It's Quite a Pickle To Be In

From USDA:

Posted by Kim Kaplan, Agricultural Research Service, on January 6, 2015 at 1:00 PM

Pickles of many kinds fill grocery store shelves, all of them safe for consumers thanks to the work of an ARS food safety lab in Raleigh, North Carolina.

This post is part of the Science Tuesday feature series on the USDA blog. Check back each week as we showcase stories and news from USDA’s rich science and research portfolio.

Pickles are a popular food, but are even trendier today as more and more craft brands show up in stores and farmers’ markets all over the country. But did you know USDA’s Agricultural Research Service (ARS) has helped commercial pickle-makers, from small brands to the nation’s largest, meet the highest standards of food safety?

While pickling—storing in an acid liquid, usually vinegar—has been recognized as a food-preserver since long before the discovery of bacteria, the kind of data that today’s precise food safety standards require was not established until recently.

In the late 1990s, incidents of bacterial contamination in acidic foods like unpasteurized orange juice and apple cider, which are the same pH as pickles, alerted the U.S. Food and Drug Administration (FDA) that pathogens, such as Salmonella and Escherichia coli O157:H7, survived at more acidic pH levels in juices than previously believed—leading to new juice regulations. It also raised collateral questions about these pathogens in acidified foods, such as pickles, and prompted FDA to issue draft guidance applicable to the pickle industry.

Even though there haven’t been any food-borne illnesses from commercial pickles in 50 years, no one knew exactly how to reach the 99.999 percent reduction in bacterial pathogens FDA now considered appropriate. This also needed to be done without hurting the quality or taste of pickles.

It was a job for the researchers at the ARS Food Science Research Unit in Raleigh, North Carolina, the only national laboratory that works full time on the processing of commercial pickled vegetables. Every type of pickle and pickled vegetable would require its own study and set of numbers.

With significant support and funding from the pickle industry, the first ones the lab tackled were the pasteurized pickles—dill, bread and butter, sweet, sour, gherkin, kosher—the ones that pretty much dominate the grocery store aisles. They found it took less than 1.2 minutes at 160°F (71°C) in brine at pH 4.1 to reach the 99.999 percent reduction level.

Then the scientists moved on to the acidified, shelf-stable pickled vegetables like peppers and okra, which do not undergo pasteurization because they would fall apart in the heat. These products are instead made safe through the combined bacteria-killing effects of low pH and high organic acid concentration.

Today, all U.S.-produced pickled vegetables—a multi-billion-dollar a year industry—are made following the standards set by the ARS Food Science Research Unit’s work.

This wasn’t the first time the lab revolutionized the pickle industry. For instance, John L. Etchells, the lab’s research leader from 1937 to 1975, improved the pickle fermentation process and reduced spoilage by such a significant amount that pickles became so much less expensive dill pickle slices became a standard accompaniment on hamburgers in restaurants everywhere, and today, they are 25 percent of the pickle market.

After the ARS Food Science Research Unit helped reduce the amount of spoilage in the pickle making business industry, pickles became so much less expensive that dill pickle slices became popular on burgers in restaurants everywhere.

Spraying Smarter Strengthens Strawberry Production

From USDA:

Posted by Amanda M. Hils, National Institute of Food and Agriculture, on January 6, 2015 at 10:00 AM

Thanks to a USDA NIFA grant, strawberry growers in Florida are benefiting from a smart system that helps them time spraying to prevent diseases – saving the farmers money while minimizing the environmental impacts. The system is being adapted for growers in other states.

This post is part of the Science Tuesday feature series on the USDA blog. Check back each week as we showcase stories and news from USDA’s rich science and research portfolio.

With the U.S. being the world’s leading producer of strawberries, the success of these tart and sweet treats is essential to the economy of a state like Florida. In fact, with a $366 million-per-year industry, the state comes second only to California as the nation’s largest strawberry producer. Naturally, strawberry growers are looking for ways to sustain their harvests and profitability.

Enter Natalia Peres, University of Florida Gulf Coast Research and Education Center professor of plant pathology.  With funding from the USDA’s National Institute of Food and Agriculture (NIFA), Peres and her research team developed an online web tool, the Strawberry Advisory System (SAS), which helps farmers spend less money on fungicides yet achieve better results with what they do spray.

