My Parents Raised Me to Be a Science Denier, So I Educated Myself

A religious family attends church.
The Internet has made it easier than ever to misguide people. The anti-vaxx movement, climate change denial, protests against stem cell research, and other movements like these are rooted in the spread of misinformation and a distrust of science.
"I had been taught intelligent design and young-earth creationism instead of evolution, geology, and biology."
Science illiteracy is pervasive in the communities responsible for these movements. For the mainstream, the challenge lies not in sharing the facts, but in combating the spread of misinformation and facilitating an open dialogue between experts and nonexperts.
I grew up in a household that was deeply skeptical of science and medicine. My parents are evangelical Christians who believe the word of the Bible is law. To protect my four siblings and me from secular influence, they homeschooled some of us and put the others in private Christian schools. When my oldest brother left for a Christian college and the tuition began to add up, I was placed in a public charter school to offset the costs.
There, I became acutely aware of my ignorant upbringing. I had been taught intelligent design and young-earth creationism instead of evolution, geology, and biology. My mother skipped over world religions, and much of my history curriculum was more biblical-based than factual. She warned me that stem cell research, vaccines, genetic modification of crops, and other areas of research in biological science were examples of humans trying to be like God. At the time, biologist Richard Dawkins' The God Delusion was a bestseller and science seemed like an excuse to not believe in God, so she and my father discouraged me from studying it.
The gaps in my knowledge left me feeling frustrated and embarrassed. The solution was to learn about the things that had been censored from my education, but several obstacles stood in the way.
"When I first learned about fundamentalism, my parents' behavior finally made sense."
I lacked a good foundation in basic mathematics after being taught by my mother, who never graduated college. My father, who holds a graduate degree in computer science, repeatedly told me that I inherited my mother's "bad math genes" and was therefore ill-equipped for science. While my brothers excelled at math under his supervision and were even encouraged toward careers in engineering and psychology, I was expected to do well in other subjects, such as literature. When I tried to change this by enrolling in honors math and science classes, they scolded me -- so reluctantly, I dropped math. By the time I graduated high school, I was convinced that math and science were beyond me.
When I look back at my high school transcripts, that sense of failure was unfounded: my grades were mostly A's and B's, and I excelled in honors biology. Even my elementary standardized test scores don't reflect a student disinclined toward STEM, because I consistently scored in the top percentile for sciences. Teachers often encouraged me to consider studying science in college. Why then, I wondered, did my parents reject that idea? Why did they work so hard to sway me from that path? It wasn't until I moved away from my parents' home and started working to put myself through community college that I discovered my passion for both biology and science writing.
As a young adult venturing into the field of science communication, I've become fascinated with understanding communities that foster antagonistic views toward science. When I first learned about fundamentalism, my parents' behavior finally made sense. It is the foundation of the Religious Right, a right-wing Christian group which heavily influences the Republican party in the United States. The Religious Right crusades against secular education, stem cell research, abortion, evolution, and other controversial issues in science and medicine on the basis that they contradict Christian beliefs. They are quietly overturning the separation of church and state in order to enforce their religion as policy -- at the expense of science and progress.
Growing up in this community, I learned that strong feelings about these issues arise from both a lack of science literacy and a distrust of experts. Those who are against genetic modification of crops don't understand that GMO research aims to produce more, and longer-lasting, food for a growing planet. The anti-vaxx movement is still relying on a deeply flawed study that was ultimately retracted. Those who are against stem cell research don't understand how it works or the important benefits it provides the field of medicine, such as discovering new treatment methods.
In fact, at one point the famous Christian radio show Focus on the Family spread anti-vaxx mentality when they discussed vaccines that, long ago, were derived from aborted fetal cells. Although Focus on the Family now endorses vaccines, at the time it was enough to convince my own mother, who listened to the show every morning, not to vaccinate us unless the law required it.
"In everyday interactions with skeptics, science communicators need to shift their focus from convincing to discussing."
