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See the latest news, innovation updates, trial results, grower stories and more from Agricen. 
April 24, 2024 — Posted By Agricen

CropLife-webinar-archive

Whether conditions are “ideal” or stressful, the key is to be prepared for whatever the growing season brings so that you can reach your yield goals.

In this on-demand webinar hosted by CropLife, "Stand Up to Stress for Higher Yield & ROI," you'll learn:

  • What abiotic stress is

  • How ag biologicals and biostimulants fit into crop stress and plant health management programs

  • How TERRAMAR, a new foliar technology for agricultural crops, enhances plant performance while mitigating the impacts of abiotic stress

During the webinar, Dr. Connor Sible of the University of Illinois discusses common abiotic stresses, how biological and biostimulant technologies can play a role in addressing them, and, specifically, how marine extracts promote stress relief in plants. He also discusses the need for a proactive approach when it comes to application timing.

"Stress mitigating biostimulant applications need to be proactive, not reactive," says Dr. Sible. "The crop needs time to build the defense so that it is able to tolerate the stress when it arrives."

Agricen's Dr. Brian Cornelious follows his presentation with a discussion of TERRAMAR, which can be used to enhance nutrient uptake while improving crop tolerance to abiotic stress.

TERRAMAR is a unique combination of carbon- and marine-based components that have complimentary functions:

  • Carbon-Based Technology (derived from biologically converted leonardite) enhances nutrient uptake and provides key carbon derivatives for additional energy to optimize plant performance

  • Marine-Based Technology (derived from biologically digested kelp) improves crop tolerance to abiotic stressors such as heat, drought, salt, and cold

Exclusively available from Loveland Products through Nutrien Ag Solutions, TERRAMAR can be used in combination with early, mid-season, or late-season foliar applications (including foliar nutrition, insecticides, herbicides, and fungicides) to mitigate stress and improve nutrient uptake. Foliar applications deliver its unique set of highly active, metabolite-based compounds for quick absorption through the leaf tissue of the plant. Multiple field trials validate the effectiveness of TERRAMAR as an addition to crop protection and nutritional programs.

Watch the webinar to learn how to help your crops stand up to stress for higher yield and ROI.

Watch the Webinar

 

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August 2, 2022 — Posted By Agricen

Soil health is the foundation of a successful crop. In our short video, The Plant Is Secondary, growers talk about their approach to improving their soil and keeping it healthy, including the role that Accomplish biocatalyst technology plays. 

"If your soil's healthy, obviously your crop's going to do what it needs to do," says Heath Cutrell, who farms in Virginia and across the state line into North Carolina.

Iowa farmer Kelly Garrett adds, "If we could take care of the biology of the soil, the plant is secondary. It's what happens when we do a good job with the biology.

The corn growers in the video have seen firsthand how Accomplish technology can help with healthier soils and better nutrient availability for their crops. 

"Because of the Accomplish we're feeding the microbes, we're pushing that microbial activity and the mineralization, and we've giving ourselves nutrients," Don Stall, who farms in Michigan, says. "My soil tests have climbed and that's due to that fodder breaking down and returning that nutrient to us. It's a big deal."

"Over the years, we've got high phosphorus levels from manure applications. Even though we have such high P levels in the soil, we just can't get it into the plant. [Our dealer] said 'Here's a product, Accomplish, try that,' and right off the bat we were 0.1, 0.15 higher on our tissue samples. So year after year, we started running a little bit more, and the more we were running, the less commercial fertilizer we would have to buy," Indiana grower Kevin Kalb notes.

University of Illinois' Dr. Fred Below also weighs in.

"What I like to think of a product like Accomplish as is that it's trying to capture the essence of the value that's in that manure," he says. "They called it a fertilizer catalyst because one thing it does is it helps make immobile nutrients more available. There is a whole, vast source of nutrients in the soil, and if we can make some of those more available, that has a real value."

You can watch the video below.