Peres and doctoral students performed thorough testing before releasing SAS. Traditionally, Florida strawberry farmers spray crops once each week from November to March to prevent attacks of botrytis and anthracnose, the two most deadly fruit rot diseases for strawberry. Peres’ monitor communicates with farmers through their computers and mobile technology to alert them of an adverse disease index; meaning that the combination of leaf wetness, air temperature, and other factors have combined to create a perfect environment for disease. Once alerted, farmers can spray their crops and then log the information onto a website where each spray is tracked, the indexes are logged, and spray advisories given.

“This system is a prime example of something we like to call the ‘Internet of Agriculture Things.’ It is showing how Internet-enabled technologies can be used to achieve the kind of healthy, cost-effective, high-yield crops we will need to feed the burgeoning global population while ensuring competitiveness of the American farmer,” said Sonny Ramaswamy, NIFA director.

With 96 percent of Florida strawberry producers reporting cases of botrytis, 40 percent with yearly cases of anthracnose, and 30 percent with anthracnose every 3-4 years, fungicides are a necessary – and hefty – bill. However, SAS may be just what Florida’s farmers are looking for.

“The impact it has in Florida is already clear in the profits—spraying less and getting the same effects helps the economic situation, as well as positively impacting environmental causes,” said Peres. “The reduction in spraying also means that producers are preserving the chemicals they still have. Resistance caused by over-spraying is lessened, so chemicals are available for use longer when producers really need them.”

Peres received a $2.9 million Specialty Crops Research Initiative award in 2010 and another in 2014 for $1.3 million. She plans to expand SAS into South Carolina in the spring of 2015 after proving it also works successfully in Iowa, North Carolina, and Ohio.

Through federal funding and leadership for research, education, and extension programs, NIFA focuses on investing in science and solving critical issues that impact people’s daily lives and the nation’s future.

Old Microscope Sparks New Idea for Kids' Science Club

USDA Blog Post:

Posted by Stephanie Worley Firley, Eastern Forest Environmental Threat Assessment Center, U.S. Forest Service, on April 8, 2014 at 3:30 PM

Drs. Rebecca Efroymson and Bill Hargrove held a recent science club meeting in Haw Creek Elementary School’s computer lab. (U.S. Forest Service/Stephanie Worley Firley)

When he was a child, Forest Service scientist Bill Hargrove burnt off his eyebrows making rocket fuel, blew up a sealed jar of cultured yeast and started a bathroom fire while doing sterile transfers for a carrot tissue culture. Fortunately, he survived his early scientific experiments and is now inspiring a new generation of young students.

Hargrove, a research ecologist with the Eastern Forest Environmental Threat Assessment Center, and his wife, Rebecca Efroymson, are pioneering an extramural science club for fourth and fifth graders at Haw Creek Elementary School in Asheville, N.C. Each monthly club meeting features real-life scientists who lead lively discussions and activities about diverse scientific topics.

During the first club meeting last year, students looked at living creatures found in drops of pond water through a light microscope—Hargrove’s own childhood microscope.

“I used to spend hours in junior high school looking at protozoa through that microscope. My family got used to having stinky jars of pond water on every available window sill,” Hargrove said.

While learning about the microscope, students also looked at toothpaste, sandpaper, salt crystals, and grooves in a phonograph record, an object that was not as familiar to them as Hargrove had hoped. Hargrove projected the images under the microscope onto a large screen so that all of the students could see them at the same time. Students also controlled a scanning electron microscope located in a different state over the Internet to observe many insect specimens that they had mailed weeks earlier to the national Bugscope project.

Science club activities go well beyond examining the microscopic world. During past meetings, students constructed simple robots that could move and follow a light source; explored rockets, airplanes and space, including outdoor rocket and airplane demos; and delved into electronics. Students have also surveyed archaeology, constructed pickle and lemon batteries, learned about biofuels and solar power, and have even touched human brains as part of a recent meeting focused on psychology, following a discussion about respectful conduct and ethics.

