Combatting stressors in coffee production

In many homes throughout the world, the day starts with a cup of coffee. Very likely, that cup originated in Brazil and, particularly, in Minas Gerais.   

Minas Gerais, the fourth-largest state in Brazil and second only to São Paulo in population, offers great diversity not only in geography, but in agriculture. Varying climates, soil types and elevations make it possible for the state to produce crops ranging from bananas and corn to potatoes and sugar cane, with coffee being the state’s number one crop.  

This variability in terrain also leads to adverse conditions for the coffee plant caused by temperature, nutritional deficiencies and higher relative humidity, which affect the final formation of the coffee. Proper plant nutrition can aid the plants in combating these stressors and reaching their production potential.

Recently, Alltech Crop Science opened a new production facility in Uberlândia, Minas Gerais, which will not only increase opportunities for residents in the area, but will provide greater availability and quality of service for growers in the region.

“The city is a prime example of logistic infrastructure for Brazil, so moving to this area (the Triângulo Mineiro) will benefit many of our customers,” said Ney Ibrahim, director of Alltech Crop Science in Brazil.  

Marcelo Vieira, a producer who grows approximately 500 acres of coffee, has been using the Alltech Crop Science solutions on his operation for several years and has seen greater uniformity and improvement in plant health.

“Later, these positive aspects are reflected in the mature coffee and in the quality of the beverage and, of course, in our pockets,” affirmed Vieira.  

Vieira’s results illustrate Ibrahim’s vision for Brazil – a growing realization that better solutions and management practices lead to greater results. 
 

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Course condition makes or breaks the experience for golfers, determining their club loyalty. The critical task of top turf management literally starts at the ground level, taking into account plant health and protection.

“Turfgrass health and uniformity all start with nutrition,” said Kwame Duffy, Alltech Crop Science sales manager.

Duffy has been working with several turf managers to incorporate natural biological products into their management programs.

Nitrogen and potassium are two key components for high-quality turf. Turfgrass diseases can stem from either excessive or low levels of nitrogen as well as climate conditions that could be favorable to disease development. Having the ability to adjust nutritional imbalances directly and on an as-needed basis can provide the ability to combat turf disease.

By maintaining a healthy nutritional balance through the addition of biologicals, the potential for pest and disease pressure can be inhibited. Foliar nutrient applications and slow release nitrogen can provide for healthy plant growth.

Duffy gave an example with bentgrass.

“Bentgrass can be tricky to maintain, especially for courses located in the southern states,” he said.

During the recent hot months, bentgrass would normally be stressed. On a golf course that recently incorporated biologicals, the grass grew well and established new roots during June and July, said Duffy.

“The turf was 10 times healthier than if it had been untreated,” he said.

Pesticide use was cut by 30–40 percent and fungicide use was cut in half.

“It’s pretty impressive,” stated Duffy. “The addition of biologicals helped the plants defend themselves naturally. It’s the only thing the golf course superintendents did differently, and they are getting these great results.”  

In the future, Duffy believes some of the courses may be able to completely eliminate fungicides because of the results they are seeing.

Strategies for a future with increasing pesticide regulation

“The most important shot in golf is the next one.” – Ben Hogan

The turf industry is facing a future similar to that of the agriculture industry, with increasing regulation regarding pesticide use. Natural biologicals to protect turf from pests and disease will play a key role in this future.

“With these new management programs, we’ve seen more efficient application and a complete redirect of every dollar spent toward improved disease resistance,” said Duffy.

Ultimately, golf course superintendents are managing all course inputs for the best return on their investment, whether their budget is $30,000, $200,000 or $1 million, he said.

The importance of finding the best turf management strategies can’t be downplayed.

“Your horticulture practices are key to whether you have a golf course or not,” said Duffy.

The corn earworm is considered one of the costliest pests for crops in North America. Alonna Wright hopes to find a cure that can stop the menace and keep farmers around the U.S. happy.

Wright, a rising senior at the University of Kentucky (UK), won the 2016 undergraduate Alltech Young Scientist (AYS) award with her research on the biological control of agricultural pests.

“Winning the AYS award was a very surreal experience, and one of the most memorable of my life,” said Wright.

Wright said she entered the competition just hoping to get an honorable mention to put on a resume. She never imagined winning.

“It means so much to me personally, but also to be able to share my research on a global platform and bring awareness to this problem, which costs our farmers billions of dollars in damage each year, is a privilege that some scientists may not ever be able to have, and one that I don't take for granted,” she said.

Fighting corn earworm with a nudivirus

Wright conducted her research at Paratechs, a privately held biotech company in Kentucky

“Virology is a field that continues to captivate me with each new thing I learn about it,” she said.

Virology is a branch of science that deals with the studies of viruses and viral diseases. According to Wright, viruses are very important to study and continue to study “in order to prevent harmful viruses and utilize the capabilities of other viruses to benefit the greater good.”

Wright’s research specifically dealt with the Heliothis zea nudivirus.

“This virus affects some populations of the corn earworm, or Helicoverpa zea, which is an agricultural pest that causes billions of dollars in damage to the crops they feed on; they feed on 123 known hosts,” she said.

In nature, the virus causes approximately one-third of the corn earworm population to become sterile.

“What we have done here at ParaTechs is we have mutated the virus to cause 100 percent sterility in the population,” said Wright.

“My specific project was determining the interaction between those viruses, using a superinfection research model, to determine if the presence of the wild-type virus would prevent our mutant virus from causing the high rate of sterility that we expect,” continued Wright. “Our results showed that presence of the wild-type virus would not decrease the rate of sterility in the insects due to our mutant virus.”

