Monday, August 7, 2017

Solar eclipse adds cosmic spin to Emory orientation

“It’s a strange coincidence that the moon at its distance and size almost perfectly covers the sun at its distance and size,” says Emory physicist Sidney Perkowitz. “It makes you stop and wonder — is it just a coincidence? Some people call an eclipse a religious experience. I call it cosmic.” (NASA photo)

By Carol Clark

The Emory University class of 2021 already has a unique distinction: The campus orientation day for the first-year students will occur beneath a nearly total solar eclipse. From about 2:38 to 2:41 pm on Monday, August 21, the moon will cover 97.7 percent of the sun over Atlanta.

A couple of solar telescopes will be set up on the roof of the Mathematics and Science Building between 1 and 4 pm for staff, faculty, students and their family members who want to observe the sun through them — weather permitting. But a pair of certified solar eclipse glasses, a simple pinhole camera — or even the leaves of a tree — will also make it possible to safely view the eclipse anywhere on campus where the sun is visible.

Emory first-year students plan to gather on the Quad between 2:15 and 3 pm for eclipse watching. At the Oxford campus, first-year students will gather in front of the Oxford Science Building starting at 2 pm where there will be music, a solar telescope and sun-themed snacks and drinks. The Emory Police Department will also host group eclipse viewing on the field of the Student Activity and Academic Center at the Clairmont Campus. All students, faculty and staff are welcome to attend these events.

Atlanta Science Tavern has also compiled this list of solar eclipse events in and around Atlanta. 

A total solar eclipse will sweep across a 70-mile-wide area of the United States, starting on the Pacific coast of Oregon and continuing all the way to South Carolina and the Atlantic Ocean. Even though Atlanta lies just beyond the path of totality, if the weather is clear the near-total eclipse will be worth pausing from work or school to go outside and experience.

To begin with, it’s rare. The last time the sun over Atlanta was nearly obscured by the moon was on May 31, 1984, when it was 99.7 percent covered. The New York Times described what happened as the skies began to darken about 20 minutes after noon: “The temperature dropped six degrees, flowers closed their petals, dogs howled, pigeons tucked their heads under their wings as if to sleep and the whole city was bathed in a kind of diffused light, not unlike that accompanying the approach of a severe storm.”

Emory senior  Raveena Chhibber tests out a pair of solar eclipse glasses. The neuroscience and behavioral biology major is on campus this summer working in a psychology lab and plans to take a break to witness the celestial event.

Sidney Perkowitz, Emory emeritus professor of physics, was on campus that day in 1984. He stood outside near the old physics building, now Callaway Hall, beneath a large white oak on the Quad.

“I remember a lot of people came out on the Quad, particularly around this tree,” he says. “It was a joint social experience.”

The darkening effect as the moon began to cover the sun was “eerie,” he says. “It didn’t feel exactly like twilight, it felt like something weirder was going on. It just seemed abnormal.”

Perkowitz watched the light as it passed through the leaves of the tree. “As the ambient light gets reduced, you begin to see multiple images of the crescent sun on the ground below,” Perkowitz says, explaining that each tiny space between the leaves acted as a pinhole-like opening, similar to a camera. “It’s spectacular because you see dozens and dozens of the images, filtered through the leaves.”

Aristotle observed this same phenomenon beneath a tree during a solar eclipse in the fourth century BC. The Greeks were debating at the time whether light moves in straight lines. The projection of the image of the sun through the leaves was evidence that it does, although the principles behind it would remained unresolved for nearly 2,000 years.

The white oak that Perkowitz stood beneath 33 years ago was struck by lightning in 2016 and is no longer there. There are plenty of other trees on campus, however, where eclipse watchers can stand to experience the event.

"An eclipse is a chance to stop and perceive and reflect," says Emory astronomer Erin Bonning. "It proceeds slowly and deliberately, which is not exactly the pace of modern society." (NASA graphic)

Or you can make your own pinhole projector by poking a hole in a piece of cardboard. NASA provides directions and some templates. During the eclipse, you stand with your back to the sun and hold up the cardboard so that light passes through it and hits a wall, the ground or a piece of paper that you hold up to capture a projection of the image of the sun.

Sunglasses do not provide enough protection to look directly at the sun at any time during a partial eclipse. You need special solar viewing glasses, which are available free at Fulton County libraries or can be purchased online. Beware of fakes — the American Astronomical Society provides guidance to help ensure that solar glasses are certified and safe to wear.

Horace Dale, director of the Emory Observatory, will have a limited number of solar-viewing glasses available and will set up two solar telescopes between 1 and 4 pm on the roof of the Mathematics and Science Center — if the weather holds. Take the elevator to the fifth floor of the building and follow the signs to get to the rooftop.

“If it’s just partly cloudy, we should be able to see through the breaks in the clouds,” Dale says. But even the threat of a storm, he adds, will mean having to pack up the expensive equipment to avoid it getting damaged by rain.

The special filters on the solar telescopes will make it possible to directly view the sun safely. “You’ll be able to see the filamentary structure of the sun and any flare activity on the edge of the sun,” Dale says. “There might even be a few planets that pop out.”

An Atlanta native, Dale experienced a partial eclipse here in 1970 when he was six. “I remember my dad telling me not to look at the sun,” he says. “It was a really interesting experience for me.”

Which is why Dale has already explained to the teachers of his son Joey, six, and his daughter Emma, five, that his children will not attend school on August 21. Instead they will be getting an eclipse lesson from their father. Their mother, Jessica, will also be present. A dental hygienist, she has the day off since the dentist is heading for the path of totality and will close the office.

Psychology graduate student Katy Renfroe will pause from working on her thesis to observe the partial eclipse on campus.

Astronomer Erin Bonning, director of the Emory Planetarium, will be in Clayton, Georgia — in the path of totality — during the eclipse. She will be giving a presentation for Goizueta Business School’s orientation of incoming Emory juniors at a retreat center in north Georgia. The BBA class of 2019 not only holds the distinction of being Goizueta Business School’s 100th-anniversary class — it enjoys the bonus of entering orientation with great timing in a great location.

“This will be my first total solar eclipse and I’m excited,” Bonning says. She quickly adds: “I’m cautiously excited because all astronomers know that when something really big is about to happen you don’t want the clouds to hear you talking about it. Clouds are the great enemies of astronomers.”

When Bonning was in fifth grade, in Maryland, she had fervently anticipated a near total-eclipse event. When the big moment finally arrived, it was cloudy and rainy.

She did get to witness a lunar eclipse in Atlanta around 5 am on October 8, 2014. “I got up early and walked around downtown to find a good view,” she says. “It’s breathtaking to see the Earth cast a shadow in space and the moon pass through it. It’s one thing to write down an equation for curving space time, but when you see a visual illustration of these facts it’s so much more moving. It made me feel connected to the universe.”

A woman standing near her during the lunar eclipse had a different reaction. “She said, ‘Huh. I thought it would be more impressive than that,’” Bonning recalls. “I took a deep breath and held my tongue.”

The August 21 solar eclipse is particularly special since the path of totality will stretch from sea to shining sea, across the United States. “It’s unusual because it’s taking place over such a large inhabited stretch of land,” Bonning says. “The last time we had such a grand solar eclipse across America was a century ago.”

Following are Bonning’s tips for observing the solar eclipse, whether you stay in Atlanta or travel to totality.

Plan your activity. “Don’t just hop in the car on August 21 and spontaneously head for the path of totality, or you’re going to see a partial eclipse in a traffic jam,” Bonning says. You can read more about traffic predictions here.