One might wonder why Hargrove and Efroymson — both busy researchers and the parents of two — commit their extremely limited spare time to the club. In short, they wish to share their passion for science with others. They hope to excite students about the possibilities of careers in science, especially those who are underrepresented in scientific fields, including women and minorities.

Hargrove, an entomologist by training and once a young shortwave and amateur radio enthusiast, explains that kids today belong to a ‘software generation’ and feels that free range tinkering with hardware and electronics is critically important for developing minds.

“I think that kids often don’t get any ‘feel’ for science,” he said. “But if they can experiment in a safe environment, they realize that science is just normal, regular stuff. No magic at all. Then the fear is gone, de-mystified, and they can get on with learning.”

Honoring Fallen Law Enforcement Heroes in Western North Carolina

USDA Blog Post:

Posted by Stevin Westcott, U.S. Forest Service, North Carolina, on March 28, 2014 at 3:00 PM

For six years, U.S. Forest Service Law Enforcement Office Jason Crisp and his K-9 partner Maros patrolled the Grandfather Ranger District on the Pisgah National Forest. They were killed during a search for a homicide suspect. (U.S. Forest Service)

Law-enforcement peers, U.S. Forest Service employees, dignitaries and friends gathered at the McDowell County High School in Marion, N.C. last week to honor Forest Service law enforcement officer Jason Crisp and his K-9 partner, Maros. Among the memorial service attendees were 75 K-9 officers and their partners who paid tribute to both fallen officers.

U.S. Forest Service Chief Tom Tidwell and North Carolina Gov. Pat McCrory were among the thousands who filled the school’s gymnasium.

Crisp and Maros were shot and killed on March 12 pursuing a suspect who, just hours earlier, had allegedly killed his father and step-mother. As they had so many times before, Crisp and Maros were working to keep the Grandfather Ranger District, Pisgah National Forest, and surrounding area safe.

“Jason was happy being with his family, and he was happy serving his community,” the Rev. Charles Dicks said. “He cared about the agency, and he cared about his coworkers.”

These were common themes shared by speakers at the ceremony. They described the 38-year-old Crisp as a devoted husband, a loving father of two and a kind-hearted man who helped others.

A Forest Service law enforcement officer for eight years, Crisp was a man of strong faith, whose spirituality served as the foundation for how he approached life. He and Maros performed their duties with honor, courage and dignity.

One of Jason’s family members shared the following story prior to the ceremony.

Honor Guard members begin to fold the U.S. Forest Service and North Carolina State flags during a memorial ceremony for Officer Jason Crisp and his K-9 partner Maros. (Courtesy of Mario Rossilli)

“The last time I saw Jason, he came to my house and spent a couple of hours with me; but he was upset at me,” the grieving family member said. “I had recently helped another family member with some house work, and Jason was upset that I didn’t call to ask for his help… That’s the type of person Jason was.”

March 12 was Jason’s day off. When he received the call about a murder suspect who was on the loose, he didn’t hesitate to respond. Maros assisted in the call, and it was the last time the two would answer the call of duty. Despite the tragic outcome, the two officers are not separated. Jason was laid to rest on March 17 with Maros’ ashes placed in an urn in his arms.

They will be missed by the people who knew and loved them in western North Carolina.

Thousands packed into the McDowell County High School to pay tribute to Forest Service Law Enforcement Officer Jason Crisp and his K-9 partner Maros. (Courtesy of Mario Rossilli)

Stop Stink Bug Project

USDA Blog Post:

Posted by Sharon Durham, Public Affairs Specialist, USDA, Agricultural Research Service, on September 13, 2013 at 12:00 PM

The brown marmorated stink bug, a winged pest from Asia that is eating crops and infesting U.S. homes. U.S. Department of Agriculture (USDA) Agricultural Research Service (ARS) scientists are launching a campaign to ask volunteers to count the number of stink bugs in their homes. USDA-ARS photo by Stephen Ausmus.

Calling all insect enthusiasts and frustrated gardeners!  USDA scientists need your help in documenting Brown Marmorated Stink Bugs (BMSB) in your home. Beginning September 15^th through October 15^th, we’re asking citizens across the Mid-Atlantic region of the United States to record daily counts of this pest on the exterior of their homes, along with their location and the time of each count. While USDA scientists are focusing on the Mid-Atlantic region, any data they can get from other U.S. regions would also be helpful to their research.