See more by browsing our YouTube channel or by watching our film, Last Stand

Watch Last Stand

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December 8, 2021 — Posted By Agricen

How high can corn yield go? In our short video, "Striving for Record Corn Yields," you'll see how some corn growers try to test the limits and push for record-setting yields.

"I wish I could tell you that high yield is a recipe, like following the cookbook. By gosh, it isn't that way. High yield...it is an art form," says Dr. Fred Below of the University of Illinois in the video. 

The growers featured in the video faced multiple obstacles during filming in 2020 — from hurricanes and tropical storms in the East to a derecho that flattened crops and caused billions of dollars worth of damage across the Midwest. 

"We had a tremendous crop out there. The storm just took part of it," says Iowa farmer Kelly Garrett, whose farm was in the path of the 2020 derecho that made records as the most destructive and costliest thunderstorm disaster in U.S. history.

"We had a hurricane come in here the other day. Raise a good corn crop and then it's sad to come in here and watch it laying on the ground the way it is, broke off," says Heath Cutrell, who farms in Virginia and North Carolina.

In addition to Kelly and Heath, the video features growers Don Stall (Michigan) and Kevin Kalb (Indiana). These farmers all have had winning entries in the NCGA Corn Yield Contest in recent years. Agricen's product technologies, including Accomplish, Extract PBA and Titan XC, have been part of their winning programs.

"You have to use products that work if you want to be chasing these kind of yields," says Kevin.

See their stories below.

You can also hear more from each grower by watching the full version of Last Stand, also available on our YouTube channel.

Watch Last Stand

 

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February 3, 2021 — Posted By Agricen

Last season, Agricen's product technology helped some of the highest-yielding corn growers in America take home a winning title in the National Corn Growers Association's 2020 National Corn Yield Contest.

A total of 6 national and 20 state winners used at least one product containing Agricen's biocatalyst technology in 2020. Among them were Don Stall of Charlotte, Michigan, who was the top-yielding grower overall in the contest, Kevin, Shawn, Nikia and Rhylan Kalb of Dubois, Indiana, who took national wins across three categories, and Leonard Truszkowski of Stewartsville, New Jersey, who also placed nationally.

NCGA_social-01

The biocatalyst-based products represented in the top growers' programs were Accomplish LM, Titan XC, Extract PBA, Prologue, Levitate and NexBlu. All are exclusively available from Loveland Products though Nutrien Ag Solutions.

Grower Don Stall came in first place, nationally, in the Conventional Irrigated category with a yield of 476.9052 bu/acre, which was also the overall highest yield in the 2020 contest.

"Titan and Accomplish...turn nutrients into an available, soluble form so we can take them up," says Don. "It obviously works. You can see it, when you run the combine across the field and you weigh it. The results speak for themselves."

The Corn Belt's first place national winner in the Conventional Non-Irrigated Category was Kevin Kalb, with a yield of 385.4405 bu/acre.

"When I talk about raising, potentially, the biggest crop we have, I need to get as much phosphorus as I can into the plant. Titan makes that possible," Kevin says.

Kevin's wife, Shawn Kalb, also took home a first place national win in the No-Till Non-Irrigated category in the Corn Belt (329.0569 bu/acre), while Kevin and Shawn's children, Rhylan and Nikia, each placed second nationally in the Conventional Non-Irrigated (345.9045 bu/acre) and Strip, Min, Mulch, Ridge-Till Non-Irrigated (323.7572 bu/acre) categories in the Corn Belt states, respectively.

If you are interested in more details about these and other growers who have had winning corn yields in the NCGA contest, you can read about them in these posts:

Wishing everyone great success in the coming season!

You can learn more about the biocatalyst technology that is helping top corn growers achieve big yields by watching our film, Last Stand, or downloading our FAQ.

Download the Booklet

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October 19, 2020 — Posted By Agricen

livestock cowsWhen it comes to growing forage and pasture crops as feed for a successful livestock operation, simply increasing the biomass of these crops isn't enough. Feed quality is another important consideration. In fact, it may be the most important variable in livestock and dairy production, as increased feed quality can lead to higher production of meat and milk.