Don’t worry about height. “You don’t need to go to the top of a mountain or the top of a building,” Bonning says. “If you can see the sun, you can see the eclipse. It’s not like getting closer to it will give you a better view.”

Manage your expectations. “While it will be extremely cool to see the eclipse, it’s not going to look like a dragon came out of the sky and devoured the sun. That’s a myth,” Bonning says. “An eclipse is a chance to stop and perceive and reflect. It proceeds slowly and deliberately, which is not exactly the pace of modern society.”

Be in the moment. If you’re not an expert at photographing eclipses, forget trying to get the perfect selfie for social media. “You’ll be better off being open to the experience,” Bonning says. “Observe shifts in the light. Feel the temperature drop. You may notice animals behaving differently.”

Make it a fun, educational experience for kids. While you need to emphasize to young children the importance of not staring directly at the sun with the naked eye during the eclipse, you can do so in a fun way that helps them understand why. Bonning recommends parents visit this Planetary Society site, which includes directions for how to make pinhole projectors, including ones in fancy, pinhole-punched shapes.

“We’re very lucky on Earth,” Perkowitz says. “We have the largest moon of all the planets and it has all kinds of connections to love and romance and poetry. And on top of that, it has this amazing alignment with the sun that provides this incredible sight every so often.”

The moon is only a quarter of a million miles away and much smaller than Earth, he notes, while the sun is 93 million miles distant and is huge — far bigger than all of the planets in the solar system put together.

“It’s a strange coincidence that the moon at its distance and size almost perfectly covers the sun at its distance and size,” Perkowitz says. “It makes you stop and wonder — is it just a coincidence? Some people call an eclipse a religious experience. I call it cosmic.”

Thursday, August 3, 2017

Why plants represent untapped potential for innovative drug discovery

Northeastern chemistry graduate student John de la Parra poses with an aloe plant. He is collaborating with Emory ethnobotanist Cassandra Quave to explore the medicinal properties of plants. Photo by Matthew Mondoono/Northeastern University.

By Allie Nicodemo,
Northeastern University

The field of medicine has come a long way from using heroin as a cough remedy or magnet therapy to improve blood flow. These outdated methods were put to bed decades ago. But there are plenty of ancient medicinal practices that have stood the test of time. In fact, many of the life-saving pharmaceuticals we rely on today are derived from plants first discovered by indigenous communities.

Ethnobotany is the scientific study of traditional plant knowledge. It’s what gave us morphine, aspirin, and ephedrine, to name a few. And there is still untapped potential.

In a new paper published by Trends in Biotechnology, Northeastern University doctoral candidate John de la Parra and Emory University medical botanist Cassandra Quave described a new field called ethnophytotechnology. It’s the use of plant biotechnology to improve the plant-based drug discovery pipeline.

“New production, engineering, and analysis methods have made it easier to meet scientific challenges that have confronted traditionally used plant-derived medicines,” says de la Parra, who is earning his doctorate in chemistry. “It is our hope that as the field expands, rich troves of indigenous knowledge can find prominence within innovative drug discovery and production platforms.”

Quave and de la Parra are examining the vast opportunities for ethnobotany and ethnophytotechnology to promote new drug discovery and solve health challenges.

Read the full story about their recent paper on the Northeastern news site.

Brazilian peppertree packs power to knock out antibiotic-resistant bacteria

Tuesday, July 25, 2017

What UFO conspiracy theories reveal about American culture

Last spring, historian Felix Harcourt taught a class at Emory on how conspiracy theories about UFOs have shaped American culture. He began the class with a question: “How many people believe alien life exists?”

Most people in the class raised their hand. “I think so, too,” Harcourt said. “Stephen Hawking thinks so. In a giant universe there is a distinct probability that somewhere alien life has evolved. It probably looks pretty different from us, but it might be out there.”

But what about the idea that aliens have visited Earth? And stories of human complicity in those visits — usually of government complicity?

The multitude of UFO conspiracy theories are considered laughable and serious discussion of them is labeled as a cultural taboo, Harcourt said. “Even as they are treated as laughable, they’re some of the most widely believed conspiracy theories. If we go back to the sixties, Gallup polls find 96 percent of Americans had heard of UFOs, 46 percent believed that they were real. By 1973, 57 percent believed that UFOs were real. By the nineties, 71 percent believed that the government was at least hiding information about UFOs: 'They may or may not be real, but there’s definitely more going on there than the government is letting us know.' And those numbers remain relatively stable.”

A 2015 poll showed that 56 percent of American believe that UFOs are real and 45 percent believe aliens have visited Earth. “To put that into context,” Harcourt said, “in that same survey, 57 percent said that the Big Bang theory was real.”

Harcourt goes on to discuss how various UFO conspiracy theories in the 20th century have changed, often paralleling societal anxieties at the time. Click here to watch the entire class on C-SPAN’s lectures in history series.

Harcourt taught the class as part of a course, “Politics and Paranoia,” while he was a post-doctoral fellow at Emory’s Fox Center for Humanistic Inquiry.

Wednesday, July 19, 2017

Atlanta BeltLine benefits people and pollinators

Volunteers at work planting native flora along the Atlanta BeltLine walking and biking trail. (Photo by Trees Atlanta).

Judith Moen writes in Ensia Magazine about how the Atlanta BeltLine is serving as a model for the future of urban green space, driving economic, cultural and environmental renewal. Below is an excerpt from the article:

"Efforts to clean up 1,100 acres of contaminated brownfields and plant more than 3,000 indigenous trees and grasses are bringing back biodiversity not seen in decades.

"'The native plantings they have done had a tremendous positive impact,' says Berry Brosi, associate professor of environmental sciences at Emory University. 'We found enormous areas in terms of pollinator abundance.'

In fact, an unpublished study Brosi conducted found on average three times as many bee species and five times as many bees in pollinator planting sites along the BeltLine than in mowed grass.

'I noticed for the first time in my backyard, we are seeing bees, butterflies, even fireflies, which is different than four years ago,' says Chad Ralston, who lives nearby and bikes almost daily."

Read the whole article in Ensia.

Pollinator extinctions alter structure of ecological networks
The top 10 policies needed now to protect pollinators

Thursday, June 22, 2017

Mouse study suggests how hearing a warning sound turns into fearing it over time

Fluorescent tagging shows the perineuronal nets (in red) surrounding neurons (in green) of mice. Emory researchers identified a role these nets play in "capturing" an auditory fear association.

By Carol Clark

The music from the movie “Jaws” is a sound that many people have learned to associate with a fear of sharks. Just hearing the music can cause the sensation of this fear to surface, but neuroscientists do not have a full understanding of how that process works.

Now an adult mouse model reveals that changes in lattice-like structures in the brain known as perineuronal nets are necessary to “capture” an auditory fear association and “haul” it in as a longer-term memory. The journal Neuron published the findings by scientists at Emory University and McLean Hospital, a Harvard Medical School affiliate.

The findings could aid research into how to help combat veterans suffering from post-traumatic stress disorder (PTSD).

“We’ve identified a new mechanism — involving the regulation of perineuronal nets in an adult auditory cortex — that contributes to learning an association between an auditory warning and a fearful event,” says Robert Liu, a senior author of the study and an Emory biologist focused on how the brain perceives and processes sound. “It’s surprising,” he adds, “because it was previously thought that these perineuronal nets did not change in an adult brain.”

Another novel finding by the researchers: It’s not just activity in the auditory cortex during a fear-inducing experience associated with sound, but after the experience that is important for the consolidation of the memory.

