By Joseph Dunn

(Feb. 22, 2010, STILLWATER, Okla.) – Matthew Allen, a botany doctoral student at Oklahoma State University, has been learning lessons about the Tallgrass Prairie Preserve in Osage County, Okla., for more than four years.

Allen recorded the preserve’s history in a new book titled Lessons from the Prairie: Research at The Nature Conservancy’s Tallgrass Prairie Reserve, which includes research to aid scientists in their own studies.

Before now, no publications had summarized what is known of the preserve’s ecology, Allen said. So with more than 160 scientific publications produced since the late 1980s, his goal was to summarize and explain the large body of research.
Allen, a native of Sterling, Colo., co-authored the publication with Mike Palmer, of the OSU Department of Botany; Ulrich Melcher, OSU Department of Biochemistry and Molecular Biology; and Robert Hamilton, The Nature Conservancy.

The book was supported by the OSU College of Arts & Sciences, OSU Vice President for Research and Technology Transfer, and National Science Foundation. It was published by the Oklahoma Academy of Science. Electronic copies are available at http://ecology.okstate.edu/tgp_booklet_web.pdf.

The OSU Department of Botany is one of 24 departments in the College of Arts & Sciences. To learn more visit http://cas.okstate.edu.

Please see a photo of Matthew Allen by visiting our Flickr site! http://www.flickr.com/photos/ostatenews/4379635738/

By Joseph Dunn

(Feb. 19, 2010, Stillwater, Okla.) – David Helmer, a Vietnam veteran and a 1964 alumnus of Oklahoma State University, did something he thought he would never do.

In 2004, Helmer returned to Vietnam where in 1965 he had spent a year running convoys in support of the U.S. Army and U.S. Air Force.

Helmer will present “Vietnam: Now and Then” at 10:30 a.m. on Monday, Feb. 22 at Thatcher Hall on the OSU campus in Stillwater.

“It is a privilege to host Mr. Helmer at OSU,” said Lt. Col. Will Beck who heads the ROTC battalion at OSU. “Men such as he represent the very best of our country.”

Helmer’s talk will be based on his 2004 tour of Vietnam focusing on the development of rural Saigon into a commercial center now known as Ho Chi Minh City. He also will address the country’s changes in transportation and its shift of attitudes toward Americans.

Helmer, an Oklahoma native, lives in Roanoke, Va. He and his wife, Grace, are actively involved with the OSU community.

The event is free and open to the public. For more information, contact Master Sgt. Brian Disque at (405) 744-8668 or brian.disque@okstate.edu. OSU is one of 273 colleges and universities in the nation to have an Army ROTC program. The program falls under the College of Arts & Sciences at OSU.

Maxine Clark, Build-A-Bear Workshop  founder, chairman and “chief executive bear” will serve as a keynote speaker for the first annual Women Entrepreneurs Inspire Conference in Oklahoma City at the Cox Convention Center on March 30, 2010. Clark will share her entrepreneurial story behind the creation of Build-A-Bear Workshop and its success and inspire participants to live in a world of possibilities and always dream big.

The one-day WE Inspire conference will offer opportunities for women entrepreneurs and aspiring entrepreneurs to get inspired by successful women entrepreneurs from across the country, learn tools to help start and grow a business, discover ways to do business better and network with other women entrepreneurs and aspiring entrepreneurs. The event will be presented by the Riata Center for Entrepreneurship in the Spears School of Business at Oklahoma State University.

“Our goal is to support women entrepreneurs in starting or growing businesses through role models, success stories, workshops by entrepreneurs and expertise from our entrepreneurship faculty,” said Nola Miyasaki, Riata Center executive director. “The WE Inspire conference is designed to help women find ways to do business better and to be successful in their entrepreneurial endeavors.”

In addition to Clark, the event will other feature successful women entrepreneurs from California, Washington, D.C., and other parts of the United States. Cordia Harrington, founder of the Tennessee Bun Company, which is the largest bun producer in the United States and an exclusive vendor to McDonald’s, will serve as a keynote speaker. In addition, Amy Mitchell, partner and managing member of Riata Management in Oklahoma City will serve as honorary chairperson for the conference.