The quest to find out just how many stink bugs there are, and how they behave, is the brainchild of a consortium of researchers from USDA, the University of Maryland, Pennsylvania State University, Rutgers University, Virginia Tech, the Northeastern IPM Center, Oregon State University, North Carolina State University, Cornell University, the University of Delaware and Washington State University. This project is represented on the website, “Stop BMSB (www.stopbmsb.org),” which was launched in 2011.

The project involves more than 50 scientists who are investigating the impact BMSB have on grapes, orchard crops, small fruits, ornamental crops and vegetables, as well as ways to prevent or minimize the pest’s impact. BMSB have been found in 40 states and have caused the most damage in the Mid-Atlantic region. The value of at-risk crops where BMSB have been established or identified exceeds $21 billon.

Because landscape features such as woodlands, structures, roads and different land use types affect the spread of the insects, it is important to collect data related to BMSB locations. BMSB survive cold winter temperatures near farmland in homes, office buildings and warehouses.

Scientists are just beginning to understand how landscape features will be a key component in combating stink bugs. Volunteers willing to count their stink bugs can contact USDA-Agricultural Research Service (ARS) entomologists Tracy Leskey (tracy.leskey@ars.usda.gov), Doo-Hyung Lee or Torri Hancock at (304) 725-3451, at the ARS Appalachian Fruit Research Laboratory in Kearneysville, West Virginia.

Participant forms to record BMSB counts can be printed by going to http://www.ars.usda.gov/SP2UserFiles/Place/19310505/BMSB%20Citizen%20Scientist%20Particip

Partnering with Cooperative Extension to Support Farm to School

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USDA Blog Post:

Posted by Matthew Benson, Program Analyst, USDA, FNS, Farm to School Program, on September 5, 2013 at 11:35 AM

Adam McCurry, Agricultural Technician for North Carolina Cooperative Extension in Yancey County conducts a lesson about local apple varieties before taking students outside to plant an apple tree at Bald Creek Elementary School in Burnsville, North Carolina. (Photo courtesy of Appalachian Sustainable Agriculture Project, Asheville, North Carolina)

Kids are headed back to school and so are county Extension agents.

As schools continue to teach kids where their food comes from and bring local and regional products into the school cafeteria, one group they may want to partner with on their farm to school activities is their local or regional Cooperative Extension office. Cooperative Extension Systems are administered by each state’s Land-Grant University System. Programs are available in all 50 states and Washington, D.C. and most states have local or regional Extension offices that are staffed by one or more experts, often referred to as Extension agents or Extension educators.

Nationally, more and more Cooperative Extension Systems are devoting key resources to supporting farm to school activities. Of the 68 fiscal year 2013 USDA Farm to School Grants distributed, 25 percent included partners from Cooperative Extension. State Extension Systems such as Ohio, Minnesota, and Illinois have already dedicated resources and personnel to leading their states farm to school programs. And at the upcoming national Extension conference, farm to school and local foods are sure to be a major themes discussed.

Before joining the USDA, I examined how Cooperative Extension professionals are supporting farm to school programs and activities. Through a survey of eight state Extension Systems, results show that on average, Extension professionals are supporting at least one farm to school-related activity and that respondents were interested in supporting farm to school much more than they currently are. The number one farm to school activity that respondents were involved in was school or community gardening programs. Extension professionals were also found to be supporting farm to school initiatives by helping producers market and sell their products to schools, coordinating farm-based field trips and tours for students, and helping host producers at schools for presentations about local foods and agriculture.

Many of the Extension professionals that completed the survey stated that they felt Cooperative Extension should play an increased role in local and regional farm to school programs but that they need additional training and encouragement to get more involved. This finding is one of the reasons why the USDA Farm to School Program is launching a webinar series focused on helping Extension professionals become more knowledgeable about ways they can support farm to school. Through this webinar series, we also hope to show how other farm to school groups can successfully partner with Cooperative Extension. With schools back in session, now is a perfect time to reach out to local or regional Extension offices and ask that they get involved with farm to school.

Editors Note: To learn more about upcoming webinars, sign-up for the Farm to School E-letter.