“What is unexpected is that this brain activity was not in direct response to hearing the actual sound, since animals were just sitting in a quiet room during that period,” Liu says. “This finding could fit with an idea that’s been around for some time, that the way your brain consolidates memories of your day’s experiences is by replaying the events after they have happened.”

The amygdala — a region of the brain located within the temporal lobes — has long been tied to learning what stimuli can trigger emotional reactions such as fear. More recent studies have shown the firing of circuits in the auditory cortex during a threatening sound also play a role in learning what signals should set off a fear reaction.

The auditory part of the brain goes from the ear and cochlea through several stages to reach the auditory cortex — the highest neural processing level for sounds.

Perineuronal nets (PNN) are extracellular lattices that surround and stabilize neurons. During childhood development they have plasticity. “When they eventually mature, they crystalize, locking down the anatomy around the neurons and forming a kind of scaffold,” Liu says. “It’s been thought that these nets remained largely stable in adulthood.”

The mice used in the current research were trained to associate the sound of a tone with a mild shock. The animals eventually would freeze when they heard the sound, in anticipation of the mild shock. Days later, they continued to freeze at the sound even when the shock no longer followed it. The researchers found that, after the fear-association experience, a transition period lasting about four hours occured in which the PNN in the rodents’ auditory cortex changed to become stronger.

“We speculate that the strengthening of these nets — just like during development — may be putting a brake on further neural plasticity and ‘locking in’ the fear association before other sound experiences interfere with the memory,” Liu says.

When some mice in the study were given an enzyme that dissolved the PNN in the auditory cortex, they stopped remembering to freeze at the sound of the tone. “We essentially removed these nets and that appeared to prevent the fear association from consolidating in the memory, so it fell away faster,” Liu says. “It’s counterintuitive. Before we would have thought if we removed the PNN it would have increased the potential for learning the fear association by increasing the plasticity of the neurons.”

Such research could aid in the development of an intervention for PTSD. “It suggests that there may be a window of time after someone experiences a trauma that you could give them a drug to silence activity in a particular area of the brain,” Liu says. “That might prevent them from consolidating a particular traumatic memory.”

The findings also add to data about how the brain learns in general, and the relationship between receiving new information and a critical time period needed to consolidate it, he says.

First author of the study is Sunayana Banerjee, who conducted the research while she was a post-doctoral fellow at Emory. Co-senior author is Kerry Ressler – a psychiatrist focused on PTSD who was formerly with the Yerkes National Primate Research Center and Emory University and is now at Mclean Hospital and Harvard Medical School. Co-authors include research specialist Hadj Aoued and Emory undergraduates Vanessa Gutzeit, Justin Baman and Nandini Doshi. The research was supported by the National Institutes of Health grants R21MH102191 and R01DC008343 and the Office of Research Infrastructure Programs’ Primate Centers P51OD11132.

Sensory connections spill over in synesthesia
Uncovering secrets of sound symbolism

Wednesday, June 21, 2017

Pollinator extinctions alter structure of ecological networks

On the wings of National Pollinator Week, a new study by Emory biologist Berry Brosi gives insights into the dynamics of plant-pollinator interactions.

By Carol Clark

The absence of a single dominant bumblebee species from an ecosystem disrupts foraging patterns among a broad range of remaining pollinators in the system — from other bees to butterflies, beetles and more, field experiments show.

Biology Letters published the research, which may have implications for the survival of both rare wild plants and major food crops as many pollinator species are in decline.

“We see an ecological cascade of effects across the whole pollinator community, fundamentally changing the structure of plant-pollinator interaction networks,” says Berry Brosi, a biologist at Emory University and lead author of the study. “We can see this shift in who visits which plant even in pollinators that are not closely related to the bumblebee species that we remove from the system.” 

If a single, dominant species of bumblebee mainly visits an alpine sunflower, for instance, other pollinators — including other species of bumblebees — are less likely to visit alpine sunflowers. If the dominant bumblebee is removed, however, the dynamic changes.

“When the sunflowers became less crowded and more available, a broader range of pollinators chose to visit them,” Brosi says.

The field experiments, based in the Colorado Rockies, also showed that the removal of a dominant bumblebee species led to fewer plant species being visited on average.

“That was a surprise,” Brosi says. “If a nectar resource is abundant and highly rewarding, more types of pollinators will go for it, leaving out some of the rarer plants that some of the other pollinator species normally specialize in.”

The findings are important since most flowering plants and food crops need pollinators to produce seeds.

“Basically, for almost every pollinator group that we have good data for, we’ve seen declines in those pollinators,” Brosi says. “The results of our field experiments suggest that losses of pollinator species — at a local population level or on a global, true extinction scale — are likely to have bigger impacts on plant populations than previously predicted by simulation models.”

The experiments were done at the Rocky Mountain Biological Laboratory near Crested Butte, Colorado. Located at 9,500 feet, the facility’s subalpine meadows are too high for honeybees, but they are filled with a variety of bumblebees and other pollinators.

The study included a series of 20-meter-square wildflower plots. Each was evaluated in a control state, left in its natural condition, and in a manipulated state, in which bumblebees of just one species had been removed using nets. The bumblebees were later released unharmed when the experiments were over.

The work built on 2013 research led by Brosi that focused on bumblebees and one target plant species, alpine larkspur. That study showed how removing a bumblebee species disrupted floral fidelity, or specialization, among the remaining bees in the system, leading to less successful plant reproduction.

For the current paper, the researchers looked at a system of more than 30 species of pollinators and their interactions with 43 plants species.

“There’s been a lot of observational research done on plant-pollinator networks,” Brosi said. “One of the general findings is that they have a really consistent structure. That tends to hold true almost irrespective of ecosystem and geographic area, from the northeastern coast of Greenland to tropical rainforests.”

Mathematical simulation models have suggested that plant-pollinator networks would have good resiliency if there is an extinction in the system, based on the assumption that the network structure would remain consistent.

“Our experiments show that this assumption is not tenable,” Brosi says. “These networks are dynamic and when a pollinator species is missing, we’re going to see both qualitative and quantitative changes. Future simulation models need to incorporate ecological processes like competition that can shape which pollinators interact with which plants.”

Co-authors of the study are Kyle Niezgoda, who worked on the project as an undergraduate in Emory’s Department of Environmental Sciences, and Heather Briggs of the University of California, Santa Cruz.

Bees 'betray' their flowers when pollinator species decline
The top 10 policies needed now to protect pollinators

Monday, June 19, 2017

Mutant mosquitos make insecticide-resistance monitoring key to controlling Zika

"You can't stop evolution," Emory disease ecologist Gonzalo Vazquez-Prokopec says, explaining that it is a natural process for mosquitos to mutate in response to insecticides. (CDC photo by James Gathany)

By Carol Clark

One of the most common insecticides used in the battle against the Aedes aegypti mosquito has no measurable impact when applied in communities where the mosquito has built up resistance to it, a study led by Emory University finds.

The study is the first to show how vital insecticide-resistance monitoring is to control the Aedes mosquito — which carries the viruses that cause Zika, dengue fever and yellow fever.

The journal PLoS Neglected Tropical Diseases published the research.

“The results are striking,” says Gonzalo Vazquez-Prokopec, a disease ecologist at Emory and first author of the study. “If you use the insecticide deltamethrin in an area with high-deltamethrin resistance, it’s the same as if you didn’t spray at all. It does not kill the Aedes aegypti mosquitos. The efficacy is not different to a control.”

The results of the randomized, controlled trial are important because some public health departments in places where Zika and dengue viruses are endemic do not necessarily monitor for insecticide resistance.