The WE Inspire conference also will feature breakout sessions, which are the hallmark of similar women’s entrepreneurship conferences presented by Miyasaki and OSU School of Entrepreneurship head Michael Morris at other university communities around the country.  

“The breakout sessions will be directed by OSU’s nationally recognized and accomplished entrepreneurship faculty, as well as successful entrepreneurs and subject matter experts who will talk about business plans, guerilla marketing, sales, legal issues, financing, accounting and numerous other issues facing women entrepreneurs today,” Morris said. “It’s a day packed with learning, inspiration and networking, and we anticipate that this will lead to other opportunities to provide year-round support to women entrepreneurs in Oklahoma.”

The registration fee for the WE Inspire conference will be $35 for those who register before March 15. To register or for more information, call the Riata Center for Entrepreneurship at 405-744-7552 or visit www.weinspire.net. Companies interested in sponsorships or exhibit tables for the conference should call Riata Center assistant director Mary Means at 405-744-7871 or email her at mary.means@okstate.edu.

A study by researchers at the Oklahoma State University Center for Applied Economic Research shows that the economic performance of Oklahoma and Texas are linked via undeniable trade flows, and growth in one state results in growth in the other state.

The study was conducted by Kyle Dean and Russell Evans, associate director and director of the OSU economic research center. Dean and Evans constructed a multi-regional input-output model to estimate the level of economic interdependency that exists between Oklahoma and Texas along the I-35 Corridor from Oklahoma City to Dallas/Fort Worth.

The model allowed the OSU economists to estimate the level of inter-regional dependency by observing the impact that 1 percent Texas region growth has on the Oklahoma region, and vice versa.

“With the growth of the I-35 corridor, there has been much interest in identifying the linkages that exist within the region between the northern Texas and Southern Oklahoma areas,” Dean said. “As would be expected from a regional economic area that crosses state boundaries, a healthy rivalry exists between the states of Oklahoma and Texas and certainly between Dallas/Fort Worth and Oklahoma City.”

Dean said although the competition is healthy, there are many things that the two regions share, such as language culture and an energy industrial base, and there are areas for cooperation between the two regions.

Although the gross regional product of the Texas region is roughly 5.6 times more than the gross regional product of the Oklahoma region, the study shows that the interdependency between Oklahoma and Texas flows in both directions.

The study shows that a hypothetical 1 percent increase in Texas region input, or gross domestic product, will likely result in an .08 percent increase in Oklahoma output. This resulting .08 percent increase is the equivalent of $56 million of additional output and 281.73 full-time equivalent jobs with an added payroll of $37 million to the Oklahoma region economy.

In addition, the study shows that a hypothetical 1 percent increase in Oklahoma region input, or gross domestic product, will likely result in a .04 percent increase in Texas output. This resulting .04 percent increase is the equivalent of $173.7 million of additional output and 877.17 full-time equivalent jobs with an added payroll of $120 million to the Texas region economy.

“With the increase in global economic activity, Oklahoma and Texas should look for areas of cooperation that will increase the productivity of the larger ‘mega-region’ that they create,” Dean said. “As the U.S. population continues to migrate south and west, infrastructure projects that increase the competitiveness of the entire mega-region will increase the ability of the region to assimilate the growth and increase its competitiveness.”

The study also analyzed the interdependency between an expanded region from the Oklahoma-Kansas border to Austin, Texas. To view the study -- titled Multi-regional Input-Output Model for the Dallas and Oklahoma City Metropolitan Areas -- visit http://spears.okstate.edu/caer/research.

By Katie Butler
Free Tobacco Quit Kits are available for OSU faculty, staff and students who are ready to kick the habit.

The Tobacco Quit Kits are designed to assist with tobacco cessation and contain a variety of helpful information and tools including gum, cinnamon Hotlix Toothpix™ and cigarette wrap packs.

Robin Purdie, director of the Seretean Wellness Center, helps faculty, staff and students kick the tobacco habit. She said quitting is hard and sometimes it can take as many as seven tries to finally succeed, but it can be done with help.

