisions.” Prior to planting, Hedrick pulled additional cover crop biomass samples for Regen Ag Lab to run a nutrient analysis, noting that the test became obviously critical in his journey to reach 400-bushel corn about three years ago. Hedrick says that the carbon to nitrogen ratio, even within the residue has a lot to do with nutrient release and tie-up and knowing what nutrients are present doesn’t matter if they aren’t available.

The Haney and PLFA soil testing indicated the nutrients Hedrick needed to grow 425-bushel corn and, while the traditional soil tests indicated a lesser nutrient need, Hedrick says that knowing the “real” numbers needed is what allowed him to achieve 400+ bushel corn. “A lot of the traditional tests are giving false reads and higher or lower nutrient availability numbers; we’ve seen it firsthand. We apply what a test calls for and then our plant tissue tests show deficient. The hot water extraction that Regen Ag Labs offers for some micronutrients and the Haney Soil Test extraction method gives us a lot better read and let’s us dial in what our yield goals are and what is needed to reach those goals. We’re pushing these crops and we have to have accurate numbers to work from,” Hedrick says. “For example, one of the traditional tests I used showed that I had enough Boron available, the hot water extracted Boron test showed we would fall short based upon our yield goal.”

Actual applied nutrients totaled 310 pounds of applied nitrogen, 140 pounds of phosphorus, 40 pounds of potassium and 100 pounds of sulfur. Hedrick also applied boron, zinc, molybdenum, nickel, cobalt, humic acid, fulvic acid, and sugars in a precision application. Hedrick used a full-flex corn variety, planting a full-season 116-day variety, AgVenture 9916 and tested different populations throughout his farms, from 32,000 to the 45,900 plants per acre that achieved the record-breaking yield. “I think a lot of the success of our farm has been from the farmers and friends across the country who have invested their time and knowledge with me. Our group of farmers share their information with each other to push each other to minimize failures, or as Rick Clark calls them - Learning Opportunities,” Hedrick says.

“We at Soil Regen are focused on implementing farming practices that aren’t solely focused on yield and are intent on return on investment. The field days, conferences, and webinars that we produce across the country allow us the opportunity to learn and share how others are changing the farming techniques and utilizing new technologies that aren’t in mainstream agriculture. I have focused on these avenues, especially soil health, and the yield has steadily followed. For any farmer, return on investment…dollars per acre rather than yield per acre…should be the goal. This year, my cost per acre were a little under $1000 and my net per acre on $8.50 corn was well over three grand an acre.” To learn more about Hedrick’s road to 459-bushel per acre corn and the soil health journey that has paved, make plans to visit this year’s Big Soil Health Event, December 6-7, 2022 in Cedar Falls, Iowa.