“The recent epidemic of the Zika virus has raised awareness that we need to focus on what really works when it comes to mosquito control,” Vazquez-Prokopec says. “The data from our study makes a bold statement: Any mosquito-control program involving spraying insecticides needs to be based on knowledge of the current levels of insecticide-resistance of the local mosquitos.”

It is not difficult to determine levels of insecticide resistance, he adds. Public health workers can use standardized bioassays to coat a bottle with an insecticide in a specific dose. They can then introduce mosquitos from the area to be monitored into the bottles and observe the number of them killed after 24 hours.

The current study — conducted in three neighborhoods of Merida, Mexico — measured the efficacy of indoor residual spraying against adult Aedes aegypti mosquitos in houses treated with either deltamethrin (to which the local mosquitos expressed a high degree of resistance) or bendiocarb (another insecticide to which the mosquitos were fully susceptible), as compared to untreated control houses.

The bediocarb-treated areas showed a 60-percent kill rate for Aedes aegypti mosquitos during a three-month period, while the deltamethrin-treated areas and the control areas showed no detectable impact on the mosquitos.

A research technician sprays the ceiling and walls of a home in Merida, Mexico, as part of the first study to show how vital insecticide-resistance monitoring is to control a mosquito that can spread the Zika virus. (Photo by Nsa Dada)

It’s a natural biological process for mosquitos to mutate in response to insecticide exposure, Vazquez-Prokopec says. These mutations can occur at the molecular level, preventing the insecticide from binding to an enzymatic target site. They can also happen at the metabolic level — when a mosquito’s metabolism “up regulates” the production of enzymes that can neutralize the toxic effects of an insecticide.

“Both mechanisms can occur in the same mosquito,” Vazquez-Prokopec says, “making insecticide resistance a challenging and fascinating problem.”

Even more worrying are so-called “super bug” mosquitos, that show resistance to more than one insecticide.

“You can’t stop evolution,” Vazquez-Prokopec says. “That’s why it’s important for countries to have resistance-monitoring systems at both local and national levels to help manage the use of insecticides more efficiently and effectively.”

For the past 20 years, there has been a rise in resistance to insecticides in mosquitos, particularly in the Anopheles genus, some of which transmit the malaria parasite. Anopheles mosquitos only bite between dusk and dawn, so the use of bed nets in areas where malaria is endemic have long been a method to reduce the opportunity for mosquitos to transmit malaria.

More than a decade ago, bed nets treated with pyretheroids — a class of pesticides that includes deltamethrin — were rolled out in Africa in a big way to fight malaria. Pyretheroids are commonly used because they are odorless, cheap, long-lasting and have low mammalian toxicity.

The widespread use of insecticide-treated bed nets eventually led to a rise in resistance to pyretheroids by the Anopheles mosquito. The nets, however, still provide a physical barrier between people and mosquitos so they retain some benefit.

A similar rise in resistance is being seen in the Aedes mosquito in some areas. But the Aedes mosquitos bite during the day, making bed nets ineffective and insecticide spraying campaigns more critical to their control.

Previous research led by Vazquez-Prokopec showed that contact tracing of human cases of dengue fever, combined with indoor residual spraying for Aedes mosquitos in homes, provided a significant reduction in the transmission of dengue during an outbreak.

The insecticide-resistance study adds to the growing body of knowledge of what works — and what doesn’t — to control the Aedes mosquito in order to lessen the impact of a mosquito-borne disease outbreak, or to prevent one altogether.

“We’re always going to be chasing the problem of insecticide resistance in mosquitos, but the more data that we have — and the more tools we have in our arsenal — the more time we can buy,” Vazquez-Prokopec says.

Co-authors of the study include scientists from Mexico’s Autonomous University of Yucatán, where Emory has a long-standing collaboration. The work was funded by the Emory Global Health Institute and Marcus Foundation, the Centers for Disease Control and Prevention, Mexico’s CONACYT and the National Health Medical Research Council.

Contact tracing, with indoor spraying, can curb dengue outbreak
Zeroing in on 'super spreaders' and other hidden patterns of epidemics

Thursday, June 15, 2017

To boldly go where public health hasn't gone before

"Hopefully, Emory will make a mark in NASA history," says Yang Liu, associate professor of environmental health. (NASA photo)

From Rollins Magazine

Rollins School of Public Health researchers will soon take their research into orbit, partnering with the National Aeronautics and Space Administration (NASA) in a new satellite mission to study air pollution.

NASA chose Rollins as a joint recipient of its $100 million award — $2.3 million of which will come to Rollins — to study the effects of air pollution on the population through a satellite mission, according to Yang Liu, associate professor of environmental health. He noted that this is the first time a NASA space mission has incorporated a public health component.

"We're the scientific guinea pig," Liu said.

The Rollins research group, led by Liu, co-created the project idea with NASA's Jet Propulsion Laboratory (JPL). The mission will construct and use a Multi-Angle Imager for Aerosols (MAIA) device to record airborne particulate matter, which will collect data on the effects of pollution on public health from at least 10 locations with major metropolitan areas.

Once constructed by JPL, the MAIA device will be mounted on a compatible Earth-orbiting satellite. "Even though it's a small mission, it's actually the first ever in which we get to work with NASA engineers to build public health into the DNA of this instrument," Liu said.

The Rollins team will analyze the data to make predictions about public health issues such as birth outcomes and cardiovascular disease. The team will also serve as the public health liaison between JPL and other institutions in the complete research group. Recruited by Liu, the complete group has teams at University of California, Los Angeles, Harvard University, University of British Columbia, and University of Dalhousie.

Because the device will orbit via satellite, it will provide a more holistic view of air pollution data than the commonly used ground monitors.

"It's very difficult to cross to a completely different scientific community and convince them that this mission is not only worthwhile but also feasible," Liu said. "Hopefully, Emory will make a mark in NASA history."

Georgia Climate Project creates state 'climate research roadmap'

Wednesday, June 14, 2017

A disarming comedian interviews an Emory psychologist loaded with facts about the brain

Comedian Jordan Klepper, center, takes a break from filming in the Emory psychology department. He interviewed Emory psychologist Stephan Hamann, left, about the brain science involved in trying to understand the U.S. political divide and culture wars. (Photo by Carol Clark)

By Carol Clark

Why do some people have a liberal mindset while others seem set on conservatism? And what makes it so difficult to find common ground? Those are some of the questions explored in a one-hour special, “Jordan Klepper Solves Guns,” which aired recently on Comedy Central.

Comedian Jordan Klepper and a camera crew came to the Emory campus last October to film part of the program in the Department of Psychology. Klepper interviewed psychologist Stephan Hamann about his research into how the brain may influence whether people are on one end of the political spectrum or the other, and how we might use this knowledge to better understand one another. 

“People develop their beliefs over a lifetime,” Hamann explains, “and when you tell them something that they feel challenges those core beliefs, they can have a threat response and just shut down. Brain research shows how they stop processing information on a rational level and begin operating on a more emotional level. Of course, that’s the exact opposite of what you want them to do.”

The best way to try to discuss an idea that counters someone’s convictions is to go slow and lay the ground work, he adds. “You have to be as empathetic and compassionate as possible. That’s the first step. You have to earn someone’s trust before you jump to the argument.”

Klepper also underwent an fMRI scan of his own brain in Emory’s Facility for Education and Research in Neuroscience (FERN).

“The program did a good job of conveying a little bit of the science involved in brain imaging,” Hamann says. “These are challenging times, so it’s gratifying to be part of something aiming 5o help Americans find common ground. I like the way the program ended on a positive note, trying to get people to connect up with the political process.”

