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Coastal Heritage – Spring 2016
 
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Career Jump-Start: Cultivating the Future Workforce
VOLUME 29, NUMBER 2, SPRING 2016                     PDF FILE  

Coastal Heritage is a quarterly publication of the S.C. Sea Grant Consortium—a university-based network supporting research, education, and outreach to conserve coastal resources and enhance economic opportunity for the people of South Carolina. To subscribe, email your name and address to Annette Dunmeyer.

Executive Director: M. Richard DeVoe                        past issues of Coastal Heritage
Director of Communications: Susan Ferris Hill
Editor: Joey Holleman
Art Director: Pam Hesse Graphic Design

Curriculum Connection link

Dear Readers,

With this issue we say farewell to John H. Tibbetts, long-time writer and editor of Coastal Heritage. The Winter 1990 issue “Climate Change: Implications for South Carolina” was John’s first as editor. Since then, he has written about a variety of topics, from the search for the first Americans and Colonial-era naturalists to coastal development and the Gullah/Geechee culture. John had a special talent for identifying important issues—past, present, and future—and explaining them in an eloquent, yet understandable, way. The S.C. Sea Grant Consortium and the State of South Carolina are grateful for his dedicated service of nearly 26 years.

I would also like to take this opportunity to introduce Joey Holleman as our new writer and editor. Joey previously worked at The State newspaper in Columbia, S.C., where he covered environmental issues, health care, outdoor recreation, weather-related topics, and cultural heritage. Joey’s roots are in the Lowcountry and he is excited to be back in Charleston, working for the Consortium and enjoying the area’s recreational amenities. We are delighted to have Joey on-board to bring you stories about South Carolina’s working waterfronts, coastal flooding, the impact of the Reconstruction era, and many more interesting issues in the years to come.  —Susan Ferris Hill, director of Communications


Career Jump-Start: Cultivating the Future Workforce

Career Jump-Start: Cultivating the Future Workforce

•  Career Jump-Start: Cultivating the Future Workforce
•  Reading & Websites
•  News & Notes

Smart, industrious, and well-trained people establish the foundation for research, education, and outreach programs supported by the S.C. Sea Grant Consortium.

S.C. Sea Grant supported gradute studentThose people don’t just fall out of the sky. They need to be identified, encouraged, and nurtured. The Consortium’s many fellowships and internships have boosted hundreds of students for the past 35 years. Even more future scientists and leaders have honed their skills and found their callings while working as graduate students on Consortium-funded projects.

National programs such as Sea Grant’s John A. Knauss Marine Policy Fellowship and the National Oceanic and Atmospheric Administration’s Coastal Management Fellowship are at the top of the workforce-training ladder. The Knauss fellowship program, named for one of Sea Grant’s founders, selects candidates nominated by the 33 state Sea Grant programs to spend a year in the nation’s capital working for federal agencies and congressional staff offices. Coastal Management fellows earn on-the-job training working on projects, such as planning for sea-level rise and creating decision-support tools for sustainable growth.

Fueling the future through workforce development always has been among the Consortium’s key goals.

  • Nearly 1,000 undergraduate and graduate students have worked on Consortium-funded projects with an average of about 40 per year in the past decade. 

  • Forty-five Consortium nominees have been selected as Knauss fellows since 1979.

  • Fifteen Consortium nominees have been selected as Coastal Management fellows since 1997.

Workforce development is even more important now because over half of the marine-related workforce is eligible for retirement in the next five years. Also, the need for well-trained professionals to plot the future has ramped up with the emergence of new marine technologies and discoveries, and the increasing pressure on coastal and ocean resources as human populations increase and more people move to the coast.

The Consortium starts early by helping educators design improved K-12 marine curricula, by creating specialized professional development programs such as the “From Seeds to Shoreline” teacher training effort, and by showcasing how rewarding marine, coastal, and natural resources careers can be at events such as the Charles-ton Science Technology Engineering and Math (STEM) Festival.

