Month: November 2018

Categories
Accolades News Research

Seed grants helping to grow Virginia Tech’s transdisciplinary capacities, contributions

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From VT News
NOVEMBER 29

Congratulations to several GCC faculty affiliates collaborating on transdisciplinary teams across campus!

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Virginia Tech’s transdisciplinary communities, including several Destination Areas (DA), Strategic Growth Areas (SGA), and research institutes, have provided seed grants to eight research teams in an effort to foster collaborative work throughout the campus.

These grant awards are designed to enhance the competitiveness for defined external support in areas that address issues related to rural health (e.g., socio-economic, environmental, health needs of rural populations) and infectious disease.

Transdisciplinary communities at Virginia Tech are composed of faculty, staff, and students working collaboratively to address complex problems that impact the human condition. Teams are working across disciplinary boundaries to address challenges in areas such as rural health, infectious disease, coastal mitigation and security.

Grants totaling $130,000 were recently awarded to research teams that included a number of DA and SGA cluster hires, and other junior and senior researchers. In addition to the funding, recipients will have an opportunity to participate in workshops during the spring semester that offer an opportunity to further build and leverage their transdisciplinary capacities. Awardees will also have an opportunity to present their preliminary findings and plans for securing additional funding at an open symposium planned for May 2019.

Teams receiving seed grants and the research they are engaged in to address issues in rural health are as follows:

 

Ecology and Geography of a Prion Disease in Virginia

Chronic Wasting Disease (CWD) is an infectious disease of wildlife. CWD is part of the group of prion diseases which are caused by a proteinaceous infectious agent termed prion. In this project, the team will determine which landscape conditions and deer densities are more suitable for CWD infection and where these conditions are present in Virginia. This information will be crucial to inform surveillance plans, advancing the status quo of prion monitoring and will help justify landscape modification to reduce CWD transmission in Virginia and globally.

  • Luis Escobar (PI), Department of Fish and Wildlife Conservation
  • Emmanuel Frimpong, Department of Fish and Wildlife Conservation
  • Steven Winter (Graduate Student)
  • Joy Flowers (Undergraduate Student), Department of Fish and Wildlife Conservation
  • Megan Kirchgessner, Virginia Department of Game and Inland Fisheries
  • Jens-Christian Svenning, Department of Bioscience Center for Biodiversity Dynamics in a Changing World, Aarhus University

 

Public Inspired Science for a Healthy Exposome in Rural Environments

This project will aim to reduce disparities in water and foodborne exposures to contaminants of concern in order to improve rural quality of life while ensuring ecosystem security. Rural food and water systems will be examined within an exposome framework, a new holistic approach used to evaluate microbial and chemical aspects of water and food quality affected by anthropogenic activities, their interrelationships, and combined risks to human health.

  • Leigh Anne Krometis (PI), Biological Systems Engineering
  • Susan Clark, Horticulture
  • Marc Edwards, Civil and Environmental Engineering
  • Ellen Gilliland, Mining and Minerals Engineering
  • Korine Kolivras, Geography
  • Amy Pruden, Civil and Environmental Engineering
  • Nino Ripepi, Mining and Minerals Engineering
  • Kang Xia, Soil, Crop, Environmental Science

 

The effects of temperature on bat fungal disease dynamics

This research merges cutting-edge mathematical modeling approaches with empirical data collection to address questions central to the intersection of Global Systems Science and Data and Decisions. This team will use a combination of laboratory techniques and novel mathematical modeling approaches to understand how temperature influences the fungal pathogen Pseudogymnoascus destructans, the causative agent of bat white-nose syndrome. The team will use these data to motivate future work exploring the effect of temperature on pathogen replication and host behavior across emerging and endemic disease scales.

  • Kate Langwig (PI), Biological Sciences
  • Leah Johnson, Statistics
  • Lisa Belden, Biological Science
  • Joseph Hoyt, Biological Sciences
  • Steffany Yamada, Langwig Lab
  • Team of undergraduate Virginia Tech researchers

 

View the full article with all awarded teams.

 

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CONTACT:
Dave Guerin
540-231-0871

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Categories
Accolades Drinking water News Student Spotlight

Mary Lofton is new GLEON GSA Co-Chair Elect

From GLEON.org
NOVEMBER 27
Dear fellow GLEONites,
I am writing to introduce myself as the new Co-Chair Elect of the GLEON Student Association. I am honored and excited to be taking on this role and very much look forward to working with you all over the next couple of years.

 

I am currently a 3rd year Ph.D. student with Dr. Cayelan Carey at Virginia Tech in the United States. My dissertation research focuses on phytoplankton community dynamics in lakes and reservoirs, including understanding the effects of epilimnetic mixing on phytoplankton biomass, exploring the drivers of benthic recruitment of phytoplankton and phytoplankton vertical distribution in the water column, and helping to develop an ecological forecasting system for phytoplankton dynamics to assist drinking water managers in maintaining good water quality. As such, my research interests span a variety of both applied and basic research questions.

Mary Lofton is the new GLEON Student Association (GSA) co-chair elect.

