The superheroes in these comics were inspired by real scientists

Early in their careers, three scientists started a comics company to tell stories — all free and online — that explain and share their love of science.

The superheroes in these comics were inspired by real scientists

Jaye Gardiner loves comic books. She also loves science. Sensing an opportunity, she decided to combine the two.

In 2015, she and two friends — Khoa Tran and Kelly Montgomery — founded an online publishing company called JKX Comics. At the time, all three were pursuing PhDs in science at the University of Wisconsin–Madison. Each knew how tough it can be to explain research and to engage students in its details.

So they decided to use a cartoon format and light humor. The three spent weekends at a campus bar writing the text and drawing panels for their first comic book, which came out in 2016. This comic, EBV and the Replication Dance, describes how the common Epstein-Barr virus copies itself. The online book’s storyline: a virus goes clubbing with friends. Their venue is a human cell.

The colorful visuals help illustrate the science, explains Tran. “Then you also have that story element,” he points out. Comics are “a way of opening that door into what science is.” Through comics, his JKX colleagues hope to “inspire the next generation to pursue STEM [science, technology, engineering and math].” Today, Tran works at the University of Pennsylvania in Philadelphia where he conducts research on epigenetics.

He, Gardiner and Montgomery are not alone in seeing a place for science in the comic universe. A lot of research has suggested that comics can introduce a wide and diverse group of people to science subjects, according to a 2018 review of such studies. And comics can make information more accessible by presenting it through both text and pictures.

Meet the founders of JKX Comics: Khoa Tran (left), Jaye Gardiner (middle) and Kelly Montgomery (right). The trio started the company in 2015 while pursuing their PhDs at the University of Wisconsin–Madison.JKX Comics

In 2018, seven more scientists at UW–Madison joined the JKX Comics crew. In all, they brought together fields as diverse as psychology, astronomy and microbiology. The scientists then drafted local artists to help illustrate the research they wanted to depict. And the 11 comics they have developed thus far are now being offered online for free.

What’s in it for the scientists? “We can show who the scientists are … that they are also just people,” says Gardiner. She’s now a cancer biologist at the Fox Chase Cancer Center in Philadelphia, Pa. “We’re not all geniuses with Einstein-like hair that are antisocial,” she notes. Her team shows that those “eureka!” moments don’t happen all the time. “Using comics,” she says, “is a nice way to tell their story” — the real story.

Finding a way to tell the story

They released their latest comic on March 2. Called , it shows a biochemist getting sucked into a video game. There, Gilbert uses amino acids to get proteins to communicate with each other. The panels are drawn in the style of the classic video game Super Mario Bros. The storyline explains fundamental concepts in biochemistry, says Montgomery, who is its author. In real life, she also is a chemical biologist at the University of California, San Francisco.

By understanding how proteins communicate, she explains, you can learn how to modify a protein so that it “will be able to communicate to its neighbor better.” Scientists use this knowledge to help stop certain diseases that develop when proteins communicate in the wrong way. Among these, she notes, is Alzheimer’s and Charcot-Marie-Tooth disease. That last one causes nerve damage in the arms and legs.

Translating a complex science topic into a comic can be challenging. The creators have to not only be accurate but also tell an engaging story. The idea, he explains, is to trigger a “curiosity in people to then learn more and further investigate the topic.”

In the future

The team has geared its comics toward middle-school students. Yet they hope people of all ages will enjoy them and learn from them. Tran, Gardiner and Montgomery are creating a Kickstarter campaign. The money they raise would go to printing versions of their comics that would be handed out to underserved children in and around Madison, Wisc., through what is known as the Madison Reading Project. JKX also is at work on a new comic series about women in STEM. A second series will investigate diseased organs. They view it as a tribute to television’s CSI series. (That show on criminal forensics began in 2000 and ran for 15 years.)

There’s a lot of misinformation and fake news circulating around the internet. Some of it “scares people away from science,” Montgomery says. The goal of the new comics is to “limit some of those misunderstandings,” she adds. “I think that would be a really positive impact.”

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For teens, big problems may lead to meaningful research

Several teens who competed at the Regeneron Science Talent Search applied their STEM know-how to solve problems they or their communities faced.

For teens, big problems may lead to meaningful research

Many people see a problem in the world and don’t know what to do. They might throw their hands up in the air — leaving it for someone else to find a solution. But few finalists of this year’s Regeneron Science Talent Search feel this way. They let personal or social problems inspire their research.

Established in 1942, the Regeneron Science Talent Search, or STS, is the nation’s oldest and most prestigious science and math competition. Each year, it brings together 40 high school seniors from around the United States. They compete for awards now valued at more than $1.8 million. In response to the pandemic, this year’s competition is being held online.

And for many of its finalists, their research project this year wasn’t just a competition entry. It was a way help others.

Explainer: Hurricanes, cyclones and typhoons

Take Andrew Brinton. He was 10 years old when Hurricane Sandy battered the U.S. East Coast in 2012. From his home in Merrick, N.Y., the boy experienced the storm firsthand. “I looked out the window and I saw a car floating down the street,” recalls Andrew, now 17. He found it “really scary.” Soon, he was researching hurricanes. He learned about damage caused by storm surges — when winds push water ashore. He also learned how salt marshes can protect inland communities by buffering those waves. These “living shorelines” ended up fascinating Andrew.