Ideally, those K-12 students with the right mix of passion and intelligence move on to college undergraduate and graduate programs and benefit from Consortium research and fellowship opportunities. And that primes them for important careers like the seven researchers and educators profiled in the coming pages, each of whom got a boost from Consortium-funded projects.

— Joey Holleman


Grant CunninghamMaking a coastal planning connection:
M. Grant Cunningham

In the summer of 1987, M. Grant Cunningham headed to the South Carolina coast to compile data for a new South Carolina Public Beach & Coastal Access Guide. The experience changed his life.

With undergraduate degrees in English and history from Duke University and a M.A. in journalism from the University of South Carolina, Cunningham was a Ph.D. student at Clemson University in the Parks, Recreation, and Tourism Management program when his assistantship sent him to the coast to work on the guidebook. At the time, he hadn’t visited the coast often—only two or three trips in his life—and he didn’t know much first-hand about beaches.

That summer, as he gathered data from the state’s six coastal waterfront counties, he fell in love with the region. Currently an associate professor at Clemson’s College of Architecture, Arts, and Humanities, Cunningham teaches coastal management in the master’s degree program on city and regional planning. He says he owes much of his career success to that summer of 1987 and his experience with the S.C. Sea Grant Consortium.

Consortium leadership saw Cunningham’s potential and brought him on as an intern. From May 1988 to January 1989, Cunningham tracked research projects, assisted with community forums, and conducted a beach-access demand study.

“Having an opportunity to come to Sea Grant and learn a lot more about coastal issues and meet other coastal professionals—I couldn’t ask for more as a graduate student,” Cunningham says. “I had the chance to meet people from every level of government. I began to understand the structure, from local to state to federal government, and the mix of agencies and players within the coastal management agencies. Now, I make sure my students understand that management structure and the people involved.”

Cunningham was chosen as a Knauss fellow in 1989 and served on the staff of the Senate Commerce, Science, and Transportation Subcommittee on National Ocean Policy Study, chaired by Senator Ernest F. Hollings. He prepared Senator Hollings’ opening statements, organized hearings, and drafted legislation for the subcommittee. After the fellowship, Cunningham was hired to continue his work as a professional staffer on the committee in 1990.

“As a Knauss fellow, I got a better grasp of the philosophy behind the development of the coastal zone management program,” he says. “I became more knowledgeable about policy development and understood more about the program’s ‘carrot and stick’ approach.”

Robert Becker, a professor emeritus and former director of the Strom Thurmond Institute of Government Affairs at Clemson was one of Cunningham’s mentors, and he saw Cunningham’s growth during that period. “He was asking ‘Why are we having to do all this jumping through hoops when everything gets approved?’ He asked important policy questions,” Becker says.

In early 1991, Cunningham returned to South Carolina for a new position created at Clemson University: research associate and director of the South Carolina Rural Recreation Development Project, a start-up program working with rural communities to develop full-time recreational programs and services. After earning his doctorate in 1995, he’s now an associate professor with Clemson’s College of Architecture, Arts, and Humanities. He is still involved with coastal planning, as well as outdoor recreation resource management, community development, housing, and travel and tourism.

At many stages in his career, he received advice and support from the Consortium. “Basically, the people at Sea Grant said to me, ‘What are you interested in? And what can we do to make that happen?’” Cunningham says.

“I’ve been teaching 21 years, and I have made so many connections—local, state, federal, and non-profit groups. When I have taken my students to various meetings on the coast, they are amazed by all the connections I have. That’s what Sea Grant did for me. It helped me make those connections.”

— John H. Tibbetts


Rachel KalisperisLearning job skills while building species research:
Rachel Kalisperis

Rachel Kalisperis remembers the first time she visited a lowcountry oyster reef in 1996. As a graduate student in marine biology at the College of Charleston, she often did field sampling for a S.C. Sea Grant Consortium study on oyster ecology. But what she remembers best about her early research experience was that first trip by boat into a quiet stretch of estuary where tidal creeks twist and turn through giant salt marshes.

“It was both peaceful and full of life,” says Kalisperis, now director of husbandry at the South Carolina Aquarium in Charleston, S.C. “I felt content, as if this were the place I was meant to be.”