My first direct experience with GLEON was last year when I attended the G19 meeting at Mohonk Mountain House in New York, USA. I was incredibly excited to attend because I had heard so many positive anecdotes about the GLEON community from my lab mates and advisor. I would get the chance to meet all those scientists whose papers I had been reading; I would meet other graduate students from all over the world; I would spend the meeting actually developing projects that we would work on throughout the year; and there would probably be a great dance party. The meeting lived up to my expectations – I left feeling energized, inspired, and full of plans for all the great science I was going to do with newfound GLEON collaborators in the year ahead.

As a graduate student, my favorite thing about the GLEON community is its grassroots nature – by which I mean that students are given the opportunity to work alongside, chat with, and receive feedback from research scientists at all career stages from around the world. The working group format of GLEON meetings and GLEON’s focus on bringing undergraduate and graduate students and other early-career scientists together for workshops and projects allows students to form independent collaborations outside their home institutions. This is a tremendous opportunity for students to learn to navigate the challenges of team science and allows us to develop skills for engaging in productive collaborations and fostering a positive sense of community in scientific settings. The connections we build through this grassroots network help us meet potential post-doctoral advisors and discover job opportunities. The relationships that we forge through GLEON can help us hit the ground running with collaborators and proposal ideas if and when we end up leading labs or research sites of our own. And the close-knit nature of the GLEON community means that we have experts to reach out to if we want to learn a new skill – whether it be data management, analytical methods, ecosystem modeling, or engaging citizen scientists.

As GSA Co-Chair Elect, my goal is to make all the benefits of GLEON as accessible as possible to as many students as possible, and to effectively use the GLEON network to help students acquire the training, resources, and experience that they need most. To that end, I’m hoping to speak with as many students and other early-career scientists I can at the upcoming G20 meeting to hear what sort of activities, initiatives, workshops, and so on YOU would like to see the GSA take on in the next year or two. So please come talk to me about your ideas! If being a member of GLEON has taught me anything, it is that having a diversity of ideas and opinions on the table and fostering open discussion can lead to great outcomes. I hope to hear from each of you soon about what you would like to see from the GSA and how you would like to contribute to the activities of the GSA moving forward.

Sincerely,

Mary Lofton

About the Author: Mary Lofton is from Virginia Tech in Blacksburg, VA, USA and is a 3rdyear PhD student with Dr. Cayelan Carey studying phytoplankton community dynamics in southwest Virginia drinking water reservoirs.

Photo: Mary Lofton in the field.
Mary Lofton studies phytoplankton community dynamics in southwest Virginia drinking water reservoirs.
Categories
Climate Change Conservation News Water

The Search For Giant, Rare Salamanders That Live In Georgia

From WABE
BY MOLLY SAMUEL  |  NOVEMBER 27

(Header image: Juvenile hellbender salamander. Photo by Bita Honarvar for WABE)

In the deep woods of the Blue Ridge Mountains, a cold, clear stream flows. Below a canopy of twisted rhododendrons, seven people in black wetsuits creep upstream through the water. They look like Gollum, sleek in their neoprene, crouching in the water, feeling under rocks.

They’re looking for a kind of giant salamander known as a hellbender that lives in parts of North Georgia. Most people will probably never see one, but hellbenders are weird, rare and sort of beloved by people in the know.

Over the last few decades, scientists have come to realize that the big salamanders might be in trouble, and the federal government is now considering whether to protect them.

The wetsuit-clad researchers in the stream are from Georgia agencies – the Department of Natural Resources and the Georgia Department of Transportation – and they’re conducting a survey to get a sense of the state of the hellbender here.

Scientists from the Georgia Department of Natural Resources and the Georgia Department of Transportation make their way up a stream, feeling under rocks for good hellbender homes. (Bita Honarvar for WABE)

Meet The Hellbender

Hellbenders are shiny, slimy animals. They can grow to nearly 2 feet long and might live as long as 20 or 30 years, spending much of their time underneath rocks in cold, clean streams. They have flat, round heads and a wide mouth that makes them look like they’re smiling. “A toothy sock puppet with frills,” is how one person described them to me.

”I don’t know that there’s a lot going on in a hellbender’s head. But it’s a face a mother and a herpetologist can love,” says Thomas Floyd, a wildlife biologist with the Georgia Department of Natural Resources who’s leading the survey.

When they find a good rock, they lift it up, in hopes of finding and catching a hellbender before it escapes downstream. (Bita Honarvar for WABE)

Floyd calls hellbenders cute, then backs off on that a bit.

“Tiny, tiny eyes. They’re not furry, they’re not cuddly, they’re slimy. It’s the opposite of a cute kitten, I guess, but we like it,” he says.

And if the name hellbender isn’t good enough, they also have a bunch of other nicknames.

“I’ve heard a few, most common in this portion of the southern Appalachians is probably mud dog,” says Floyd.

There’s also snot otter.

He continues: “Water dog, grampus, grumpus, mollyhugger, horny head, devil dog.”

And finally, old lasagna sides, in recognition of the curvy flap of skin that runs down hellbenders’ torsos.

Snot Otter Success

The group here is looking for hellbenders because the species seems to be in trouble, so they’re trying to learn more about where they live and how they’re doing. In Georgia, they check streams every few years for hellbenders to get a sense of their demographics.

After just a few minutes of looking, they find one. It’s a young hellbender, which is especially exciting, says Floyd.