Biocatalyst technology can have a positive effect on these variables, increasing total biomass of the crop and improving feed quality. 

Increase in Dry Matter Production

In Victoria, Australia, a third-party, replicated pasture trial was conducted to evaluate the performance of the biocatalyst technology Titan XC (marketed as Basis XC in Australia) when used in the grower's standard dry fertilizer program. Treating diammonium phosphate (DAP) with the Titan XC technology led to a statistically significant increase in dry matter (+236.1 lb/acre) compared to untreated DAP (p<0.05). Crude protein, an indicator of crop quality, was also higher when Titan XC was used to treat the DAP compared to the untreated dry fertilizer.

Titan XC pasture trial

Improvement in Feed Quality

What about the effect of biocatalyst technology on other indicators of feed quality?

In a pasture trial conducted at Lucindale, Australia, Titan XC technology was applied on single superphosphate (SSP) fertilizer and compared to untreated SSP. The feed analysis showed that Titan XC treatment improved multiple measures of feed quality, increasing crude protein by 26.4%, total digestible nutrients (DMD) by 6.7%, and estimated metabolizable energy by 7.5%. Titan XC treatment of the dry fertilizer also lowered acid detergent fiber by almost 3% and neutral detergent fiber by almost 8%, resulting in greater palatability and digestibility. 

fresh pasture feed analysis

These improvements in feed quality can lead to more pounds of beef and lamb produced per acre. They can also lead to more pounds of milk produced per ton of forage, as seen in a trial at a large dairy in California

In the trial, Accomplish LM, which is formulated for broadcast directly onto the soil, was applied at 1 gallon per acre along with the grower's standard practice (GSP) to a field planted for corn silage. The controls were fields planted to corn silage using just the GSP alone. All fields had a history of manure applications from the dairy. Corn silage that was harvested from each treatment was stored in separate bunkers and the feed analysis was conducted after the ensiling process was complete. 

Compared to the GSP alone, feed quality was improved across multiple parameters, including the  most important one: pounds of milk per ton of silage. Overall, Accomplish LM treatment increased milk production by 501 pounds per ton of silage, 16% more than with the GSP alone.

corn-silage-feed-analysis

A Positive Impact on Livestock Operations

These trials, and others, demonstrate the positive impact that biocatalyst technologies can have on the forage and pasture crops grown to feed livestock.  

Whether by using Titan XC on dry fertilizer or Accomplish LM broadcast on each acre, farmers can increase pasture and forage total biomass and dry matter while also increasing crop quality. This can lead to increased production of meat and milk in livestock operations.

Learn more by downloading the Biocatalyst Technology booklet.

Download the Booklet

 

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October 13, 2020 — Posted By Agricen

Steve Sexton Crop ResidueAlready a busy period, harvest is also the time for growers to begin planning for next season's crop. Fall planning can be critical to having a less stressful planting season in the spring. Incorporating Titan XC and Extract PBA into fall plans is one way that growers can set themselves up for success in the season ahead.

Agricen's Stephen Sexton breaks down the benefits of these biocatalyst products and explains where they fit into fall programs.

Titan XC for Dry Fertilizer

Steve says that two key processes occur when Titan XC is applied to dry phosphorus and potassium fertilizer blends and spread in the fall.

First, he notes that the phosphorus and potassium prills are broken down much faster compared to waiting for Mother Nature.

"Remember that phosphorus and potassium fertilizers may have received multiple applications of petroleum-based or vegetable-based oils to reduce dust and maintain prill integrity," he says. "Oil applied to dry fertilizer can delay the breakdown of the prill when soil applied, since oil repels soil moisture. This is not the case when Titan XC is applied to the dry fertilizer."

Then, there are the benefits related to root growth. 

"In the spring, the biochemistry in Titan XC can signal to the plant that nutrition is nearby, which stimulates root growth and feeder tip roots or root hairs, which are the ports of entry for water and nutrition into the plant," says Steve.