Growing up in coastal New Jersey, she often played on the beach and in salt marshes.

“My time with South Carolina’s oyster reefs,” Kalisperis says, “reminded me of my time in New Jersey’s salt marshes. The biodiversity in both rivals that of coral reefs and is just as beautiful.”

In New Jersey, the Eastern oyster (Crassostrea virginica) spends its entire life under water. It is subtidal in ­estuaries from Chesapeake Bay to New England.

In South Carolina, by contrast, 95% of the oyster reefs by acreage are intertidal—under water at high tide but exposed to the air at low tide. South Carolina oyster reefs are different in another way: They are in reasonable abundance and good harvesting condition compared to many other regions around the nation and the world.

In the late 1990s, Kalisperis worked as a research assistant to Loren Coen, a marine scientist who was then at S.C. Department of Natural Resources and is now an affiliate research professor at Florida Atlantic University. Coen and his team were working on a 10-year, Consortium-funded study, which established that lowcountry intertidal oyster reefs provide essential habitat for many species of finfish and invertebrates such as crab and shrimp.

Kalisperis became deeply involved in the research process with extensive field sampling, data entry and analysis, sorting and identification of fish and invertebrates, and preparation of scientific presentations. She also assisted on other efforts such as clam mariculture and gag grouper research. Her experience with so many different technical tools and in scientific investigations became crucial to her education and training.

“Rachel came to me having experience working in New Jersey with a public aquarium there prior to coming to the College of Charleston,” says Coen. “She had confidence but needed to gather more experience in marine science and related fields, and then field efforts complementing her research with oyster populations.”

While working on the project, Kalisperis began volunteering at the holding facility the South Carolina Aquarium used to house animals before it opened in 2000. “With all the stress of working on a thesis, that was my mental break to go down there on Saturday morning and get close to the animals,” she says.

Before she finished her thesis work, the perfect job opened up at the aquarium. “They were looking for someone to take care of the oyster reef exhibit,” Kalisperis says. “They needed someone who knew which species to put in the exhibit, what they would eat, and eventually create a species plan for the exhibit.”

Sixteen years later as the aquarium’s director of husbandry, she’s in charge of the people who perform those tasks for all of the animals.

“My graduate research helped me tremendously,” she says of getting her first position at the aquarium. “It was really because of my S.C. Sea Grant-funded research experience with Loren that I was able to do that job.”

— John H. Tibbetts


Kathy TedescoGetting to the core of climate change through carbon:
Kathy Tedesco


Kathy Tedesco had an impressive background in long-term climate studies before she earned a Knauss fellowship in 2002, and her work during the fellowship primed her to become an international leader in the field.

Tedesco was finishing work on her doctorate at the University of South Carolina (USC) when she was selected for the fellowship. Her research focused on the last 6,000 years of climate history of the tropics, working with USC researcher Robert Thunell on a study of core samples from the Cariaco Basin of the Caribbean off Venezuela.

The water in the Cariaco Basin has low dissolved oxygen levels and high sedimentation rates, and the basin is located where weather conditions along the Intertropical Convergence Zone are especially variable. In other words, it has the ideal setup for studying climate changes through sediment core samples.

Tedesco studied microscopic, single-cell organisms called planktonic foraminifera. These tiny creatures are one of the building blocks of ancient climatology research because they make their shells using what’s available in the water around them, and when they die the exoskeletons sink to the sea floor. The composition of the foraminifera shells in a certain layer of a core sample can help determine the water temperature and salinity, among other things, when that layer was deposited on the ocean bottom thousands of years ago.

Focusing on three particular species of planktonic foraminifera, Tedesco detailed at least four major decreases in sea-surface temperature and/or increases in salinity in the past 4,000 years. Those results were compared with other records from the region, including levels at Lake Titicaca, to help build a climatologic history for the Cariaco Basin, the Caribbean region, and the tropics during the late Holocene period.