If you missed the broadcast, you can watch it on Klepper’s web site,

Tuesday, June 13, 2017

The neuroscience of learning across borders

Brains without borders: Emory Laney Graduate School student Charlie Ferris, from psychologist Stephan Hamann's lab, poses with a brain sculpture at the Institute of Neurobiology in Querétaro, Mexico, during the recent Binational Mechanisms of Learning Forum. (Photo by COMEXUS) 

By Carol Clark

Jessica Dugan sits at a computer in the Emory University psychology department in Atlanta, training a rhesus monkey in a lab at a university in Querétaro, Mexico, on the concept of transitive inference. 

She watches the monkey in real-time on her screen. With a few clicks on her keyboard she can present the monkey with random images on a computer attached to its cage and see which image it chooses. The monkey is automatically rewarded with food pellets for correct choices. Eventually, the monkey begins to grasp that the computer “game” is based on a concept of transitive inference — the idea of a hierarchy based on a shared property.

“It’s pretty cool,” Dugan says. “As long as there’s a wi-fi connection, we can remotely put a monkey on task and conduct a training exercise or an experiment. Technology can make collaboration across countries a lot easier.”

The joint project between Emory and the National Autonomous University of Mexico (UNAM) Institute for Neurobiology is just one more in a series of doors opening for Dugan, leading to new ways of learning science and conducting research.

She entered Emory’s Laney Graduate School under the mentorship of psychologist Patricia Bauer, who focuses on human development of memory from infancy through childhood. Dugan is particularly passionate about designing and conducting experiments with children to get at some of the key questions surrounding metacognition — introspection about thought processes.

“Basically, I’m interested in how someone thinking about thinking may be able to improve their ability to learn new information,” she explains. “Self-generation of new knowledge is something that we use every day. It’s a process that’s critical to success in education and beyond.”

Dugan is simultaneously working with rhesus monkeys in the lab of Emory psychologist Robert Hampton. “Studying the cognition of the relatives of our earliest ancestors may help us understand if there was some evolutionary demand that led to us being able to perform certain cognitive tasks,” she says.

And now she’s broadened her horizons by working across countries through the UNAM collaboration.

In May, Dugan was part of a group of 15 Emory graduate students who traveled to Mexico for the UNAM Binational Mechanisms of Learning Forum. The forum was the capstone of a year-long graduate seminar held at both Emory and UNAM called “Mechanisms of Learning Across Species and Development.”

Emory psychologist Patricia Bauer, left, listens as Maria Jose Olvera, a graduate student from the Institute of Neurobiology, explains her research. (Photo by COMEXUS)

“It was an amazing experience,” Dugan says of the nearly week-long forum. “The neuroscience they are doing in Mexico is impressive. It makes me wonder why in the United States we tend to mainly focus on science done here or in Europe. It was as though I was watching a documentary about the cosmos and someone started describing our place on Earth and the camera zoomed out so you realized how small that we are. The Mexico forum gave me a much more universal perspective.”

“We want our students to have an international appreciation for science, so they’re not so America-centric,” Bauer says. “There are lots of things to learn from other parts of the world.”

Bauer co-taught the Mechanisms of Learning seminar in Atlanta this year with Emory psychologist Joseph Manns, and both also traveled to Mexico to participate in the forum. 

Meanwhile, Hampton co-taught the seminar to graduate students in Mexico with UNAM neuroscientist Hugo Merchant, who also researches rhesus monkeys. Hampton is on sabbatical from Emory and has been living in Querétaro and working at the Institute of Neurobiology for the past academic year, funded by the Fulbright Scholars Program.

“The idea is not just to exchange information that makes our science stronger,” Hampton says. “Mexico is a country with a huge border with the United States. We need to have more contact with one another so that we understand each other better and reduce the potential for conflicts between our two countries.”

Emory graduate student Kelly Chong, a member of the lab of biologist Robert Liu, discusses her research with Arturo Gonzalez Isla, a graduate student at the Institute of Neurobiology in Mexico. (Photo by COMEXUS)

UNAM, based in Mexico City, is one of the largest universities in the world, with nearly 400,000 students and faculty. Its Institute for Neurobiology is about three hours north in Querétaro, a small but growing city in the highlands of central Mexico.

“The air is a little bit thinner and the sun’s a bit stronger than in Atlanta,” Hampton says. “It’s ‘tranquillo’ — a calm place — with a high quality of life.”

The institute “is doing the full spectrum of neuroscience,” he adds, “from high-level primate cognition work to molecular biology, neuroanatomy, neurodevelopment and more.”

While most classes are taught in Spanish, the Mexican students are required to both read and publish scientific papers in English.

Emory has hosted the Mechanisms of Learning Forum for the past three years as a capstone to the graduate seminar and as part of a training program co-directed by Bauer and Hampton, funded by the National Institutes of Health.

This year, with Hampton based in Mexico, the decision was made to hold the forum in Querétaro, with funding from the Institute of Neurobiology and Emory's Halle Institute, Department of Psychology and Emory College. The U.S. Embassy in Mexico, Mexico’s National Association of Universities and Institutions of Higher Education (ANUIES), and COMEXUS — the Fulbright Scholars Program supporting Hampton’s sabbatical — also pitched in to support the event.

Thirty-three graduate students from the U.S. and Mexico came together with nine faculty guest speakers from institutions in both countries to discuss their work. The speakers covered topics ranging from human language learning, avian song learning, rodent motor learning and the electrophysiology of memory in adult humans.

“It was a phenomenal opportunity,” says Emory graduate student Emily Brown, who had never been to Mexico. “The best part of the experience for me was meeting the other graduate students and expanding my scientific network to another country. It was neat to see that they are facing similar challenges as graduate students in the United States, and doing similar research.”

A central part of the forum is an open-ended hypothesis-generating exercise. “You get together with people from different backgrounds whom you don’t normally get to bounce ideas off,” Brown explains. “It’s a chance to play with ideas across boundaries and disciplines. The aim is to be creative and to not reject something that may sound a little crazy at first. Instead, you brainstorm about possible techniques or strategies that might make it work. It’s expansive thinking that you don’t necessarily get to do on a day-to-day basis.”

“It’s a great exercise,” Dugan adds, “because as a graduate student you spend a lot of time cranking out things that have to be immediately useful. You can get stuck in a mindset of what won’t work. It’s beneficial to get together with people who have different passions and just think creatively.”

Emory graduate student Emily Brown in the Advanced Facility for Avian Research in Ontario with one of her research subjects — a black-capped chickadee. "The people more likely to make the big discoveries are those willing to talk to each other across labs, institutions and countries," Brown says.

Creative thinking has already led Brown into unexpected places. She began her graduate school career studying memory systems of rhesus monkeys in the Hampton lab, and thought she would stick to that path. Then she began hearing about memory work with wild birds and proposed a research project in collaboration with Hampton and Emory psychologist Donna Maney, who is focused on how genes, hormones and the environment affects the brains of birds.

One of the guest speakers at the 2014 Mechanisms of Learning Forum was David Sherry, an expert on bird cognition from the University of Western Ontario’s Advanced Facility for Avian Research in London, Ontario. Brown was inspired by his talk and ultimately able to expand her collaboration to include Sherry. She is now continuing as a graduate student at Emory while in the Sherry lab in Canada.

“It’s one of the top avian research facilities in the world,” Brown says. “I’m developing a technique to study memory and cognition in wild, free-living birds. Right now, I’m working with black-capped chickadees, which are known for taking bits of food, hiding them for later, and then using their memory to locate them. Ideally, the techniques I’m developing could be used with any small songbirds that you see coming to a feeder in your yard.”