Download the Titan XC Corn Bulletin

Extract PBA for Crop Residue, Manures & Poultry Litter

When it comes to crop residues, manures, and poultry litter, that's where the innovative mineralization technology in Extract PBA comes into play. 

"Extract PBA can be applied with burndown applications or alone on crop residues, manures, or litter to mineralize the organic nitrogen and phosphorus into inorganic, plant-available forms," Steve says. 

Plants do not use organic forms of nitrogen or phosphorus. Rather, they can only take up these nutrients when they are in inorganic, plant-available forms. The plant-available forms of nitrogen are nitrate (NO3) and ammonium (NH4+), while the plant-available forms of phosphorus are hydrogen phosphate (HPO4) and dihydrogen phosphate (H2PO4). 

"Both of these key macronutrients are mineralized, or converted from an organic form into a plant-available, inorganic form, by the biochemistry in Extract PBA," he explains.

See the Extract PBA Trial Summary

The Last Word

By contributing to increased nutrient availability and an improved root system, Titan XC on dry fertilizers and Extract PBA on crop residues, manures or litter can lead to enhanced nutrient uptake, better crop performance, and higher crop yields. 

Learn more about these biocatalyst technologies by downloading the Biocatalyst Technology Booklet.

Download the Booklet

 

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March 16, 2020 — Posted By Agricen

Gregg S - Nutrien

Nutrien Ag Solutions’ Gregg Schmitz has witnessed transformational changes in agriculture–from the birth of modern crop protection to the growth of today's market for ag biostimulants and biologicals, even leading some of the early, pivotal field trials that brought Accomplish technology to Nutrien's row crop customers.

We recently spoke with Gregg about his take on this biocatalyst technology, and why growers who aren't already using Accomplish LM, Titan XC or Extract will want to consider adopting this biochemistry in their fields in 2020.

With a father who was part owner of an agriculture retail facility in Iowa, Gregg grew up in the ag business, working in both retail and wholesale during high school and joining the sales team when he graduated. In 1985, the business was acquired by United Agri Products—which ultimately evolved into Nutrien Ag Solutions. Currently, Gregg serves as Nutrien Ag Solutions' Marketing Manager for the Western Iowa, Eastern Nebraska, South Dakota Division.

Gregg is a sound agronomist who firmly believes in soil health. His 2007-2008 replicated trial results on Accomplish were the springboard for incorporating this technology into Nutrien’s core fertilizer and plant nutrition business.

In the summer of 2007, I got a call to evaluate a product called Accomplish LM that was then being used in California and other states, mainly on specialty or high value crops," says Gregg. "We decided to spray some strips in the fall of 2007 at a corn test plot we had north of Wall Lake, Iowa. To be honest, I was initially skeptical."

"In the summer of 2008, we started to see some visual differences at the V5-V6 stage of growth," he says. "In the area where we applied Accomplish, the corn leaf color was greener. Below ground, we saw more root mass with the Accomplish treatment. We had roots that extended at least three feet into the soil along with a more fibrous root system. We took these trials to yield and had good ROI on all of the applications we made."

AccomplishLM_Corn 01

Gregg and his team had also sprayed a few strips on soybeans in the fall of 2007, using the Accomplish that was left over after spraying the corn test strips. He saw benefits with that crop, too, including seeing the soybeans retain their leaves longer prior to harvest.

"Going into the fall of 2008, we set up trials with key customers at each of our divisions to replicate our results on a larger, real-world scale," he says.