Core samples of basin sediment also revealed the level of carbon in the ocean and the atmosphere through the centuries. The volumes of research on ice sheet and ocean bottom cores made it clear there have been several peaks in atmospheric-carbon levels through the planet’s history. They also indicated the current rise is unprecedented in its speed and lack of a link to factors such as orbital changes that influenced other high-carbon periods.

Tedesco earned her undergraduate degree in geology at the State Univer­sity ­of New York­­­—Stony Brook and her M.S. from the University of Colorado in geological oceano­graphy. Her master’s work in paleoceanography looked at fluctuations in the Laurentide Ice Sheet over the last 45,000 years based on marine sediment cores from the Northwest Labrador Sea.

Her interests began to shift from lab and field work to policy and management while earning a doctorate at USC, and that change took flight during her year as a Knauss fellow.

Since then, Tedesco has served as program manager for the Global Carbon Cycle Program in the National Oceanic and Atmospheric Administration (NOAA) Climate Program Office in Silver Spring, Md.; worked on another sediment study in the Gulf of Mexico in St. Petersburg, Fla.; and served as director of the International Ocean Carbon Coordination Project with the United Nations Educational, Scientific, and Cultural Organization (UNESCO) in Paris.

She’s been program manager for Ocean Climate Observation within NOAA’s Climate Program Office since 2014, working with researchers and representatives of U.S. federal agencies. The two major initiatives she’s working on are the North American Carbon Program and the Ocean Carbon and Biogeochemistry Program.

The Cariaco work piqued her interest in carbon observation, and, when she moved on to NOAA, a carbon-focused job opening appealed to her. “And carbon has been my life ever since,” she says.

With the importance of carbon studies growing, Tedesco loves that what she’s doing is having an impact.

“The work with the international community and my current post,” she says, “is critical to our understanding of the role of the ocean as a sink for carbon dioxide, a greenhouse gas responsible for global climate change and acidification of the ocean, and how cycling among carbon reservoirs varies on seasonal-to-decadal time scales.”

Thunell says he told Tedesco during her time at USC that if she really wanted to go into the policy side of climate work, the Knauss fellowship “is a vehicle that can get you started, and Kathy would not be doing what she’s doing today if she hadn’t gotten that Knauss fellowship.”

— Joey Holleman


Andrew MountOpening doors that lead to shell-making discovery:
Andrew S. Mount


How do oysters make their sturdy shells?

Andrew S. Mount has been intrigued by that question throughout his scientific career, which began in earnest at the Graduate Program in Marine Biology at the College of Charleston. He joined the S.C. Sea Grant Consortium as a graduate student intern in 1986.

For more than three decades, Mount has sought to understand how oysters—those fleshy, tasty, and surprisingly complex creatures—build their protective shell that is their first line of defense from parasitic infections and predators. How do oysters turn ordinary seawater ingredients into hardened minerals that are sturdy, tough, and long-lasting?

Now a marine cellular and molecular biologist at Clemson University, Mount has become known as the scientist who discovered a new kind of cell that enables the oyster to make the shell-forming calcium carbonate crystals by intracellular mechanisms. Mount also founded and manages the Okeanos Research Laboratory at Clemson, which conducts research on oyster formation, marine biofouling, and ocean acidification. He credits the Consortium, which also helped fund a component of the Okeanos lab, for his success as a scientist.

“I never could have made it as a scientist without Sea Grant,” he says. “The economics of graduate school at the College of Charleston wouldn’t have worked without the job at Sea Grant. That’s also where I learned so much by participating. I learned the importance of listening skills—how to bring a lot of people with disparate interests into a room and really listen to them, and then develop action plans. I learned how to have an open-minded, collaborative style of management. I learned how to have an open-door policy. Now the door at my lab is always open.”

In August 1989, Mount began doctoral studies at Clemson University, continuing his biochemical studies on oyster shells and earning a research assistantship supported by the Consortium. A year after obtaining his doctorate, he was hired by Clemson as a post-doctoral scholar for his growing expertise in optics. He helped to manage the college’s first laser scanning confocal microscope and later established an optical biological imaging core laboratory.

His skill with imaging technology eventually enabled him to see something no one had noticed before. Certain oyster cells, he discovered, were tiny factories that produced the building blocks of shell formation.