Birds make a good model species because they are so widespread and their behavior in the wild is well-documented, she says. “You have some bird species that are closely related living in dramatically different ecosystems and those that are not closely related at all operating in similar ecosystems. So you can compare which cognitive functions of species might be more driven by the environment and the pressures that they’re facing there.”

Adding Mexico to the mix of her graduate school experiences seemed like a natural progression to Brown. “Scientists are doing science everywhere and we shouldn’t be closed off to each other because of some borders on a map,” she says. “Science is advanced by communication. The people more likely to make the big discoveries are those willing to talk to each other across labs, institutions and countries.”

And the talk doesn’t always have to be about work.

A highlight for Brown in Mexico was a social outing — a hike through a wildlife preserve with the host students. “I had a chance to see a lot of the local flora and fauna,” she says. “It’s a really different ecosystem than Atlanta or Ontario. It’s dry, full of cactuses and vermillion flycatchers. They’re very pretty birds.”

Dugan agrees that breaking down barriers is important to the future of science. “The science community is all over the world,” she says. “Science in general is in jeopardy right now but we’re stronger together. People around the world are benefitting from — and contributing to — scientific progress.”

Global bonds boosts chemists' pace of research and discovery
Students advocating for academic science

Thursday, June 8, 2017

Students advocating for academic science

PhD candidates Crystal Grant, left, and Joshua Lewis are vocal advocates for scientific research at universities, but neither is ready to commit to academic careers due to uncertainty about good jobs. Last summer, they made their case to congressional aides from the Georgia delegation. (Kay Hinton)

By Hal Jacobs
Emory Magazine

Call it the 800-pound gorilla in the lab.

Crystal Grant, a graduate student in Emory's Genetics and Molecular Biology program in the Graduate Division of Biological and Biomedical Sciences (GDBBS), faced it while studying how people’s DNA changes with age.

Graduate student Joshua Lewis of the GDBBS Biochemistry, Cell and Developmental Biology program saw its shadow while researching how cells stick to neighbor cells— information that could lead to understanding how cancer cells metastasize.

The problem weighed so heavily on Chelsey Ruppersburg, who graduated with a PhD in 2016, that she changed career directions after racing to earn a doctorate in cell biology in only four years, rather than the usual six or seven.

The situation is readily apparent to anyone who works in an academic lab. Research is a slow, steady, incremental process; funding is erratic, inconsistent, boom and bust. Principal investigators must tear themselves away from working with students to chase fewer National Institutes of Health (NIH) and National Science Foundation (NSF) grants. Hiring new students and staff is fraught because funding for their positions is a moving target.

Meanwhile, a steady stream of graduate students—vital to every academic lab—compete for rarer faculty positions while being tempted by more lucrative private industry jobs or opportunities abroad.
Postdoctoral fellowships, an important transitional step from student to professor, have become a port of call that may stretch into years of low pay and uncertainty for scientists who hoped to settle down after a decade-plus of intense schooling.

But as the challenge grows steeper, the same young scientists who are most affected are also trying to solve it.

Read more in Emory Magazine.

Thursday, June 1, 2017

Key connection in neural code of 'love' uncovered in vole study

New research probes the neural circuitry responsible for pair bonding in prairie voles.

From Woodruff Health Sciences

A team of neuroscientists from Emory University's Silvio O. Conte Center for Oxytocin and Social Cognition has discovered a key connection between areas of the adult female prairie vole's brain reward system that promotes the emergence of pair bonds. Results from this study, published this week in Nature, could help efforts to improve social abilities in human disorders with impaired social function, such as autism.

This Conte Center study is the first to find the strength of communication between parts of a corticostriatal circuit in the brain predicts how quickly each female prairie vole becomes affiliative with her partner; prairie voles are socially monogamous and form lifelong bonds with their partners. Additionally, when researchers boosted the communication by using light pulses, the females increased their affiliation toward males, thus further demonstrating the importance of this circuit's activity to pair bonding in prairie voles.

"Prairie voles were critical to our team's findings because studying pair bonding in humans has been traditionally difficult," says co-lead author Elizabeth Amadei. "As humans, we know the feelings we get when we view images of our romantic partners, but, until now, we haven't known how the brain's reward system works to lead to those feelings and to the voles' pair bonding."

Building upon previous work in prairie voles that demonstrated brain chemicals, such as oxytocin and dopamine, act within the medial prefrontal cortex and nucleus accumbens to establish a pair bond, the team set out to address finding the precise neural activity leading to a pair bond. The researchers used probes to listen to neural communication between these two brain regions and then analyzed activity from individual female prairie voles as they spent hours socializing with a male - a cohabitation period that normally leads to a pair bond.

The team discovered that during pair bond formation, the prefrontal cortex, an area involved in decision-making, helps control the rhythmic oscillations of neurons within the nucleus accumbens, the central hub of the brain's reward system. This suggests a functional connection from the cortex shapes neurons activity in the nucleus accumbens.

The team then noticed individual voles varied in the strength of this functional connectivity. Importantly, each subject with stronger connectivity showed more rapid affiliative behavior with her partner, measured as side-by-side huddling contact. Furthermore, the pair's first mating, a behavior that accelerates bonding in voles, strengthened this functional connection, and the amount of strengthening correlated with how quickly the animals subsequently huddled.

"It is remarkable there are neural signatures of a predisposition to begin huddling with the partner. Similar variation in corticostriatal communication could underlie individual differences in social competencies in psychiatric disorders in humans, and enhancing that communication could improve social function in disorders such as autism," says Larry Young, co-author and director of the Conte Center and chief of the Division of Behavioral Neuroscience and Psychiatric Disorders at Yerkes National Primate Research Center.

The study results led the team to ask more questions, including whether communication between the prefrontal cortex and nucleus accumbens not only correlates with huddling but also causally facilitates it. To answer this, the researchers used optogenetics, a technique that allowed them to enhance communication between the brain areas using light, and enhanced communication between the prefrontal cortex and nucleus accumbens of female voles during a brief cohabitation without mating, which is not conducive to pair bonding.

The team discovered optogenetically stimulated animals showed greater preference toward partners compared to a stranger male when given a choice the following day.

"It is amazing to think we could influence social bonding by stimulating this brain circuit with a remotely controlled light implanted into the brain," says Zack Johnson, co-lead author. The study results identify an important reward circuit in the brain that is activated during social interactions to facilitate bond formation in voles.

"Now, we want to know if oxytocin regulates functional connectivity and how circuit activity changes the way the brain processes social information about a partner," says senior author Robert Liu, associate professor in Emory's Department of Biology. "Our team's work is an example of a larger effort in neuroscience to better quantify how brain circuits function during natural social behaviors. Our goal is to promote better neural communication to boost social cognition in disorders such as autism, in which social functioning can be impaired," Liu adds.

Amadei and Johnson were both graduate students who attained their PhD's this year. Additional Emory-based co-authors are graduate students Yong Jun Kwon and Varun Saravanan, undergraduate student Aaron Shpiner, and Wittney Mays, Steven Ryan, PhD, Hasse Walum, PhD, and Donald Rainnie, PhD.

The goal of the Silvio O. Conte Center for Oxytocin and Social Cognition is to improve human health by leading coordinated and rigorous research programs to discover the neural mechanisms by which oxytocin modulates social cognition. The research represents a unique collaboration among Emory University's Emory College of Arts and Sciences, School of Medicine and Yerkes National Primate Research Center, and the Wallace H. Coulter Department of Biomedical Engineering at Georgia Institute of Technology and Emory University.