He started mucking about in Long Island’s salt marshes. “I was walking across …  places that nobody had been for more than 60 years,” he says. Andrew noticed a buildup of certain mussels, a type of mollusk, in very grassy areas. Scientists have linked the health of marsh grasses to the ability of shorelines to absorb the energy of waves. Andrew became curious: Could those grasses and mussels work together as partners in that energy absorption?

To test the idea, he surveyed mussels at 10 marshy areas using a grid that he toted from site to site. He’d take a picture and count the mussels in each place. At healthy sites, he found that grass and an abundance of mussels often occur together. This may be because the grass creates a safe haven for the mussels. At the same time, he says, mussels provide nutrients that help the grasses grow. His data now suggest that mussels and grasses together help restore marshes that can protect coastal communities.

Fighting helplessness with action

Students across the United States have grown up seeing school shootings on TV. Ellie Yang of Chesterfield, Mo., was in fifth grade when a tragic shooting took place at Sandy Hook Elementary School in Connecticut. Like many kids, she felt helpless. In high school, though, she began to feel different. She “decided to take action after seeing the effects of gun violence in my own life,” says Ellie, now 17.

She set out to train computers to identify guns, knives and blood from social media feeds or in footage from security cameras. Software that scans those images could help first responders react more quickly when a violent event occurs, she says.

Ellie picked up her computer science skills in online courses. But she wanted to use machine learning for her project — training a computer to do a task by giving it a lot of data. To get started with machine learning, she needed help.

She found it in a company called Hive. As a summer intern there, Ellie labeled millions of images. Those images would train her program.

Five tips for finding a great mentor

A mentor from Hive and the support of a machine-learning team helped her build a program that determines the threat of violence from unlabeled pictures or video footage. Ellie had never taken on such a large project before. “It was really exhilarating … to go through the process,” she now says.

Bringing home the beehive

Raina Jain’s STS project started in science class. Her teacher challenged this Riverside, Conn., teen and her classmates to find global problems in the news that lacked solutions. Raina, 17, zeroed in on colony collapse disorder in bees. This happens when worker bees abandon their hive, eventually causing the hive to die. Raina visited a beekeeper, a friend of her parents. She wanted to observe this problem up close. “Every year, he loses 60 percent of his hives,” she learned. “That shocked me.”

Raina Jain is seen with a beehive that she used in some of the experiments for her STS project. Bob Conlan

Parasites, including the Varroa mite, play a role in colony collapse disorder. A chemical called thymol can help rid bees of the mites. Beekeepers often leave out a thymol-containing gel. Bees can apply it to themselves while cleaning. But that gel doesn’t work the same way at all temperatures, Raina notes. On hot days, for instance, it releases higher levels of thymol — amounts that might harm bees. The gel also might limit bees’ ability to fly or even contaminate bees’ eggs.  

Raina wondered if there was a better way to protect bees. She developed her own thymol-containing gel. Then she designed a 3-D-printed beehive entrance that would coat the bees. She tested how fast her gel formula would degrade in the sun and wind by applying the gel to a non-bee drone. Raina even kept a beehive in her backyard to test her gel’s effectiveness. (Her dad was surprised when it arrived, she recalls.)

Now, hundreds of beekeepers around the United States are helping Raina further test her invention. “Probably the hardest part of my project was to get people to actually use it,” Raina says. It took time and thousands of emails, she says. But now further data collection is underway, she says.

Predicting crop yields a world away

Malnutrition is a problem faced by millions of people around the world. Lillian Petersen, 17, of Los Alamos, N.M., didn’t have to look across an ocean to see the effects, though. She just looked across the room at her three adopted siblings. “They all faced malnutrition in their former home,” Lillian notes. She saw how their coordination and speech lagged behind that of their peers. Lillian helped them catch up in their reading and writing. “Working with them every day to help attain those goals opened my eyes to the huge effects of malnutrition,” she says.

Lillian wanted to do something to help curb malnutrition on a grander scale. The project she came up with helps people in low-income nations predict their crop harvests.

Many African countries only track total crop yields at harvest, Lilian says. They lack early information that could help figure out how factors such as drought might affect the amount of food that would later be available for harvest. Such predictions could help governments plan for lean times and prevent malnutrition.

on the left Lillian Petersen at her computer, on the right presenting at the USDA
Lillian Petersen was invited by the U.S. Department of Agriculture to present her data on how to better estimate crop-harvest potential. She’s shown here in a briefing to the department heads of the National Agricultural Statistics Service.From left: Mark Petersen; Kimberly Petersen

Lilian created a computer program that gleans information from satellite imagery to estimate the health of crops. It focuses on color. Reddish or brownish crops typically are less healthy than greener ones. A computer model she built now can predict crop yields based on that imagery.

Explainer: What is a computer model?

Lillian tested her program on satellite imagery from Illinois. Later, she applied it to every country in Africa. When compared to data collected after the harvest, her predictions proved fairly accurate. The teen even got her work published in Remote Sensing on November 1, 2018.

Her project, like those by Andrew, Ellie and Raina, show that even high-school students can tackle big problems — and sometimes have a big impact      .

Sponsored by the pharmaceutical company Regeneron, STS was created by the Society for Science & the Public, which still runs it. (The society also publishes Science News for Students).

Source : Science News for Students More   

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