Based on observations from his initial Accomplish LM trial work (harvested in 2008) and from subsequent trials testing the technology with customers at different locations over a two-year period, Gregg's skepticism changed into a belief that Accomplish technology could enhance his grower customers' operations. Some of his observations from that period included:

  • More mellow, less compacted soils and less residue where Accomplish was applied, allowing for smoother tilling operation
  • A customer with tight clay and high pH soils reporting a much more even appearance to his corn field with Accomplish than he had ever seen in past crops–the difference in emergence was right to the line where the trial was applied
  • A big visual difference in terms of more even color, plant development and tassel emergence–along with a 10+ bu/a yield response–in a large-scale trial testing Accomplish technology with UAN in a corn-on-corn field that had liquid hog manure applied the previous fall
  • Carryover effects on crop growth and yield into a second growing season–without additional Accomplish application
AccomplishLM_Corn 02
In an early trial testing Accomplish technology, more even corn tassel emergence
was seen where Accomplish was applied.

Today, Gregg uses a systems or solutions approach to help his customers maximize their ROI on every field, an approach that typically includes 1 gallon per acre of Extract (which contains Accomplish technology) each year. Since 2010, he has also used Titan XC on the majority of dry P&K applications. We asked him why he believes biochemistry is so important to soil health and sustainable crop production.

"There is a quote from Dick Goff, who was an agronomist from Midwest Laboratories in the 1980s. He always said, 'We cannot expect a plant’s productivity to be greater than the foundation and health of the soil.' This quote always stuck with me, as it is about balancing everything we do," says Gregg.

In my mind, biochemistry is the catalyst to delivering the balance we need to help our customers preserve their ability to maximize productivity and ROI on every acre they farm," he says. "With the Accomplish products, we see many of those benefits, like the development of the roots and the mellowness of the soil, both in the current crop year and even beyond."

With plenty of growers who haven’t yet tried or adopted biological or biostimulant technologies, Gregg encourages them to explore the benefits of biochemistry for improving soil health and crop performance.

There are over a decade's worth of trials showing how Accomplish biochemistry can benefit our growers," Gregg says. "Doing some hands-on research, even if it's outside of the normal row crop production, can be a good way to build confidence. One way I looked at the technology early on was by using it in my own garden and on my lawn."

"Make sure you dig plants and get your hands dirty," he adds. "It all starts in the roots and the soil.”

Find out why the biocatalyst technology Accomplish LM, Titan and Extract makes a good addition to agronomic programs by accessing the biocatalyst technology booklet.

Download the Booklet

 

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January 6, 2020 — Posted By Agricen

green cornMany growers apply the “4R” framework for nutrient management—using the right fertilizer source, at the right rate, at the right time and in the right place—to more closely match crop nutrient needs to fertilization practices while supporting sustainable agriculture goals.

Guided by this framework, growers have been able to improve their fertilizer use efficiency and reduce nutrient loss to the environment. However, despite best practices, an estimated 40% to 50% of applied nitrogen is either immobilized by soil microorganisms or lost from the soil through denitrification or leaching, rendering it unavailable to the crop. Download Agricen's Soil Microbiology & Biochemistry BookletAlthough some soil microorganisms contribute to nitrogen loss or immobilization in the soil, others can have a positive influence on nitrogen use efficiency by enhancing the availability or stability of nitrogen in the soil or by enhancing root growth and physiological functions.

How Microbes Affect Nitrogen Use Efficiency

Bacteria and other microorganisms—through their metabolic processes—exude or secrete a wide range of biochemical compounds (called primary and secondary metabolites) into the soil. These biochemicals are not simply the waste or byproducts of metabolic functions. They are the tools through which microorganisms communicate and function in the soil. Some of the ways they can influence nitrogen use efficiency are by:

Complexing nitrogen into organic forms. Biochemical compounds exuded by bacteria and other microorganisms can influence nitrogen transformations. They can also promote the combination of nitrogen into more complex organic compounds, such as amino sugars, amino acids, and proteins, which can induce a metabolic response in other microorganisms and plants.
Keeping nitrogen in plant-available forms. Biochemical compounds in the soil can help keep or convert nitrogen into a plant-available form. One of the well-understood mechanisms of conversion is mineralization, which is the conversion of organic nitrogen to plant-available ammonium. Although not all of the exact mechanisms of conversion or transformation through which this occurs have been uncovered, it is thought that the biochemicals in the soil might also influence the conversion of nitrate back into an ammonium form, or even the transformation of ammonia back into ammonium or amino compounds.
Enhancing root growth and root physiological functions. Roots can respond to signals from biochemical compounds in many ways, including by increasing growth and branching, increasing the uptake of nutrients such as nitrogen, or limiting the uptake of compounds such as salt ions. Roots can also respond to biochemical signaling in the soil biochemistry by making changes to their own exudates. This can have an effect on rhizosphere bacterial functions that, in turn, may help make nutrients more available to the plant. 