Georgia Climate Project creates state 'climate research roadmap'

Environmental sciences instructor Daniel Rochberg, chief strategy officer for Climate@Emory, says the Georgia Climate Research Roadmap aims to create "Georgia's Top 40," a set of targeted research questions to help the state understand and address climate change. (Emory Photo/Video)

By Kimber Williams
Emory Report

Scientists, researchers and environmental experts from across the state convened at Emory last week to draft the “Georgia Climate Research Roadmap” — a set of targeted research questions that could help Georgia better understand and address one of the century’s defining challenges.

The goal of the May 22-23 gathering was to formulate “Georgia’s Top 40,” key climate research questions that could eventually aid decision-making and planning for Georgia policymakers, scientists, communities and service organizations.

An initiative of the Georgia Climate Project, the roadmap was a response to the fact that communities across Georgia are already exploring strategies to address the impact of climate change, says Daniel Rochberg, chief strategy officer for the Climate@Emory initiative and an instructor in the Rollins School of Public Health and Emory College of Arts and Sciences, where he focuses on climate change and sustainable development.

Some Georgia communities are actively assessing vulnerabilities and strategies to build resilience to potential climate change impact, while others are developing technologies and policies to begin reducing emissions, according to Rochberg, who has also worked for the U.S. State Department as special assistant to the lead U.S. climate negotiators under presidents Bush and Obama.

“To inform this work, decision-makers at all levels need credible and relevant information from across the natural, applied and social sciences,” says Murray Rudd, an associate professor in Emory’s Department of Environmental Sciences and member of the climate research roadmap steering committee. “The Georgia Climate Research Roadmap seeks to fulfill this need by identifying the key research questions that, if answered, can lay the groundwork for the state and its residents to take effective, science-based climate action,” he says.

Read the full story in Emory Report.

Climate change is in Atlanta's air
How will the shifting political winds affect U.S. climate policy?

Thursday, May 25, 2017

Dads show gender biases, in both brain responses and behaviors toward toddlers

“Our study provides one of the richest datasets for fathers now available,” says Emory neuroscientist Jennifer Mascaro. (Stock image) 

By Carol Clark

A toddler’s gender influences the brain responses as well as the behavior of fathers — from how attentive they are to their child, to the types of language that they use and the play that they engage in, a new study by Emory University finds.

The journal Behavioral Neuroscience published the study, the first to combine brain scans of fathers with behavioral data collected as fathers interacted with their children in a real-world setting.

One of the more striking behavioral differences was the level of attention given a child.

“When a child cried out or asked for Dad, fathers of daughters responded to that more than did fathers of sons,” says Jennifer Mascaro, who led the research as a post-doctoral fellow in the lab of Emory anthropologist James Rilling, senior author of the study. “We should be aware of how unconscious notions of gender can play into the way we treat even very young children.”

Mascaro is now an assistant professor in Family and Preventive Medicine at the Emory School of Medicine.

In addition to being more attentive, fathers of daughters sang more often to their child and were more likely to use words associated with sad emotions, such as “cry,” “tears” and “lonely.” Fathers of daughters also used more words associated with the body, such as “belly,” “cheek,” “face,” “fat” and “feet.”

Fathers of sons engaged in more rough-and-tumble play with their child and used more language related to power and achievement — words such as “best,” “win,” “super” and “top.” In contrast, fathers of daughters used more analytical language — words such as “all,” “below” and “much” — which has been linked to future academic success. 

“It’s important to note,” Rilling says, “that gender-biased paternal behavior need not imply ill intentions on the part of fathers. These biases may be unconscious, or may actually reflect deliberate and altruistically motivated efforts to shape children’s behavior in line with social expectations of adult gender roles that fathers feel may benefit their children.”

The study showed that fathers of sons engaged in more rough-and-tumble play with their child, a finding consistent with previous research by others. (Stock image)

Most parental studies draw from data gathered in a lab, where parents answer questions about their behavior and where they may be observed briefly as they interact with their children. This study collected behavioral data in a real-world setting through an electronic activated recorder (EAR), which was developed in the lab of co-author Matthias Mehl at the University of Arizona.

The participants included 52 fathers of toddlers (30 girls and 22 boys) in the Atlanta area who agreed to clip a small personal digital assistant equipped with the EAR software onto their belts and wear it for one weekday and one weekend day. The fathers were also told to leave the device charging in their child’s room at night so any nighttime interactions with their children could be recorded. The device randomly turned on for 50 seconds every nine minutes to record any ambient sound during the 48-hour period.

“People act shockingly normal when they are wearing the device,” Mascaro says. “They kind of forget they are wearing it or they say to themselves, what are the odds it’s on right now. The EAR technology is a naturalistic observation method that helped us verify things about parental behavior that we suspected based on previous research. It also uncovered subtle biases that we didn’t necessarily hypothesize in advance.”

In addition, fathers underwent functional MRI brain scans while viewing photos of an unknown adult, an unknown child and their own child with happy, sad or neutral facial expressions. Fathers of daughters had stronger responses to their daughters’ happy expressions in areas of the brain important for processing emotions, reward and value. In contrast, the brains of fathers of sons responded more robustly to their child’s neutral facial expressions.

“Most parents really are trying to do the best they can for their children,” Mascaro says. “A take-home point is that it’s good to pay attention to how your interactions with your sons and daughters may be biased." (Stock image)

The study focused on fathers because there is less research about their roles in rearing young children than mothers. “Our study provides one of the richest datasets for fathers now available, because it combines real-world assessments of behavior with brain responses,” Mascaro says. “It appears that men’s brain responses to their children may be related to their behaving differently with sons compared to daughters.”

The findings are consistent with other studies indicating that parents — both fathers and mothers — use more emotion language with girls and engage in more rough-and-tumble play with boys. It is unclear whether these differences are due to biological and evolutionary underpinnings, cultural understandings of the way one should act, or some combination of the two.

“We also don’t know the long-term child outcomes,” Mascaro says. “But future research can test the hypothesis that these differences have demonstrable impacts on things like empathy, emotional regulation and social competence.”

The use of more emotion language with girls by fathers, for example, may help girls develop more empathy than boys. “The fact that fathers may actually be less attentive to the emotional needs of boys, perhaps despite their best intentions, is important to recognize,” Mascaro says. “Validating emotions is good for everyone — not just daughters.”

Restricted emotions in adult men is linked to depression, decreased social intimacy, marital dissatisfaction and a lower likelihood of seeking mental health treatment.

Research also shows that many adolescent girls have negative body images. “We found that fathers are using more language about the body with girls than with boys, and the differences appear with children who are just one-to-three years old,” Mascaro says.

And while they use more words about the body with girls, fathers engage in more physical rough-and-tumble play with boys, an activity that research has shown is important to help young children develop social acuity and emotional regulation.

“Most parents really are trying to do the best they can for their children,” Mascaro says. “A take-home point is that it’s good to pay attention to how your interactions with your sons and daughters may be biased. We need to do more research to try to understand if these subtle differences may have important effects in the long term.”

The American Psychological Association contributed to this story.

How dads bond with kids: Brain scans link oxytocin to paternal nurturing
Testes size correlates with men's involvement in toddler care

Friday, May 12, 2017

Climate change is in Atlanta's air

"We're all partly responsible for our local air quality," says Emory graduating senior Emily Li. "Even if we don't hold ourselves accountable, our health will." (Emory Photo/Video)

By Carol Clark

Emory 2017 graduate Emily Li is leaving Atlanta this summer, but her student research will continue to have a presence here. For her undergraduate thesis, Li investigated the effects of shifting weather patterns on the air quality of Atlanta and the region — and how that relates to human health. She’s compiled her findings into a web site, Climate Change is in the Air, as a resource for local residents. 