“It’s neat to see an adult, but it’s even neater to see a small juvenile,” he says.

That’s because in streams where hellbenders aren’t doing well, researchers only find the adults, meaning, for some reason, they’re not reproducing well, or the eggs or young salamanders aren’t surviving. A stream like that will eventually lose its hellbenders.

That’s not the case in this North Georgia stream, which, Floyd says, is still a great place to find hellbenders.

The researchers take measurements on the hellbender they’ve caught. He’s about 8 inches long, and probably 4 or 5 years old, says Floyd.

“He’s a juvenile for sure,” he says. “That means there’s been successful reproduction.”

But scientists say that across their range, hellbenders are in decline.

When they find a hellbender, they measure it, weigh it, tag it and swab it. (Bita Honarvar for WABE)

Devil Dogs In Trouble

“So historically, hellbenders occurred in about 15 states and probably across more than 500 streams,” says Bill Hopkins, a professor at Virginia Tech who studies hellbenders.

Their range generally covers the Appalachian Mountains, from southern New York to North Georgia.

Hopkins says researchers began realizing in the 1980s that hellbender numbers were dropping. Since then, they’ve figured out that about 40 percent of hellbender populations are either totally gone or about to be. Another 40 percent are declining.

“It’s really bad, and I think hellbender biologists across the nation would agree with that,” Hopkins says. “That’s something that we’re all really, really worried about, and we’re trying to understand what the causes are.”

The biggest problem for hellbenders is damage to those clean streams they live in; when forests get cut down, or roads are built, or an area gets developed, that can pollute or silt up a stream and make it bad for hellbenders.

Sometimes people intentionally kill hellbenders, so that’s a problem, too. Disease could be an issue. And then there’s climate change, “something that we’re very worried about,” Hopkins says.

Climate change could affect them in a few ways. Those cold streams the hellbenders like could get too warm. The forests around the clean cold streams could change and potentially not shade the streams as much or filter the water as effectively. And extreme weather – heavy storms or drought – can also affect the streams, either by drying them up, or flooding them and washing away the rocks the hellbenders live under.

“It’s almost like climate change is this accelerator that really amplifies the effects of all the other threats that this animal experiences,” Hopkins says.

Eight years ago, the environmental group the Center for Biological Diversity asked the U.S. Fish and Wildlife Service to protect hellbenders under the Endangered Species Act, which has power not just to protect species but also the places where the species live.

“For many species, including the hellbender, loss of habitat is the greatest threat to the species,” says Elise Bennett, an attorney with the group. “The big picture is protecting our water quality and protecting the streams and rivers that create habitat for the species.”

Hellbenders are considered threatened by the state of Georgia, but state law doesn’t protect land the way the stronger federal Endangered Species Act can. U.S. Fish and Wildlife is expected to decide whether to protect hellbenders next year.

Even if the animals don’t end up being protected throughout their range, they might still be in trouble in parts of it, says Don Imm, supervisor for ecological services in Georgia for the U.S. Fish and Wildlife Service.

“I mean it’s not an extremely difficult species to protect, but everyone has to kind of do their part,” Imm says. “Generally, good land stewardship is enough to protect them. Keeping cattle out of the stream, making sure you leave a wetland buffer, those kinds of things.”

Imm also points out that hellbenders aren’t the only animals that need clean, cold streams.

“For folks that could care less about eastern hellbender, well, it’s actually a good indicator of high quality trout stream as well,” he says.

Old Lasagna Sides In Georgia

In Georgia, hellbenders seem to be doing better than they are in other states farther north in their range, says Floyd. That’s at least partially because they live in places that already have some protections – like national forests.

That’s where the stream he’s surveying is, in the Chattahoochee National Forest. (We’re not getting more specific than that, to discourage hellbender poaching, which Floyd says can be a problem.)

Eventually, another one of the big salamanders turns up, under a mediocre rock, says Floyd, but it’s an impressive hellbender: an adult, more than a foot long. One of the ecologists exclaims, “Holy crap!” when they find it.

It doesn’t get old seeing these guys, says Floyd.

“Hellbenders are really neat. They’re a prehistoric animal dating back to 65 million years ago,” he says. “These hellbenders have been here longer than we have. I’d like to make sure they stay here longer than I’m here.”

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Categories
Climate Change Global Change News

Fourth National Climate Assessment assimilates the immediate effects of climate change across the U.S.

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The National Climate Assessment

The Global Change Research Act of 1990 mandates that the U.S. Global Change Research Program (USGCRP) deliver a report to Congress and the President no less than every four years that “1) integrates, evaluates, and interprets the findings of the Program…; 2) analyzes the effects of global change on the natural environment, agriculture, energy production and use, land and water resources, transportation, human health and welfare, human social systems, and biological diversity; and 3) analyzes current trends in global change, both human-induced and natural, and projects major trends for the subsequent 25 to 100 years.”1

The Fourth National Climate Assessment (NCA4) fulfills that mandate in two volumes. This report, Volume II, draws on the foundational science described in Volume I, the Climate Science Special Report (CSSR).2 Volume II focuses on the human welfare, societal, and environmental elements of climate change and variability for 10 regions and 18 national topics, with particular attention paid to observed and projected risks, impacts, consideration of risk reduction, and implications under different mitigation pathways. Where possible, NCA4 Volume II provides examples of actions underway in communities across the United States to reduce the risks associated with climate change, increase resilience, and improve livelihoods.