Helping Growers Improve Nitrogen Use Efficiency

To gain greater nitrogen use efficiency, growers who are already using the 4R framework and similar practices can utilize additional tools and technologies to aid with soil health, plant health and nutrient efficiency. Available technologies not only include enhanced efficiency fertilizers, nitrogen stabilizers and nitrogen inhibitors, but also biochemical tools like fertilizer biocatalysts, which make use of biochemical mechanisms to directly stimulate bacterial, nutrient and plant functioning. 

Learn More About Fertilizer Biocatalysts

The fertilizer biocatalyst Accomplish can effectively convert applied nitrogen into plant-available forms to increase nutrient availability and facilitate nitrogen uptake by the plant, as seen in this pivotal study. Similarly, Extract PBA is a biocatalyst that can be used to release nutrients that are tied up in the soil, hasten residue breakdown and facilitate the cycling of nutrientsincluding nitrogenback into the soil. By helping to ensure that more of the nitrogen a grower applies gets into the crop, these biochemical technologies can increase nitrogen use efficiency. 

Learn more about the influence of soil biochemistry on plant health and nutrition by downloading the 'Understanding Soil Microbiology and Biochemistry' booklet.

Download the Booklet

 

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September 26, 2019 — Posted By Agricen

NCGA 2018 accomplish technologiesIn 2018, no fewer than five national winners and seven state winners of the NCGA's National Corn Yield Contest used Agricen's biocatalyst technology on their winning acres. We are fortunate to be represented in the best practices of many leading growers, and humbled by the opportunity to help transform grower productivity.

Before the start of this year's harvest, we had the opportunity to meet up with some of the 2018 NCGA winners to celebrate their success last season. Here are some of the folks we are honored to say have used Accomplish LM, Titan XC or Extract PBA as part of their winning strategy. 

2018 National Winners

  • Don Stall, 1st place, Irrigated Corn Category (477.69 bu/a). Don Stall started farming at age 14, when he began cultivating 31 acres for a school project. Following graduation, he served for six years in the Marines, then operated a beef and cash crop operation. Don eventually moved to an all cash crop operation, and he currently farms 2,800 acres of corn, soybeans, and wheat in Charlotte, Michigan. In his "spare time," he serves his local community, both as the Township Supervisor (as he has done for the past 24 years!) and on the board of his county's fire department.

    Don Stall on farming 2Don has been entering the NCGA Corn Yield Contest since 2003, when he noticed that he was already achieving yields comparable to the growers who were winning the contest. He has been the Michigan high yield champion for nine years in a row. In both 2017 and 2018, Don won first place nationally in the irrigated corn category, and his winning yield of 477.69 bu/a in 2018 also placed him as the overall yield champion in the United States.

    Don credits a systems approach to his success. "There is no one answer to achieving high yields. It is a system approach, and you must understand your soils better than anyone else."

    Don also treats all of his dry fertilizer with Titan XC to help make the most of his applied nutrition, and he has also used other biocatalyst products in his program. As he says, "Biochemistry is intriguing and interesting. I believe these products are needed in today’s farming."