With this research, Wright hopes to market this mutant virus as a substitute to some pesticides used for corn earworm control and to supplement the Bacillus thuringiensis (Bt) plants that are currently on the market.

What’s next for Wright

Wright, who is an agricultural biotechnology student at the UK College of Agriculture, Food and Environment with minors in psychology and microbiology, believes agriculture is very important for the future.

“Agriculture is a very prevalent field of study in America, especially in Kentucky,” said Wright.

She believes that “home-grown” pride has brought agriculture back into the spotlight, and she encourages the younger generation to pursue a career in agriculture.

Wright’s plans are to utilize the full funding that she received from Alltech as part of her AYS award to complete her Ph.D. in a genetics-related program. Afterward, she plans on working in the industry on cutting-edge technology to help advance agricultural products and techniques. 

Wright’s dream would be to work as a research scientist in a research company.

“I really enjoy being in a lab and the thrill that molecular research can bring on a daily basis, and I'd love to be able to do what I enjoy every day when I go into work,” said Wright.

As China’s middle class continues to grow and to migrate to urban areas, it is demanding healthier, safer and more nutritious food. To help meet this demand at a local level, Dr. Mark Lyons moved to China four years ago to lead Alltech’s efforts and serves as global vice president and head of Greater China.

The company established Alltech Crop Science China, and Dr. Xue Kai serves as its technical and product manager. Dr. Steven Borst, general manager for Alltech Crop Science, is responsible for global product registration. These three experts shared their insights on how the company is helping local producers increase production efficiency in a sustainable way.
 

Why is there an emphasis on China?

Dr. Lyons: Globally, China is the second largest producer of potatoes, wheat, corn and other commodities. For years, there has been much discussion about who will feed China. The answer is: China will feed China.

As Chinese consumers travel globally, they are becoming aware of cutting-edge technology and expect that same level of knowledge in China. Alltech is committed to providing technology at a local level to meet growing global needs and will provide the best staff to support local producers.

Which crop science products will help serve this market?

Dr. Kai: Alltech Crop Science China has worked to gain product approval for two of the company’s natural plant and soil activators. The company is now finalizing registration of its unique products, designed to streamline processes for optimal performance and help revitalize soils.

The excellent results from the registration and demonstration trials conducted thus far make us extremely excited about the future of this technology in China and the role Alltech can play to support the development of new agricultural practices in this country.
 

How is Alltech supporting other efforts in China?
 

Dr. Lyons: Alltech’s China Now program is a strategic five-year plan and includes numerous educational and research initiatives in China. The company has been operating in China for 22 years and has recently partnered with Nestlé in the creation of a world-class training center, the Dairy Farming Institute in Shuangcheng, Heilongjiang province. In addition, 10 of the company’s 30 research alliances are focused on providing local support for this growing region.
 

What are future challenges and opportunities in China?
 

Dr. Borst: As Chinese producers work on continued production efficiency, they are also awakening to the same issues we are successfully addressing in the U.S. and Brazil. Common issues include addressing nutrient management needs not only for soil health, but as part of integrated crop and livestock systems.

Across the globe, farmers are working to become more precise with nutrient management. With our global expertise, we can share best practices with producers and others involved in Chinese agribusiness.

Consumers and producers alike are demanding more natural alternatives and products that fit into sustainable management systems. We are focused on providing new solutions that meet environmental sustainability and food safety standards.
 

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To excel in their sport, most athletes consume a diet as carefully planned as their training regimen. Vitamins, minerals, proteins and other sports supplements enhance both their mental and physical strength. Plants respond similarly to biostimulants, which can be used to activate their metabolism and influence biological processes within the plant. 

What are biostimulants?

Biotstimulants foster plant development in a number of demonstrated ways throughout the crop lifecycle, from seed germination to plant maturity. They can be applied to plant, seed, soil or other growing media that may enhance the plant’s ability to assimilate nutrients and properly develop.

By fostering complementary soil microbes and improving metabolic efficiency, root development and nutrient delivery, biostimulants can:

• Increase yield in terms of weight, seed and fruit set.
• Enhance quality, affecting sugar content, color and shelf life.
• Improve the efficiency of water usage.
• Strengthen stress tolerance and recovery.

Currently, humic and fulvic acids constitute more than half of the biostimulant market, with seaweed extracts being secondary. Microbial extracts, plant extracts, vitamin B, chitin and chitosan round out the market offerings, according to the 2nd World Congress on the use of Biostimulants in Agriculture in November 2015.

Other names for biostimulants include plant strengtheners and conditioners, phytostimulants, bioactivators and soil, yield, crop and plant growth enhancers. Despite their increasing use, at this point, no country in the world has a regulatory framework that defines specifically what is a biostimulant.

Why are they being used?

The global market for biostimulants is projected to increase 12 percent per year and tip past the $2 billion sales mark by 2018, according to a November 2015 Markets and Markets report. There are multiple contributors to this rise:

• Proven performance and acceptance from NGOs, governmental bodies and academia.
• Increased commercial customization of solutions.
• The need to restore degraded soil.
• Demand from farmers and consumers for environmentally safe and organic products that provide alternatives to synthetic inputs.
• Increasing agronomic production demands.

Presently, Europe represents the lion’s share of the biostimulant market at 42 percent. North America and Asia are estimated to have approximately 20 percent market share each, with Latin America at 13 percent, according to the 2nd World Congress on the use of Biostimulants in Agriculture in November 2015.