Quick Summary Natascha Varona studies coral bleaching from a microbial angle with Professor Jonathan Eisen and Visiting Professor Raquel Peixoto

She's isolating coral microbes and trying to figure out exactly what species play a part in the coral microbiome

On top of research, she's using her artistic talents to raise awareness for ocean health

The pale woman stares at you, her hand delicately placed on her cheek. Atop her head a community of corals bleeds its vibrancy. Clouds of gold and red seep into the water, joining other bits of her eroding body. Fish—stripped to their skeletons—float among the drift. The digital painting is haunting, permeated by a sense of disintegration and death. But there’s also beauty.

“I feel like the ocean is this unknown world that we still have so much to learn about,” said Natascha Varona, the painting’s artist and a senior majoring in biochemistry and molecular biology. “There’s all this life in the water, in the ocean, that we still have so much to learn about.”

But that life is under threat. According to the National Oceanic and Atmospheric Administration, more than 75 percent of Earth’s tropical reefs experienced bleaching-level heat stress between 2014 and 2017. And more bleaching is expected.

It’s the subject of Varona’s painting but she actually studies the phenomenon with Professor Jonathan Eisen, Department of Evolution and Ecology, and visiting professor Raquel Peixoto, of the Federal University of Rio de Janeiro. Together they’re battling to preserve corals by understanding their microbiomes.

“What we’re doing is trying to isolate microbes that are part of the microbiome of coral and figure out which ones are beneficial, so you can basically make a probiotic that may help them withstand the effects of ocean acidification or increased temperatures,” said Varona. “Another undergrad, Camille Burke, and I are working on isolating all the bugs from the coral and sequencing them.”

For Natascha Varona, art and science are tied together. She's using her artistic talents to raise awareness about coral bleaching but she also studies coral microbiomes with Professor Jonathan Eisen and Visiting Professor Raquel Peixoto. David Slipher/UC Davis

Biology, the nesting doll science

For Varona, art and science are tied together. Born to a family of artists in Germany, she split her youth between the country and San Mateo, California. Her grandmother—a painter—and her grandfather—a photographer—nurtured her artistic sensibilities by teaching her about color schemes, perspective and shading, while her father—a former surfer—nurtured her love of the ocean, taking her on trips to Half Moon Bay and the Monterey Bay Aquarium. Varona recalled going to the aquarium for the first time when she was six-years-old.

“I fell in love with an ocean sunfish in their open sea exhibit and was convinced we were best friends,” she said. “I would constantly beg my parents to take me back, which they did every now and then. Eventually, it got released back into the ocean.”

It was then that Varona resolved to become a marine scientist. She wanted to find her friend in the big blue. While the specifics behind her drive to study marine science changed as she got older, the interest stuck.

At Cabrillo College in Santa Cruz, Varona volunteered with Clean Oceans International, a nonprofit tackling plastic pollution. She cleaned beaches, gave talks on plastic pollution and even helped organize a cleanup trip to the Alaskan islands in Prince William Sound in 2014.

“A small group of us organized a trip to Alaska to work with a local team up there, GoAK, that was cleaning up massive amounts of trash from the coast of Alaska,” she said. “It was definitely eye-opening to see remote islands, with no humans in sight, covered in trash.”

Around the same time, Varona started learning about the molecular facets of biology in her college courses. There was a nesting doll-like aspect to the life sciences; organisms could be broken down into smaller and smaller observable parts. Varona became enamored with DNA, fascinated by the fact that it’s the basis for every living thing in the natural world. She honed in on corals thanks to a summer internship at UC Santa Cruz, in which she explored the effects of ocean acidification on coral skeletons with research scientist Adina Paytan.

With her interest in corals piqued, Varona transferred to UC Davis prior to her junior year and sought opportunities that would allow her to work with corals again. She found a home with Peixoto and Eisen in the Eisen Lab.

“I am really glad Natascha joined us last year,” said Peixoto, chair of the Beneficial Microorganisms of Marine Organisms network. “She is not only a very smart and enthusiastic student, but also extremely creative and passionate. This makes a huge difference, as she deeply cares and wants to do a good job and contribute to the coral cause - both with her work in the lab and also inspiring us all with her art.“

Born to a family of artists in Germany, Varona split her youth between the country and San Mateo, California. Her grandmother—a painter—and her grandfather—a photographer—nurtured her artistic sensibilities. David Slipher/UC Davis

Isolating coral microbes

In order to design successful probiotics for corals, Varona and her lab colleagues are identifying the individual microbes living in symbiosis with corals. Part of Varona’s research involves finding the optimal growth conditions for coral microbes in the lab.

“Cultivating them can be tricky,” said Varona, noting that coral microbes are usually grown in agar and marine broth. “Agar has been the go-to growth medium since the 1880s and it hasn’t changed much. It turns out agar can be toxic for some microbes, so we’ve been playing around with different growth conditions like using gelzan instead of agar or adding fragments of coral skeletons into the Petri dishes.”

In the lab, Varona can be found scraping coral isolates from colorful Petri dishes. Once removed, the coral bits are placed in a tube and Varona adds lysis buffer to open them up.

“You can see all the different kinds of microbial colonies that are growing there,” she said. With the lysis buffer, “you break up the membranes so you can get the DNA that’s inside of the cell.” Multiple detergents and washes are then used to break down organelles to purify the DNA.

Afterward, they use polymerase chain reaction techniques to amplify the sample’s DNA, which is then sent off for sequencing. “Then we can do an analysis of the sequence and figure out what the microbes are,” Varona said.

A comprehensive understanding of coral microbiomes could inform design of species-specific, and perhaps even community-specific probiotics to help corals weather changing ocean conditions.

“Natascha is a perfect example of why it is important to have undergraduates doing research in laboratories,” said Eisen. “Her passion for microbes, coral and art is inspiring and I am so glad she chose to join my lab.”

Varona is on the cusp of graduation, but looking forward, she plans to take a gap year to focus on art. She wants to eventually return to academia for a Ph.D. degree.

“I would love to stay with corals and working with them just because I know how severe the issue is right now with all the reefs dying,” she said. “I know time is running out.”

Through her art and science, Varona is not only raising awareness about coral bleaching but helping find solutions to the problem as well.