This assessment was written to help inform decision-makers, utility and natural resource managers, public health officials, emergency planners, and other stakeholders by providing a thorough examination of the effects of climate change on the United States.

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Summary Findings

 

These Summary Findings represent a high-level synthesis of the material in the underlying report. The findings consolidate Key Messages and supporting evidence from 16 national-level topic chapters, 10 regional chapters, and 2 chapters that focus on societal response strategies (mitigation and adaptation). Unless otherwise noted, qualitative statements regarding future conditions in these Summary Findings are broadly applicable across the range of different levels of future climate change and associated impacts considered in this report.

 

1. Communities

Climate change creates new risks and exacerbates existing vulnerabilities in communities across the United States, presenting growing challenges to human health and safety, quality of life, and the rate of economic growth.

 

2. Economy

Without substantial and sustained global mitigation and regional adaptation efforts, climate change is expected to cause growing losses to American infrastructure and property and impede the rate of economic growth over this century.

 

3. Interconnected Impacts

Climate change affects the natural, built, and social systems we rely on individually and through their connections to one another. These interconnected systems are increasingly vulnerable to cascading impacts that are often difficult to predict, threatening essential services within and beyond the Nation’s borders.

 

4. Actions to Reduce Risks

Communities, governments, and businesses are working to reduce risks from and costs associated with climate change by taking action to lower greenhouse gas emissions and implement adaptation strategies. While mitigation and adaptation efforts have expanded substantially in the last four years, they do not yet approach the scale considered necessary to avoid substantial damages to the economy, environment, and human health over the coming decades.

5. Water

The quality and quantity of water available for use by people and ecosystems across the country are being affected by climate change, increasing risks and costs to agriculture, energy production, industry, recreation, and the environment.

6. Health

Impacts from climate change on extreme weather and climate-related events, air quality, and the transmission of disease through insects and pests, food, and water increasingly threaten the health and well-being of the American people, particularly populations that are already vulnerable.

7. Indigenous Peoples

Climate change increasingly threatens Indigenous communities’ livelihoods, economies, health, and cultural identities by disrupting interconnected social, physical, and ecological systems.

8. Ecosystems and Ecosystem Services

Ecosystems and the benefits they provide to society are being altered by climate change, and these impacts are projected to continue. Without substantial and sustained reductions in global greenhouse gas emissions, transformative impacts on some ecosystems will occur; some coral reef and sea ice ecosystems are already experiencing such transformational changes.

 

9. Agriculture

Rising temperatures, extreme heat, drought, wildfire on rangelands, and heavy downpours are expected to increasingly disrupt agricultural productivity in the United States. Expected increases in challenges to livestock health, declines in crop yields and quality, and changes in extreme events in the United States and abroad threaten rural livelihoods, sustainable food security, and price stability.

 

10. Infrastructure

Our Nation’s aging and deteriorating infrastructure is further stressed by increases in heavy precipitation events, coastal flooding, heat, wildfires, and other extreme events, as well as changes to average precipitation and temperature. Without adaptation, climate change will continue to degrade infrastructure performance over the rest of the century, with the potential for cascading impacts that threaten our economy, national security, essential services, and health and well-being.

 

11. Oceans & Coasts

Coastal communities and the ecosystems that support them are increasingly threatened by the impacts of climate change. Without significant reductions in global greenhouse gas emissions and regional adaptation measures, many coastal regions will be transformed by the latter part of this century, with impacts affecting other regions and sectors. Even in a future with lower greenhouse gas emissions, many communities are expected to suffer financial impacts as chronic high-tide flooding leads to higher costs and lower property values.

 

12. Tourism and Recreation

Outdoor recreation, tourist economies, and quality of life are reliant on benefits provided by our natural environment that will be degraded by the impacts of climate change in many ways.

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Categories
Faculty Spotlight News

GCC Director, Dr. William Hopkins, to deliver keynote speech at Graduate School Commencement ceremony on Dec. 14

From VT News
NOVEMBER 19

Judge Josiah Showalter Jr. ’84 and William Hopkins, professor of wildlife in the College of Natural Resources and Environment, will deliver the keynote addresses at Virginia Tech’s 2018 fall University and Graduate School Commencement ceremonies on Friday, Dec. 14.

Showalter will speak to undergraduate students at the University Ceremony, which begins with a procession at 10:30 a.m., and Hopkins will speak at the Graduate School Ceremony which begins with a procession at 2:30 p.m.

Both ceremonies will be in Cassell Coliseum. Students will be honored for completing their academic degrees at the end of the summer and fall terms at the two events.

Those seeking more information on the ceremonies should visit the Virginia Tech Commencement website.

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William Hopkins
William Hopkins

William Hopkins is a professor in the Department of Fish and Wildlife Conservation in the College of Natural Resources and Environment. He is also the founding director of the Global Change Center, as well as one of Virginia Tech’s largest Interdisciplinary Graduate Education Programs.