Traditional theory says the oyster creates its shell-building crystals outside of cells. That is, the oyster excretes a special molecular substance to the outer layer of the animal’s fleshy surface or “skin.” This special substance, in turn, captures the necessary ingredients from seawater—such as carbon and calcium—and synthesizes them into calcium carbonate crystals, the stuff of oyster shells.

But Mount and his research team saw a different crystal-building process at work. The team located specialized blood cells that capture essential ingredients and synthesize calcium carbonate crystals, shipping them out to the shells to build or repair them.

That means oyster shell formation is a cellular process and independent of the external seawater environment. This is good news for the oyster industry, as it makes oysters more resistant to ocean acidification than previously thought.

Mount and his team’s breakthrough in oyster cell biology was published in the prestigious journal Science in April 2004. He participated with other co-authors in a Genome Institute effort that revealed the complete genetic blueprint of the Pacific oyster (Crassostrea gigas) in the equally prestigious journal Nature in 2012. The genome project highlighted the complexity of oysters, which express more genes than humans.

These two papers established the foundation for a cellular-based mechanism of shell formation—and solved the question of how oyster shells are made. Locating and understanding this mechanism led to commercial applications.

In September 2013, the U.S. Patent Office granted a patent to Mount and the Clemson University Research Foundation (CURF). The patent enables CURF to license technology that could create ultra-tough materials for industry using some of the same techniques oysters have used for millions of years.

Today, Mount trains doctoral students and post-doctoral scholars in his laboratory using advanced optical- and electron-microscopy techniques. He also teaches a senior seminar course, focusing on the impacts of climate change, in particular ocean acidification and sea-level rise.

Along his 30-year career, Mount often turned to the Consortium for advice and recalls his early days working in the Charleston office.

“A diverse flow of scientists, professors, and experts from every corner of the oceanographic and marine biology community came through those front doors on Meeting Street,” Mount says. “For me, it was a crucible for professional development and a window to the world of marine science.”

— John H. Tibbetts


Robert CrimianUnderstanding how people’s sense of place impacts planning:
Robert Crimian


Robert Crimian sees the natural world differently now. As an under-graduate marine science major at Coastal Caro­lina University, he was grounded in physical science. But when he studied for a M.S. in environmental studies at College of Charleston, his eyes opened to a different perspective that aids him in his professional life today.

Crimian participated in two S.C. Sea Grant Consortium-supported research projects examining how local people viewed their sense of place and well-being. The studies aimed to learn how local people placed themselves in the environment, what they valued most about their environment, and how they hoped their communities would look in the future.

Today, he travels the Georgia shore from the larger cities of Savannah and Brunswick to the coast’s small towns and sea islands as the Southeast coast and ocean part­nership coordinator at The Nature Conservancy’s office in Darien, Ga. He spearheads a pilot project to create a framework for ocean planning along the Georgia coast. The key is to understand the sense of place in various regions and subcultures of the Georgia coast, from deep rural places to cities.

He interviews community leaders and stakeholders to learn how local people use waterways and other resources. Do they fish for recreation, for a living, or for their subsistence dinner? Or all of the above? Do some groups want conservation while others do not?

“We want to spatially see where a conflict might take place,” he says, “so that if a conflict arises, it can be anticipated and possibly addressed.”

Crimian learned the fundamentals of this work in 2012-2013 as a graduate research assistant for Susan Lovelace, then at the Hollings Marine Laboratory at Fort Johnson on James Island, S.C., and now assistant director for Development and Extension at the Consortium. Crimian performed coastal well-being data collection and analysis with Lovelace and Annette Watson, who studies human-environment geography at the College of Charleston. The researchers conducted a project titled “Coastal Livelihoods and the Local Sense of Place.”

The researchers looked at three different populations—commercial, subsistence, and recreational fishers—in rural McClellanville, suburbanizing Awendaw, and urbanizing Mount Pleasant, all rapidly changing communities in northern Charleston County. Further growth is predicted along this corridor of U.S. 17 known as the “Sewee to Santee” region, which is the focus of an ongoing planning effort.