“Often times the first step to quitting is knowing what resources are available for help,” Purdie said. “The Quit Kits are designed to help people know what the next step is to becoming tobacco free.”
Yvon Fils-Aimé, Tobacco Health Educator at University Health Services, said the kits have already helped some students. Twenty student kits and 10-15 employee kits have been distributed since last November.

The faculty and staff Quit Kits are available at the Seretean Wellness Center, Student Union and Physical Plant. The student Quit Kits are available at University Health Services.

For information about the Quit Kits, faculty and staff should contact the Employee Health Clinic at the Seretean Wellness Center, (405) 744-7556, and students should contact Yvon Fils-Aimé, (405) 744-2745, or email quitkit@okstate.edu    

The Tobacco Quit Kits is just another way OSU is striving to be America’s Healthiest Campus.

By Katie Butler

Oklahoma State University graduate Matt Myers is bringing his award-winning feature documentary “Tar Creek” to Stillwater.

Tar Creek was home to one of the largest lead and zinc strikes on the planet, and it became home to one of the worst environmental disasters in the U.S.

Myers said Tar Creek looks like a place of science fiction.

“Tar Creek is located in northeastern Oklahoma, America’s Heartland,” Myers said. “And it might be the one place in the States where you’d swear you stepped into a third world country.”

While the real home of “Tar Creek” is in Ottawa County, Myers said Stillwater is an appropriate location to show the film.

“OSU and Stillwater educated many of the people who told this story or helped pull it together,” Myers said. “And I’m excited to bring it home.”

ECO-OSU is sponsoring the film’s showing on the OSU-Stillwater campus.

“We wanted to bring this film to campus to help make students aware of this devastating environmental issue occurring right here in Oklahoma.  This story is close to home, and shows how damaging our Earth will have repercussions, even in our lifetime,” said Blake Parks, ECO-OSU President.

The film will be shown at 7 p.m. Saturday, February 20 at the First Christian Church in Stillwater and Sunday, February 21 at the Student Union Theater.  Following the showing Myers will take questions from the audience.  The film will also be shown at 7 p.m. from February 22 – 28 at the Circle Cinema in Tulsa.

Myers is from Vinita and graduated from OSU in 1999 with a degree in literature, but his roots in OSU are deep, he said. Both of Myers’ parents graduated from OSU as well as his sister. His grandparents lived in Stillwater and his grandfather, E.E. Davidson, was Vice-President for Business & Finance at OSU for 17 years until he retired in 1987.   In addition to his family, Myers’ wife is the daughter of Ron and Cara Beer of Stillwater.  Dr. Beer served as OSU’s Vice President for Student Affairs for many years.

For more information about Myers and the documentary visit http://www.tarcreekfilm.com/.

OSU-Tulsa Researcher Developing Technology to Generate Power from Waste Heat

With America focused on energy alternatives and green living, Oklahoma State University-Tulsa researcher Dr. Daryoosh Vashaee is developing nanotechnology that can convert waste heat to energy. His process to produce a clean, alternative energy source could significantly reduce the use of fossil fuels and help move the United States toward energy independence.

Vashaee’s research has recently attracted the attention of national research agencies. He has been awarded a five-year, $700,000 grant from the Air Force Office of Scientific Research (AFOSR) and a three-year, $200,000 grant from the National Science Foundation (NSF) to perform research associated with thermoelectrics.

“Nearly 60 percent of the world’s useful energy is wasted as heat. Thermoelectric materials have the potential to directly convert waste heat into electrical energy,” Vashaee says. “Development of highly efficient, inexpensive thermoelectric materials is a key to reduce both energy consumption and harmful emissions on a large scale.”

Inside his lab in OSU-Tulsa’s Helmerich Advanced Technology Research Center, Vashaee and his engineering graduate students will use the AFOSR grant to develop thermoelectric materials that will harvest wasted energy from military aircraft.

Vashaee said with the use of thermoelectric materials, heat emissions from an aircraft’s engine exhaust and the temperature difference between the interior and exterior of a plane could create a potential source of electrical energy.

“The harvesting of energy from waste heat and temperature differential could supplement the internal power supply for aircraft, much like a hybrid car.” Vashaee said. “It creates a more efficient and inexpensive energy source and the thermoelectric materials are very robust. They almost last forever.”