Hopkins’ research focuses on the effects of rapid environmental changes on the health of wildlife. He has published nearly 200 peer-reviewed manuscripts and his work is heavily cited in scientific literature. He is a frequent commentator for national news programs and provides input on important environmental issues to decision makers in Richmond and Washington, D.C.

Hopkins is the 2015 recipient of the Alumni Award for Research Excellence, has twice received the College’s Outstanding Faculty Award for undergraduate teaching, and in 2017 was honored with the Outstanding Graduate Student Mentor Award for his college. Over the past decade he has worked with colleagues to develop novel educational opportunities for students, including experiential learning requirements for his home department and a study-abroad course in the Amazon rainforest.

Hopkins holds a bachelor’s degree from Mercer University, a master’s degree from Auburn University, and Ph.D. from the University of South Carolina.

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Josiah Showalter Jr. '84
Josiah Showalter Jr. ’84

Josiah T. Showalter Jr. ’84 serves as chief judge for the 27th Judicial Circuit of Virginia and is an instructor of business law in the Pamplin College of Business at Virginia Tech.

Showalter received his bachelor’s degree in history from Virginia Tech. He received his juris doctor degree from Stetson University College of Law.

After receiving his law degree, Showalter worked as an attorney in the New River Valley. His practice dealt with issues ranging from criminal and civil litigation to real estate. Showalter was elected as commonwealth’s attorney for Montgomery County from 2000 to 2006.

In his current position as circuit court judge, Showalter presides over civil and criminal trials throughout the region. These include criminal and civil cases. Showalter currently serves as chief judge for the circuit, which includes the counties of Bland, Carroll, Floyd, Giles, Grayson, Montgomery, Pulaski, and Wythe, and the cities of Radford and Galax, Virginia.

Showalter was a former member and vice president of the Montgomery-Radford Bar Association, as well as on the judge’s panel for Criminal Continuing Legal Education (CLE) in Abingdon, Virginia, and Family Law CLE, Blacksburg, Virginia.

At Virginia Tech, Showalter teaches Legal & Ethical Environmental Business in the finance department for the Pamplin College of Business.

In addition to his work at the university and his judicial practice, Showalter has held leadership positions with various organizations, including the Montgomery County Cancer Society, the Legal Aid Society of the New River Valley, the Virginia Interfaith Childcare Center, and the Christiansburg Institute. He was also a member of the advisory committee on Rules of Court and currently serves as member of the Frank Page Scholarship Committee for Montgomery County, Virginia.

Showalter is married to Deborah X. Showalter ’91, M.A. ’94.  They have two children, AnnaKate and Tripp.

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CONTACT:
Mark Owczarski
540-231-5223

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Categories
Conservation Disease New Publications Research

Researchers discover how ‘cryptic’ connections in disease transmission influence epidemics

From VT News
NOVEMBER 19

Diseases have repeatedly spilled over from wildlife to humans, causing local to global epidemics, such as HIV/AIDS, Ebola, SARS, and Nipah.

A new study by researchers of disease transmission in bats has broad implications for understanding hidden or “cryptic” connections that can spread diseases between species and lead to large-scale outbreaks.

By dusting bats with a fluorescent powder that glows under ultraviolet light, Virginia Tech researchers Joseph Hoyt and Kate Langwig were able to trace the dynamics of disease transmission in bat species that have been devastated by white-nose syndrome, a deadly fungal disease that has killed 6.7 million bats in North America since 2006.

Their findings were recently published in the journal Nature.

“These results uncovered and quantified connections, both within and among species, that we never knew about before,” said first author Joseph Hoyt, who led the study as a UC Santa Cruz graduate student and completed the analyses at Virginia Tech as a research scientist in the Department of Biological Sciences in the College of Science.

“We had been seeing explosive epidemics where an entire bat population would become infected with white-nose syndrome within a month or two, and it was a mystery as to how that was happening. We are now able to more accurately explain and track the spread of white-nose syndrome, and our study has strong implications for predicting other epidemics,” Hoyt said.

When we think about who we might get sick from, we tend to think of our social groups: family, friends, and co-workers. But, we forget about that brief interaction with an employee at the DMV, a barista at a coffee shop, or shared airspace on public transportation. People are aware of these interactions, but not how important they are to the spread of epidemics. In the past, these types of hidden interactions have been poorly understood because they are so difficult to quantify.

Second author on the study, Kate Langwig, an assistant professor in the Department of Biological Sciences at Virginia Tech, said this study shows that infrequent and indirect connections, also called “cryptic” connections, among individuals play a far larger role in the transmission of disease than was previously understood.

“Cryptic connections are essentially pathways or connections between individuals that we wouldn’t normally be able to estimate or observe. They have largely been ignored by researchers in the past, but this study quantifies their importance. Our study creates an integrated model of social group connections and cryptic connections,” said Langwig, an affiliated faculty member of the Global Change Center, an arm of the Fralin Life Science Institute.

Coauthor A. Marm Kilpatrick, associate professor of ecology and evolutionary biology at UC Santa Cruz, noted that spillover events, when pathogens spread from wild animals to human populations, tend to occur through these kinds of cryptic connections. “We don’t normally appreciate how important they are except retrospectively, when we investigate outbreaks of diseases like Ebola or SARS,” he said.