“The web site explains some of the science involved, but it’s not just statistics,” Li says. “It also tells stories of real people. I wanted to put faces on these complex, scientific processes and explain how individuals are being directly affected by climate change, right now.”

In addition to science and stories from real people, the site offers solutions — what communities and individuals can do to address the issue.

Li, who majored in Environmental Sciences and English, sampled classes from a range of disciplines during college. No matter what the course, however, climate change kept coming up. “I think that it’s the most important issue that we face today, and I want to be part of the solution,” she says.

As a junior, Li took a course called Environmental Journalism, taught by Sheila Tefft, and realized that she could combine her two passions: Science and communication.

The web site focuses on how climate change is connected to Atlanta’s air quality, and how air quality is connected to the health of everyone living here. “Everybody has to breathe the air,” Li says. “We each need about 50 pounds of air a day and we can only go without it for about five minutes. Air is what we use the most and need the most to survive.”

The air pollutants that are contributing to a warming climate also contribute to problems of human health across the body — from the functions of lung and bronchial airways to cardiovascular diseases and central nervous system disorders. For the web site, Li concentrated on the respiratory health impacts of aeroallergens, wildfire emissions and ground-level ozone.

In lush Atlanta, a city famous for its “pollen explosions,” a warming climate may mean a longer exposure to pollen from many plants. Li tells the story of a fellow Emory student with a range of plant allergies to show the impact that high pollen counts can have on an individual’s life. “It’s hard to enjoy a nice spring day when you have to take a nap afterwards just for breathing the air,” she writes.

Hot, dry conditions also contribute to wildfires in Georgia, including an ongoing blaze in the Okefenokee National Wildlife Refuge. Hundreds of firefighters are currently battling the fire as it threatens to spread beyond the swamp to nearby communities.

To personalize the impact of the wildfire emissions, Li interviewed a firefighter from north Georgia. She described his experience of a minor smoke inhalation episode: “The condition is first initiated by a deep-set exhaustion: He’s already usually hot, sweaty and tired out from the firefighting work. Overwhelmed, his respiratory system begins to let down its defenses. Then he starts to get a tightness in his chest, like his upper body is being squeezed by an invisible fist. It becomes hard for him to fully catch his breath, and he can feel a distinct obstruction in his windpipe with every attempt to suck air into his lungs. At the same time, his energy levels plummet dangerously.”

The firefighter explained to Li: “With wildfire, typically there’s a lot of walking that has to happen and a lot of strenuous activity getting to remote areas. It’s just not possible or feasible to carry air packs or self-contained breathing apparatus into the wilderness or remote areas and sustain that air supply.”

The topic of ground-level ozone is also covered on the web site, although the personal story for that section remains under construction.

Li is leaving Atlanta to pursue a masters degree in education from the University of Pennsylvania, but she plans to keep adding to the site — and perhaps expand it to encompass other cities across the country.

“My goal is to create an immersive experience that people can not just learn from, but connect to,” Li says. “I want to bridge the emotional distance between people and the science of climate change.” 

The solutions offered on the site are a critical part of that goal, she adds. “One of my main suggestions is to just stay informed and aware and spread that awareness any way that you can,” Li says. “The more people that understand the problem, the better.”

Atlanta residents also have a chance to make a difference as the Atlanta Regional Commission works on a Regional Transportation Plan aimed at meeting Clean Air Act requirements. “Anyone can join the conversation to help make the plan a reality,” Li says.

Researching the potential impacts of climate change was overwhelming at times but ultimately rewarding, Li says. “Working on this project has made me much more deliberate in my actions. It’s also made me aware of not only how I can contribute to solutions to climate change, but how I can help other people stay hopeful and helpful so they can take action as well.”

How will the shifting political winds affect U.S. climate policy?

Monday, May 8, 2017

A Reddit Science Q&A on medical ethnobotany

What does a medical ethnobotanist have growing in her home garden? Is it possible to patent the berry of a plant? What's the difference between a natural and a synthetic product?

Emory ethnobotanist Cassandra Quave answered these questions and many more during her popular Reddit Science Ask-Me-Anything (AMA) session last Friday. The lively session sparked more than 400 comments within a few hours. Quave, assisted by members of her lab, answered most of the questions posed to her. "I've enjoyed the opportunity to discuss our research with so many interested people," Quave told the Reddit community.

Click here to read her archived Reddit AMA.

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Friday, April 21, 2017

Better pollen barcoding breaking down barriers to plant identification

"We're interested in pulling pollen off of bees, sequencing that pollen, and figuring out what the bees have been eating," says Emory biologist Berry Brosi. "We can start to construct networks between plants and pollinator species."

By Carol Clark

Pollen goes back about 491.2 million years, to the Devonian Period. Analysis of its traces have long been used to help solve mysteries related to the history of plants on Earth — from dating rocks for oil exploration to understanding the cultural practices of ancient peoples and investigating past habitats.

Now pollen analysis is poised to play an increasing role in solving modern-day mysteries, aided by gene-sequence libraries and advances in DNA barcoding, or the use of DNA to identify species. DNA metabarcoding enables the analysis of multi-species samples, if those species are contained in a gene-sequence reference library.

The Berry Brosi lab in Emory’s Department of Environmental Sciences recently expanded this gene-sequence library, adding a database for the rbcL gene to the already developed ITS2-gene library to improve the accuracy of plant species identification.

“We’re interested in pulling pollen off of bees, sequencing that pollen, and figuring out what the bees have been eating,” says Brosi, whose lab studies both managed honeybees and wild bees. “We can start to construct networks between plants and pollinator species.”

While Brosi is focused on bee research, pollen analysis contains temporal and spatial signatures that have the long-range potential for a broad range of applications, including forensic investigations. Examples include pinpointing the origin of an illicit drug, testing whether the marketing labels on products such as honey and olive oil match their actual geographic provenance, and determining whether the body of a murder victim had been moved.

The journal Applications in Plant Sciences published the work on the new rbcL library, and the database is publicly available.

“We chose rcbL because the length of the gene is readily applied to modern high-throughput sequencing methods,” says Karen Bell, who led the work as an Emory post-doctoral fellow.

The new rbcL library contains sequences from more than 38,400 plant species, adding to the ITS2 library of sequences from more than 72,000 species. After combining the two markers, the Brosi lab demonstrated that it could identify eight of nine plant species in a mixture, compared to only six species-level identifications based on ITS2 alone.

“Now you can simultaneously run a single analysis for both markers on the same sample,” Brosi says. “It’s a streamlined process that reduces false positives and false negatives coming back from the bioinformatics pipeline.”

If a plant species is not included in the reference library, however, it cannot be identified by DNA barcoding, so more sequences from the estimated 450,000 species of flowering plants must be added to make the pollen databases more comprehensive.

The Brosi lab tweaked the DNA metabarcoding bioinformatics pipeline to make it capable of using additional DNA barcodes once their databases have been developed. “The more genetic markers available,” Bell says, “the greater the chance of genetic identification.”

As the cost of genome sequencing comes down, researchers won’t be restricted to scanning the barcodes of small fragments of DNA either: “At some point in the future,” Bell says, “we’ll be doing DNA barcoding using whole plant genomes. The laboratory technology is available, but currently we don’t have enough complete plant genomes to make the databases.”

Another problem that the Brosi lab is working on is the fact that pollen samples are almost always mixed, and the current analytical methods are not quantitative. “We don’t know what the proportion of any species of pollen is within a sample,” Brosi says. “We’re currently trying to disentangle that problem.”

The Botanical Society of America contributed to this report. 

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