Dr. Kenneth Ede, assistant dean of OSU’s College of Engineering, Architecture and Technology, says it’s the material’s toughness and relatively low-cost that makes it a very attractive alternative to solar energy technology.

“Thermoelectric materials are so much less expensive than the current solar materials. At one-fifth of the cost, thermoelectric materials are one of science’s best kept secrets,” Ede said. “We’re very excited about Dr. Vashaee’s research and its potential for future environmentally friendly household and everyday applications.”

Vashaee said thermoelectric materials can be developed for a variety of uses from utilizing body heat to power a pacemaker to providing soldiers with lightweight, climate-controlled fatigues and night-vision enhanced helmets. He also illustrated the concept by explaining how harvesting the excess heat in a home’s attic could be converted to power that would efficiently and economically heat and cool the entire house.

Vashaee believes all of these solutions could be made possible by using nanostructured thermoelectric materials to convert already existing solar or body heat into electrical energy.

He will use the NSF grant to combine theory and experiments in developing a capability to predict the relevant properties of thermoelectric nanocomposite materials, essentially providing the theoretical groundwork used by future researchers.

Scientist Joe Bidwell strives to understand the stamina of aquatic wildlife at the site of one of the worst toxic nightmares in U.S. history

Growing up in rural New York, scientist Joe Bidwell spent a lot of time trudging through streams and lake bottoms. Now in his 40s, not much has changed.

As an associate professor in zoology at Oklahoma State University, his research focuses on contaminated waters and the tiny creatures that live in them.

Bidwell says the dense swarms of insect-like creatures – amphipods – are so stressed from living in toxic waters he is amazed they are alive at all.

Plunging in

Bidwell’s love of the outdoors started as a boy in South Worcester, N.Y., a town of 200 people just 60 miles west of Albany, N.Y. There he grew up fishing, hunting and exploring around Charlotte Creek, a pristine stream near his family’s dairy farm.

In 1985, Bidwell graduated magna cum laude with a bachelor’s degree in biology from Siena College in Loudonville, N.Y. He dove into the effects of contaminants on aquatic wildlife at Virginia Polytechnic Institute and State University at Blacksburg. While there, earning a master’s and doctorate in zoology, he studied the effects of mercury on rock bass and strategies to control the invasive zebra mussel.

In the early years of his academic career, Bidwell’s research efforts ranged from Australian frogs to Asian clams.

Some of that research found the young Bidwell and his fellow graduate students trudging through sewage and industrial runoff near a paper mill in Virginia. “We were all in shorts and T-shirts in the middle of a hot summer,” Bidwell says. “I thought to myself this is not the best idea to stand in this type of water.”

These days, the seasoned professor takes a more cautious and informed approach when plunging into projects.

Yet Bidwell’s enthusiasm remains. His current research with aquatic organisms living in contaminated waters excites him the most these days.

For the past year, Bidwell has taken an in-depth look at organisms in the waters near Picher, Okla. The area, considered one of the worst toxic nightmares in U.S. history, made the National Priorities List in 1983 to become one of the first Superfund Sites.

Picher’s abandoned lead and zinc mines, productive from the 1890s until 1970, polluted the area’s surface and groundwater with acid drainage that flooded mine shafts, natural springs and bore holes.

Today, tens of thousands of tiny creatures live in the streams and creeks in the 43-square-mile area of Picher, Commerce, Cardin, Quapaw and North Miami, Okla.

Bidwell wants to understand how these aquatic organisms, specifically amphipods, survive in the highly contaminated environment at Beaver Creek, located near the well known Tar Creek.

“We want to find out how these organisms deal with stress and study the ability of this ecosystem to recover from the stress,” he says.

Examining black specks

For a year, Bidwell and his graduate students have collected miniscule specimens at Beaver Creek. They head out before dawn outfitted in flannel shirts, jeans, hiking boots or waders, and caps. They pack buckets, nets and coolers for the 130-plus mile trek to the Tar Creek area.

There they net amphipods to truck to the OSU Ecotoxicology and Water Quality Research Laboratory, which Bidwell directs.

At last count, they have collected thousands of amphipods.