“Our study has compelling implications that will allow researchers to track seemingly random or indirect connections in wildlife that may spill over to human populations,” said Langwig.

The fluorescent dust used in this study proved to be highly effective at revealing cryptic connections among the bats. The researchers conducted the study at eight hibernation sites, mostly abandoned mine tunnels, in the upper Midwest. Each site had as many as four species of bats using it. At the start of the study, the pathogen causing white-nose syndrome had not yet reached these populations.

The researchers first surveyed the bats and characterized their social networks, measuring direct physical contacts among bats hibernating together in groups, as well as additional connections made by bats moving between groups. Then, they applied the fluorescent dust to several bats in early winter, using a different color for each individual bat. In late winter, the researchers returned to see where each color of fluorescent dust ended up.

“We amassed huge data sets for every single bat in each population. We characterized the bats’ social groups, and also used the fluorescent dust to track their movements and contacts,” said Langwig.

The researchers found that “the spread of the dust mirrors how the fungal pathogen spreads, so we can see if a bat deposits dust somewhere in the environment and another bat passes through and picks it up. It also reveals infrequent direct contacts that we would not normally observe,” said Hoyt.

The fungal pathogen that causes white-nose syndrome arrived in the area after the fluorescent dust studies were conducted, and the researchers also tracked its spread at each site. They found that the actual transmission dynamics of the disease were better explained by the sum of all the connections revealed in the dust studies than by just using the hibernation social groups.

“We were able to explain the actual invasion of the pathogen much better by including those cryptic connections, and they were even more important for explaining transmission between species than for transmission within species,” Hoyt said.

Bats roosting
Image left: Northern long-eared bat roosting solitarily during hibernation. Image right: Little brown bat covered in UVF dust roosting in a group with other little brown bats. Images courtesy Joe Hoyt and Kate Langwig.

One of the puzzling features of white-nose syndrome is its ability to spread through a community of bats during the winter, when the animals are hibernating 99.5 percent of the time. They rouse from hibernation only very briefly every two to three weeks. Yet the dust studies showed that they move around enough to have many more connections than can be observed in their hibernation groups.

Most striking were the cryptic connections revealed for one species, the northern long-eared bat, which roosts by itself, not in groups. Although classical theory would predict low infection rates for this solitary species, it has been hard hit by white-nose syndrome.

“When we put fluorescent dust on the northern long-eared bat, it would show up on other species that we had never seen them interact with. We would never have predicted that the infection could spread by that route,” Hoyt said.

The researchers discovered that a different solitary species, the tri-colored bat, has a lower infection rate and showed less evidence of cryptic connections with other bats, but did transfer dust to surfaces in the sites where it roosts. “We found that the tri-colored bat is much more spatially segregated. It’s not that it doesn’t rouse and crawl around, it just does so in a range that has less overlap with other bats — it appears to be more territorial in its use of space,” Hoyt said.

Unfortunately for bats, the spores of the fungal pathogen that causes white-nose syndrome stay in the environment and remain infectious for years. Once the walls and ceiling of a cave have been contaminated with the spores, bats using the site for hibernation will be exposed to infections year after year.

White-nose syndrome is considered one of the worst wildlife diseases in modern times, having killed millions of bats across North America.

But white-nose syndrome does not appear to pose a risk to human health. It is caused by the fungus Pseudogymnoascus destructans, which grows optimally at low temperatures. The United States Geological Survey said, “Thousands of people have visited affected caves and mines since white-nose syndrome was first observed, and there have been no reported human illnesses attributable to white-nose syndrome. We are still learning about the disease, but we know of no risk to humans from contact with white nose-affected bats.”

The Virginia Tech and UC Santa Cruz researchers are part of a coordinated response to white-nose syndrome involving state and federal agencies, universities, and nongovernmental organizations.

In addition to Hoyt, Langwig, and Kilpatrick, the coauthors of the paper include Paul White, Heather Kaarakka, and Jennifer Redell at the Wisconsin Department of Natural Resources; Allen Kurta at Eastern Michigan University; John DePue and William Scullon at the Michigan Department of Natural Resources; Katy Parise and Jeffrey Foster at the University of New Hampshire; and Winifred Frick at Bat Conservation International and UC Santa Cruz. This work was supported by the National Science Foundation, U.S. Fish and Wildlife Service, and Bat Conservation International.

Hoyt and Langwig were hired as part of the Global Systems Science Destination Area in the College of Science at Virginia Tech to address issues of infectious disease. The Global Systems Science Destination Area is focused on understanding and finding solutions to critical problems associated with human activity and environmental change, that, together affect diseases states, water quality, and food production.