Crimian helped refine innovative social-science methods—interview techniques, quantitative analysis, and spatial tools—to measure local residents’ well-being. He sought to quantify this well-being based on social, economic, and environmental indicators of different populations.

If groups of people have a lower economic well-being, do they value their surrounding environment more or less than other groups? The study showed residents of these three communities shared respect for the health of local waterways—a respect that transcended divisions of race or household wealth.

Crimian, who also worked on a well-being assessment project for ­populations along the Gulf Coast after the Deepwater Horizon oil spill, gathered skills along with data during that period.

“Although he was firmly grounded in marine science, he felt it was important to develop his knowledge of the human dimensions of the coastal environment,” Lovelace says. “Working with me, Robert dove into sociological methods using secondary data to explore the social, cultural, and environmental quality of coastal communities. Then he pursued a deeper understanding of the per­ceptions about and knowledge of ecological restoration to different communities.”

Working on those Consortium-funded research projects as a graduate student set him up ideally for his work with The Nature Conservancy.

“Before graduate school, I always thought about the coast from a biophysical standpoint,” Crimian says. “But now I can see the social part of the equation. If we’re going to solve problems, we need to stop thinking in silos and think more widely about social and ecological systems and how they interact.”

— John H. Tibbetts


Elizabeth Day-MillerBlazing a trail to improve marine education:
Elizabeth Day-Miller


Elizabeth Day-Miller, with her ocean-science education focus, was unusual among the research and policy-dominated Knauss fellows in 1999. She hopes she was a trail blazer.

“I was definitely an anomaly for the Knauss fellowship program,” Day-Miller says. “I was told there was discussion about whether it was appropriate to have someone with an education background serve as a Knauss fellow. Maybe I opened doors for people to be more involved in that way.”

There’s no doubting the positive outcome of Day-Miller’s Knauss experience.

With a B.S. in marine science from the University of South Carolina and a M.S. in the same field from the State University of New York—Stony Brook, she already had experience working for the S.C. Sea Grant Extension Program, the Coastal Zone Education Center in Beaufort, S.C., and the Center for Science Education at the University of South Carolina.

As an extension agent, she helped start Beach Sweep/River Sweep, making presentations at schools in Horry and Georgetown counties and on local television to draw out nearly 1,500 volunteers to pick up litter along the beaches and waterways. She also was integral in Clemson’s 4-H summer camp focused on marine resources, and she was part of the group that started the S.C. Marine Educators Association in 1988.

The Knauss fellowship allowed her to take that energy to Washington and the National Science Foundation (NSF) Division of Ocean Sciences. In a conversation with high-level administrators at NSF, she had the experience and the gumption to give her opinion on the best ways to improve ocean-science teaching in schools. Some thought the key was to write the perfect curricula and help provide the materials to the schools. Day-Miller thought too much emphasis was put on perfecting curricula, and more attention needed to be paid to helping teachers understand the science.

“Teachers would learn a lot by working with scientists, and scientists would learn a lot by working with teachers,” Day-Miller says. “We needed to bring them together.”

Day-Miller wasn’t the only one thinking that way. Those conversations at NSF eventually led to the establishment of the Centers for Ocean Sciences Education Excellence (COSEE). The COSEE network, with a goal of fostering collaboration among research scientists and educators, grew to include 12 regional centers throughout the country. The Southeast center was based at the Consortium from 2001-2015, when grant funding for it ended.

After her Knauss fellowship, Day-Miller stayed on with NSF for a few months before moving on to a program analyst position with the National Sea Grant College Program office. In that role, she was instrumental in the design of the National Oceanic and Atmospheric Administration (NOAA) Environmental Literacy Grants Program.

Her emphasis throughout her career has been on the researchers and classroom teachers working together to improve everything they do. She has taught courses on the best ways to design ocean-science education programs.

Along the way, she developed expertise in writing proposals, designing projects, developing curricula, and evaluating proposals. Now she helps others with those tasks through her Bridgewater, Va. based company, BridgeWater Education Consulting.