At the lab they examine how the amphipods, which look like black specks of pepper, consume oxygen as a way to determine how much energy they require to live. “There are a lot of studies that address how amphipods tolerate contaminated environments, but not a lot about understanding the mechanisms that allow them to survive,” Bidwell says. “That research is much less well described.”

After 10 months of investigation, the scientists are figuring out what questions to ask.

Thus far, the research suggests that the shrimp-like crustaceans at Beaver Creek are smaller than the average. The tiny creatures, with more than 7,000 species, range from .039 to 5.5 inches in length. The ones at Beaver Creek are on the low side of the range.

They also have learned that the amphipods at Beaver Creek have much less energy for growth than their cousins. While it is good the amphipods can withstand stressors, dealing with the stress from metals could weaken their ability to deal with other stresses such as increasing temperatures associated with global climate change, Bidwell says.

“We’re not sure what this finding means yet,” he says. Over the next two years, Bidwell and his team hope to find out as they study their primary data to delineate the questions to ask.

But the scientists do know the amphipods have high levels of cadmium, lead and zinc in their tissues and continue to be very resistant to metal exposures.

They are surviving in a place inhospitable to most other forms of life.

From Picher to Port Pirie

Port Pirie, a region on the East Coast of South Australia, is more than 10,000 miles away from Picher, Okla.

Located there is the Port Pirie Smelter, which is the largest lead smelter in the world that produces significant volumes of zinc, silver, copper and gold. It has operated as a smelter and refinery for more than 100 years.

Much like Tar Creek, its soil and waters are heavily contaminated with toxic materials. In 1984, the Australian National Health and Medical Research Council warned more than 98 percent of the kids in Port Pirie exceeded the safe blood lead level.

Since then the figure has dropped to 55 percent because the government introduced programs to clean homes. Management at the smelter plan also learned better practices to deal with the dust at the site, Bidwell says.

Bidwell is able to draw comparisons to Tar Creek because between 1994 and 2000 he was a lecturer in environmental toxicology in the School of Pharmacy and Medical Sciences at the University of South Australia. He also led its Environmental Research Group.

Bidwell says Tar Creek is surprisingly similar to Port Pirie despite the freshwater vs. saltwater locations. “It’s really interesting in that this particular marine environment the levels of lead, zinc and cadmium contamination are a lot like Tar Creek,” he says.

The work of one of Bidwell’s graduate students in Australia led him to analyze amphipods in the Port Pirie region. The student’s thesis, “Laboratory and field evaluations of a lead smelter effluent in the Upper Spencer Gulf, South Australia,” focused on isopods, also known as sea lice. Isopods, like amphipods, are a part of the crustacean family and live in land, freshwater and saltwater.

“Research in the rugged waters of South Australia is more challenging than in the streams of Oklahoma,” says Bidwell, who is certified by the Professional Association of Diving Instructors as a rescue diver, open water SCUBA diver and medic first aid.

“When we first started diving there, we thought we did not have to worry about sharks, however a few days after starting the field work, a great white shark was caught about 5 kilometers (3 miles) from where we were working.

“It made us more nervous when diving and collecting samples in the water.”

On sabbatical from OSU from September 2008 to January 2009, Bidwell later conducted a series of field experiments on metal resistance in marine invertebrates in South Australia.

He reflects on how his research fits into Oklahoma’s research efforts. “Isopods in Australia have similar levels of metals in their tissues,” he says. “The difference is they don’t show any increased oxygen consumption while the Tar Creek animals do.

“There’s a great energetic cost for the amphipods to live in contaminated water but apparently not as much for the isopods to live in a marine system with similar levels of contamination.”

Seeking support

Bidwell and his collaborators continue to develop the study into a full-fledged program. A seed grant from OSU’s College of Arts and Sciences, as well as funds from the OSU Ecotoxicology and Water Quality Research Laboratory support Bidwell’s current research.

Thus far, funding for Bidwell’s other research projects have been from government and private industries that include the U.S. Environmental Protection Agency, the U.S. Department of Agriculture, the U.S. Department of Energy and the Oklahoma Water Resources Research Institute.

Soon, however, for the first time in Bidwell’s academic career, he will apply for funding from the prestigious National Science Foundation.