Written by Kristin Rose and Tim Stephens

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CONTACT:
Kristin Rose
(540) 231-6614
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Categories
Campus Seminar Announcements Conservation Research Seminars, Workshops, Lectures Water

Candidates for Fish Ecology Faculty position to present seminars on campus

[vc_row][vc_column][vc_column_text]The Department of Fish and Wildlife Conservation within the College of Natural Resources welcomes three candidates to campus in the coming weeks as part of the search to fill a new Fish Ecology Faculty position. Each will present a seminar during their visit, all of which have strong interdisciplinary research expertise in fisheries conservation and management. Seminar details and more information about the candidates available below.[/vc_column_text][vc_separator style=”shadow”][/vc_column][/vc_row][vc_row][vc_column][vc_column_text css=”.vc_custom_1542403040313{border-radius: 4px !important;}”]

DR. HOLLY KINDSVATER

Information from adaptation: using traits to conserve and manage fish and fisheries

Monday, November 26th

9:00 – 10:00 am in Fralin Hall Auditorium

[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column width=”1/3″][vc_single_image image=”26537″ img_size=”200×300″ alignment=”center” style=”vc_box_border”][/vc_column][vc_column width=”2/3″][vc_column_text]Dr. Holly Kindsvater is an Assistant Research Professor in the Department of Ecology and Evolutionary Biology of Rutgers University.

She studies the connection between life histories of fishes and their vulnerability to overfishing, particular in sex-changing fishes like groupers. Her research goal is to predict the consequences of female-first sex change for population demography and productivity, and how this interacts with fishery selectivity. Dr. Kindsvater’s inquiry expands to understanding how life history complexity interacts with fishing in other species, including salmon, tunas, and sharks and rays.

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DR. ANDRIJ HORODYSKY

Understanding the organism-environment interface in a changing world: a vision for the future of fisheries conservation and management at VT

Thursday, November 29th

9:00 – 10:00 am in Fralin Hall Auditorium

[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column width=”1/3″][vc_single_image image=”26538″ img_size=”200×300″ alignment=”center” style=”vc_box_border”][/vc_column][vc_column width=”2/3″][vc_column_text]Dr. Andrij Horodysky is an Assistant Research Professor of aquatic ecology in the Department of Marine and Environmental Science of Hampton University.

Dr. Horodysky is a broadly-trained aquatic ecologist with research interests centered on the ecophysiology, behavior, and conservation of fishes and other living marine resources affected by anthropogenic activities in the world’s aquatic habitats. He uses comparative interdisciplinary approaches that integrate laboratory and field techniques with tools ranging in scale from microscopes to satellites.

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DR. FRANCESCO FERETTI

(seminar title forthcoming)

Monday, December 3rd

9:00 – 10:00 am in Fralin Hall Auditorium

[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column width=”1/3″][vc_single_image image=”26539″ img_size=”200×300″ alignment=”center” style=”vc_box_border”][/vc_column][vc_column width=”2/3″][vc_column_text]Dr. Francesco Ferretti is a Basic Life Science Research Associate with the Hopkins Marine Station at Stanford University.

Dr. Ferretti is a quantitative and computational marine ecologist specialized in research synthesis. His scientific work is on marine conservation, fishery sciences, population dynamics, and quantitative ecology with a special interest in sharks and rays. Dr. Ferretti combines ecology, statistical modeling, and computer science to approach questions on animal abundance and distribution, species interactions, large marine predators, top-down control, structure and functioning of large marine ecosystems.

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Categories
Climate Change News

See how a warmer world primed California for large fires

From National Geographic
NOVEMBER 15BY ALEJANDRA BORUNDA

The state is just hotter and drier than it used to be, and that’s driving a trend toward larger fires.

Fires are natural in California: Many of its ecosystems, from the chaparral of Southern California to the northern pine forests, evolved to burn frequently. But since the 1980s, the size and ferocity of the fires that sweep across the state have trended upward. Fifteen of the 20 largest fires in California history have occurred since 2000.

KENNEDY ELLIOTT, NG STAFF. SOURCE: NOAA

The graphic above shows why: Most of the state’s hottest and driest years have occurred during the last two decades as well.

Over the past century, California has warmed by about three degrees Fahrenheit. That extra-warmed air sucks water out of plants and soils, leaving the trees, shrubs, and rolling grasslands of the state dry and primed to burn.

That vegetation-drying effect compounds with every degree of warming, explains Daniel Swain, a climate scientist at the University of California, Los Angeles, meaning that plants lose their water more efficiently today than they did before climate change ratcheted up California’s temperatures.

Because of this effect of climate change, wildfires are increasing in size, both in California and across the western U.S., says Park Williams, a fire expert at Columbia University. Since the 1980’s, he and a colleague reported in 2016, climate change contributed to an extra 10 million acres of burning in western forests— an area about the size of Massachusetts and Connecticut combined.

Changes in precipitation are another factor. California’s summer dry season has also been lengthening. Each extra day lets plants dry out more, increasing their susceptibility to burning.

“Usually—or, I don’t want to even say usually anymore because things are changing so fast—we get some rains around Halloween that wet things down,” says Faith Kearns, a scientist at University of California Institute for Water Resources in Oakland. But in the past few years, those rains haven’t come until much later in the autumn—November, or even December.

That may seem like a minor issue, but it has big effects. In the fall, California is often buffeted by whipping winds. So if a fire gets sparked, it can spread fast and hard. That’s what happened this year, as well as in last year’s Thomas fire.

“We’ve been lengthening fire season by shortening the precipitation season, and we’re warming throughout,” says Swain. “That’s essentially what’s enabled these recent fires to be so destructive, at times of the year when you wouldn’t really expect them.”