“I had the opportunity to support and influence many of the education initiatives that came out of NOAA,” she says. “And all of that grew out of my Ph.D. work funded by Sea Grant and my work as a Knauss fellow.”

— Joey Holleman


Edward SuttProviding the foundation that leads to stronger roofs:
Edward Sutt


Homes being built along U.S. hurricane-prone coastlines structurally can handle high winds better today thanks in part to Edward Sutt’s engineering work on S.C. Sea Grant Consortium-funded studies as a post-graduate student at Clemson University.

Smooth-shank nails were the roof fasteners of choice in the mid-1990s. With those nails offering little resistance, intense windstorms would rip off roof sheathing, cause a breach in the building, and, in the end, substantial property loss. The construction industry needed a better nail, and Sutt came up with a breakthrough design. His HurriQuake® nail received the 2006 “Innovation of the Year” award from the national magazine, Popular Science.

Two Consortium projects helped pave the way for the breakthrough.

After Hurricane Hugo struck in 1989, Consortium researchers surveyed damages to homes and found roofing materials often were ­inadequately secured to structures. Similar weaknesses were found in Florida after Hurricane Andrew
in 1992.

One of the most effective ways to strengthen a structure for high winds, engineers learned, would be to improve attachments between the roof sheathing and roof framing as well as the roof-to-wall connection. Fasteners often were too weak to cope with intense wind pressures or were installed improperly.

“The problems [behind roof failures] became evident,” Sutt says, “but it wasn’t always clear how to solve these problems practically.”

As a M.S. student at Clemson University from 1994 to 1996, Sutt studied methods to retrofit existing residential homes at these common failure points. Sutt’s then-advisor at Clemson, Tim Reinhold, received support from the Consortium and other agencies to study how wood-frame structures functioned under forces associated with hurricanes at the Clemson Department of Civil Engineering’s Wind Load Test Facility.

Sutt and Reinhold teamed with the S.C. Sea Grant Extension Program and others to develop a series of educational video guides for homeowners on how to retrofit roofs. “The idea,” says Sutt, “was to hasten the process of getting information to homeowners and encourage improvements in buildings. The question was: We’d learned something in the lab. Now how can we get it out to people so it can be used?”

At the Clemson wind lab, meanwhile, Sutt was studying the relative strength of various fasteners. It turned out screws were usually stronger than smooth-shank nails. But screws were more expensive and required more time to install because they need to be “twisted” into the wood rather than “shot” with nail guns.

After receiving his M.S. in civil engineering, Sutt spent two years in industry before returning to Clemson from 1998 to 2000 for his doctorate to undertake research supported by the Consortium. He began developing the idea of a hybrid fastener with the greater strength of a screw but the lower costs and installation ease of
a nail.

After completing his doctorate, Sutt went to work for Bostitch, a division of Stanley Black & Decker, where he deployed his Clemson lab experience to design an improved construction fastener. This hybrid nail was made of carbon-steel alloy with a wider head, a twist below the nail head to fill the space created by rings, and deep rings that hold the shaft firmly in the frame. The nail provided up to two times the resistance over conventional smooth-shank nails to high winds for the roof sheathing connection.

“Ed came to Clemson with an undergraduate education in engineering and a wealth of practical experience from building a home himself and being exposed to design and construction from a father who was an architect,” Reinhold says. “While this foundation helped shape a practical approach to problem solving, it was clear that he also had a very inquisitive mind and was constantly looking for new and better ways to attack problems and to develop creative solutions.”

Sutt has since guided numerous new fasteners through the research-and-development process. Now vice president of Fastening Systems at Pleasanton, Calif. based Simpson Strong-Tie, he decides which potential products should go forward in the pipeline to customers. Sutt credits the Consortium for much of his success.

“Now I’m an expert in my field with an education that was basically due to Sea Grant,” he says. “Sea Grant offered me a foundation. I was given a lot of latitude at Clemson to solve problems, and it allowed me a step-by-step growth, so I could arrive at the position that I hold today.”

— John H. Tibbetts

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