With that support he hopes to collaborate with other scientists including zoology Regents professor Ron Van Den bussche whose team has discovered genetic differences between the Tar Creek amphipods and ones from other sites in Oklahoma.

Bidwell remembers his modest beginnings in New York and is thoughtful of the tragedy surrounding those who remain in toxic communities whether out of choice or circumstance.

He recalls his research in Virginia. “The river was heavily contaminated with mercury. We’d do our research there and at the same time see fishermen catching fish to take home to dinner.”

Access to information on the Internet has helped people in the past 20 years to understand water quality and usage issues, Bidwell says. However he contends that much of the general public still conducts its business without regard to contamination issues.

“But Tar Creek is so in your face. There are huge chat piles, and the contamination is evident. Most of the people left there don’t have a lot of other options.”

“Tar Creek is a great study site for scientists and those who are interested in contaminants,” Bidwell says. “It is not great for the people who live there.”

By Lorene Roberson Hickey

By Donald Stotts

Oklahoma agriculture competes in a marketplace that is not just national but global in nature, making continued improvements to its $1 billion annual wheat crop a matter of importance for urban and rural residents alike.

“Wheat is a major driver of the Oklahoma economy, and Dr. Brett Carver’s new, genetically improved cultivars are the lifeblood of this critically important agricultural sector,” said Dave Porter, head of Oklahoma State University’s department of plant and soil sciences.

In fact, it could be argued that the work of Carver and his collaborating scientists at OSU has never been more important.

Oklahoma’s wheat industry has suffered through three poor crop years in a row, with many producers losing much if not all of their wheat crop to a combination of weather events in 2009: drought through the winter months, a hard freeze in early April, torrential rains from mid-April to mid-May and hail that pulverized thousands of acres in some areas of the state.

But in the midst of their struggles, state wheat producers received some much welcome news: OSU researchers with the Division of Agricultural Sciences and Natural Resources are making available not one but two new wheat varieties called Billings and Pete.

“Billings is a high-yielding, large-kernel hard red winter wheat variety derived from a single cross of a Ukraine variety with a Pioneer experimental,” said Carver, holder of OSU’s wheat genetics chair and leader of the division’s Wheat Improvement Team.

The variety combines very good stay-green characteristics with early maturity. It shows excellent resistance to wheat soilborne mosaic virus, leaf rust and stripe rust, as well as good protection against powdery mildew. Test weight patterns are above average. Early dormancy release and moderate susceptibility to barley yellow dwarf virus makes it less adapted to early planting production systems.

“Billings is highly suited for irrigation production, and will achieve far more grain production if planted in October and not grazed,” Carver said. “This represents a significant departure from varieties released by OSU in the past, such as Endurance, Duster and OK Bullet.”

Yields reported in breeding nursery plots have exceeded expectations at the Oklahoma Panhandle Research and Extension Center, extending in excess of 120 bushels per acre when the nursery average was approximately 95 bushels per acre.

Target regions for Billings include central and northern Oklahoma, as well as the Panhandle if irrigation is used.

Pete is a beardless hard red winter wheat cultivar with high test weight that matches the highest yielding genetics in the field today. Pete was derived from Ukraine and Pioneer parentage. It was released as an early maturing improvement over Deliver.

“It’s a tri-purpose wheat variety that adds straw strength and yielding ability under irrigation or dryland conditions beyond what producers may be accustomed to with Deliver,” Carver said. “Pete’s superior test weight patterns add another distinction. However, its earlier winter dormancy release makes it more susceptible to early spring freeze events than Deliver.”

Pete is well adapted to major wheat growing areas of Oklahoma and bordering states, featuring resistance to wheat soilborne mosaic virus, spindle streak mosaic virus and leaf rust. It offers intermediate resistance to stripe rust and is moderately tolerant to low pH soils.

Wheat improvement research in Oklahoma is driven by an interdisciplinary team of division scientists charged with developing highly adapted wheat cultivars with marketable grain quality.

Program support is administered by the division’s statewide Oklahoma Agricultural Experiment Station system, the Oklahoma Wheat Commission and the Oklahoma Wheat Research Foundation.