The total number of wildfires in California hasn’t increased; in fact the numbers were a lot higher in the 1980s and 1990s than in the past decade. The total acreage burned fluctuates considerably from year to year, depending on many factors, including luck: Rain dampens things down early, or fires start in places where they are easier to contain.

But climate change is driving a clear trend: When wildfires happen in California, they have a better chance of growing large and destructive.

“These same fires today are occurring in a world roughly three degrees Fahrenheit warmer than it would have been without warming,” says Williams. “Which means that the current fires are probably harder to fight than they would have been in a cooler world.”

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Categories
Blog Interfaces of Global Change IGEP Student Spotlight

IGC Seminar Reflection Series: A New Look on Leadership, by Bennett Grooms

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A New Look on Leadership
By Bennett Grooms  |  November 12,

Think about a time when you worked in a team or organization that succeeded and got things done. What was the role of leadership?  What skills and actions helped the group accomplish its goals? What happens when those leadership skills and actions aren’t present?  What role can you play to help the group succeed? The IGC fellows had the opportunity to discuss these questions and put their leadership skills to the test during a recent IGC seminar class.

Effective leadership can be more than just one person leading while others follow. The class discussed a new method of leadership presented by the Center for Creative Leadership, focused on three outcomes: direction, alignment, and commitment (DAC). The DAC model of leadership breaks the mold of the traditional “leader-follower” model. It applies to situations when no one has authority over all the stakeholders, such as when people work in different labs, departments, organizations, or nations. Leadership happens when members of a group 1) agree on what their vision and goals are (direction), 2) clearly understand their roles and objectives within the group (alignment), and 3) make the success of the group a priority (commitment). The class discussed the utility of the DAC model for conducting interdisciplinary research, because there is often no clear lead, but instead many strong personalities and competing ideas and motivations.

The class then discussed the characteristics of effective teams using the five keys to a successful Google team. Google researchers interviewed their employees to identify the key characteristics that describe successful teams, including providing psychologically safe work spaces and demonstrating the meaning and impact of the group’s work. The class was unsure on how easily some of the characteristics could be developed in team settings; while teams can work to provide psychologically safe environments, the class felt identifying the meaning and impact of work was placed more on the individual. Next, the class discussed active listening, a skill leaders and team members can use to improve the efficacy of their work. Thanks to some help from the communicating science center, the class was able to practice listening skills through several communication activities. For example, fellows divided into pairs and discussed their day by starting their sentence with the last word of the other person’s sentence.

Finally, the class learned a tool to provide meaningful and constructive feedback, the Situation-Behavior-Impact (SBI) model. The model provides an outline people can use to provide feedback, which includes defining the ‘where’ and ‘when’ of the situation you want to give feedback on, describing the specific behaviors you want to address, and using “I” statements to describe how the other person’s actions affected you and others. The class participated in another communicating science activity, where they worked in teams to develop infomercials for an imaginary product they made up. After their infomercials, the groups had the chance to use the SBI model to provide feedback on how the infomercial went and how they could have improved their work as a team.

We learned that leadership can take many forms. We can each lead from where we are and practice leadership skills that help the group gain direction, alignment, and commitment. Understanding the key components of leadership, and the skills and qualities of effective teams, is critical to our research, our careers, and addressing global change.

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Bennett Grooms is a 2nd year PhD student in the Department of Fish and Wildlife conservation, advised by Dr. Ashley Dayer. He is studying the human dimensions of wildlife recreationists in Virginia.

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Categories
biweekly update

Biweekly Update – November 15, 2018

New Announcements:

1. Virginia Community Garden Network Year End Wrap Up

2. 2019 VAFHP Conference – Blacksburg, VA – January 28-29, 2018

3. Western Reserve Herb Society: $10,000 National Horticulture Scholarship Available – Deadline: February 28, 2019

4. Hanover Master Gardener Training Course

5. Bedford Area Master Gardeners—Save the Date Grow The Good Life 2019, to be held March 9. 2019.  More information to come soon!

November Announcements:

6. 2018 Leadership Training dates & locations

  • November 15, Southeast District, James City County Rec Center, 5301 Longhill Rd, Williamsburg, VA 23188

While the training is over, you can view the agenda here:

December Announcements:

7. VCE Master Gardener Program 2018 Webinar Series, December 13, 2 018

8. Rescheduled – 2018 Waynesboro Tree Workshop – Waynesboro, VA – December 6, 2018

January Announcements:

9. Save the Date: VAFHP 2010 Annual Conference – Blacksburg, VA – January 28-29, 2019

10. Interested in judging at fairs and festivals?

February Announcements:

11. Save the Date: Spring to Green – Danville, VA – February 2, 2019

12. Save the Date: EcoSavvy Symposium – February 16, 2019 – Registration will open in early December

  • Balancing Form and Function in the Garden: How to Meld Beautiful and Sustainable Natives with Favorites from Around the World 

April Announcements:

13. Horticultural Horizons – Chesterfiled County, VA – April 30, 2019

Other Announcements:

14. Follow the State Office on social media:

15. National EMG Coordinator’s Webinar Recordings

16. Save the date for 2019 Master Gardener College!

  • September 19-22, 2019, Norfolk, Virginia

17. Pollinator Survey with Oregon State University

18. Application for 2019 Master Gardener Training – Washington, VA