  • Kevin Kalb, 1st place, AA Non-Irrigated Corn (388.07 bu/a), Shawn Kalb, 1st place, AA No-Till/Strip-Till Non-Irrigated (343.0 bu/a) & Nikia Kalb, 3rd place, AA Non-Irrigated Corn (343.23 bu/a). The Kalbs and their four children (including third-place winner, Nikia) grow soybeans and corn in the small town of Dubois, Indiana. They also run a turkey operation, producing over 1.8 million tom turkeys in the last 12 years.

    kevin-shawn-kalb-ncga-2018Kevin and Shawn have been entering the NCGA Corn Yield Contest since 2007, winning 12 national titles in the non-irrigated division. Both Kevin and Shawn have had back-to-back, first-place national wins in their respective categories over the past two years (2017 and 2018).

    In 2018, Kevin achieved his personal best yield in the contest, achieving 388.07 bu/a in the AA Non-Irrigated Corn category.

    The Kalb family can also be seen on the farm reality television show, Corn Warriors.

  • Tommy & Valerie Cartrite, 3rd place, Irrigated Corn (350.63 bu/a). Hailing from Sunray, Texas, Tommy and Valerie also won first place in their state competition.

2018 State Winners

  • Stuart Askew, 1st place, A No-Till/Strip-Till Non-Irrigated, North Carolina (274.58 bu/a) 
  • Connor & Kelly Garrett, 1st place, No-Till / Strip-Till Irrigated, Iowa (326.05 bu/a)
  • Tommy & Valerie Cartrite, 1st place, Irrigated, Texas (350.63 bu/a)
  • David Hults, 2nd place, No-Till/Strip-Till Irrigated, Idaho (299.27 bu/a) 
  • Leslie Lindner, 2nd place, AA Non-Irrigated, Missouri (299.99 bu/a)
  • Chris Lindner, 3rd place, AA Non-Irrigated, Missouri (294.35 bu/a)
  • David Kolb, 3rd place, Irrigated, Minnesota (259.89 bu/a)

It's starting to matter not just what producers grow, but also how they grow it. Biocatalyst technologies play a role by making fertilizer applications more efficient and more cost effective, while also helping growers achieve their best yields. 

As this season's harvest comes in, we wish the best of luck to all of the growers who are competing in the 2019 corn yield contest.

(UPDATE: Learn about some of the 2019 corn yield contest winners who used biocatalyst technology.)

Learn more about biocatalyst technologies by downloading the Biocatalyst Technology FAQ.

Download the Biocatalyst Technology FAQ

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August 18, 2019 — Posted By Agricen

By Brian Cornelious, PhD, Director of Applied Sciences

botanical-biologicals-biostimulantsThe plant biostimulant industry today is improving agricultural sustainability and soil health while generating significant new economic growth. This global growth is being driven by the need to produce more food for a growing world population, and to do so more sustainably in response to demands from consumers, advocacy groups, and regulators.

Plant biostimulants can include products such as bacterial or microbial inoculants, biochemical materials, amino acids, humic acid, fulvic acid, and seaweed extracts.

As part of the Biostimulants Council, Agricen and other council members are working to advance policy and regulatory frameworks that increase biostimulant market access and encourage research and innovation in the United States. A key part of this work is to develop an industry definition of biostimulants in the U.S., similar to work done in Europe that led to the recent inclusion of plant biostimulants in the EU Fertilizing Products Regulation (FPR) that took effect in July 2019. 

Within the FPR, plant biostimulants are defined as:

"A product stimulating plant nutrition processes independently of the product’s nutrient content with the sole aim of improving one or more of the following characteristics of the plant or the plant rhizosphere:

  • Nutrient use efficiency
  • Tolerance to abiotic stress
  • Quality traits
  • Availability of confined nutrients in soil or rhizosphere."

Agricen's products, which are based on nature and built on science, are designed to give growers the tools they need to increase plant productivity, quality and sustainability by addressing these points. 

As groups across the spectrum work diligently to address the urgent issues confronting agriculture around the globe, we at Agricen are looking forward to continuing to participate in and meaningfully contribute to the search for new innovations and solutions.

You can learn more about biostimulants for agriculture by downloading our "Growing for the Future" white paper. 

Download the Growing for the Future Booklet

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