We can help clear up misunderstandings by sharing the facts, but the real challenge lies in willful ignorance. It was hard for me to accept, but I've come to understand that I'm not going to change anyone's mind. It's up to an individual to evaluate the facts, consider the arguments for and against, and make his or her own decision.
As my parents grew older and my siblings and I introduced them to basic concepts in science, they came around to trusting the experts a little more. They now see real doctors instead of homeopathic practitioners. They acknowledge our world's changing climate instead of denying it. And they even applaud two of their children for pursuing careers in science. Although they have held on to their fundamentalism and we still disagree on many issues, these basic changes give me hope that people in deeply skeptical communities are not entirely out of reach.
In everyday interactions with skeptics, science communicators need to shift their focus from convincing to discussing. This means creating an open dialogue with the intention of being understanding and helpful, not persuasive. This approach can be beneficial in both personal and online interactions. There are people within these movements who have doubts, and their doubts will grow as we continue to feed them through discussion.
People will only change their minds when it is the right time for them to do so. We need to be there ready to hold their hand and lead them toward truth when they reach out. Until then, all we can do is keep the channels of communication open, keep sharing the facts, and fight the spread of misinformation. Science is the pursuit of truth, and as scientists and science communicators, sometimes we need to let the truth speak for itself. We're just there to hold the megaphone.
Following the Footsteps of a 105-Year-Old Sprinter
No human has run a distance of 100 meters faster than Usain Bolt’s lightning streak in 2009. He set this record at age 22. But what will Bolt’s time be when he’s 105?
At the Louisiana Senior Games in November 2021, 105-year-old Julia Hawkins of Baton Rouge became the oldest woman to run 100 meters in an official competition, qualifying her for this year's National Senior Games. Perhaps not surprisingly, she was the only competitor in the race for people 105 and older. In this Leaps.org video, I interview Hawkins about her lifestyle habits over the decades. Then I ask Steven Austad, a pioneer in studying the mechanisms of aging, for his scientific insights into how those aspiring to become super-agers might follow in Hawkins' remarkable footsteps.
Following the Footsteps of a 105-Year-Old Sprinter
No human has run a distance of 100 meters faster than Usain Bolt’s lightning streak in 2009. He set this record at age 22. But what will Bolt’s time be when ...Matt Fuchs is the editor-in-chief of Leaps.org. He is also a contributing reporter to the Washington Post and has written for the New York Times, Time Magazine, WIRED and the Washington Post Magazine, among other outlets. Follow him on Twitter @fuchswriter.
Monkeypox produces more telltale signs than COVID-19. Scientists think that a “ring” vaccination strategy can be used when these signs appear to help with squelching the current outbreak of this disease.
A new virus has emerged and stoked fears of another pandemic: monkeypox. Since May 2022, it has been detected in 29 U.S. states, the District of Columbia, and Puerto Rico among international travelers and their close contacts. On a worldwide scale, as of June 30, there have been 5,323 cases in 52 countries.
The good news: An existing vaccine can go a long way toward preventing a catastrophic outbreak. Because monkeypox is a close relative of smallpox, the same vaccine can be used—and it is about 85 percent effective against the virus, according to the World Health Organization (WHO).
Also on the plus side, monkeypox is less contagious with milder illness than smallpox and, compared to COVID-19, produces more telltale signs. Scientists think that a “ring” vaccination strategy can be used when these signs appear to help with squelching this alarming outbreak.
How it’s transmitted
Monkeypox spreads between people primarily through direct contact with infectious sores, scabs, or bodily fluids. People also can catch it through respiratory secretions during prolonged, face-to-face contact, according to the Centers for Disease Control and Prevention (CDC).
As of June 30, there have been 396 documented monkeypox cases in the U.S., and the CDC has activated its Emergency Operations Center to mobilize additional personnel and resources. The U.S. Department of Health and Human Services is aiming to boost testing capacity and accessibility. No Americans have died from monkeypox during this outbreak but, during the COVID-19 pandemic (February 2020 to date), Africa has documented 12,141 cases and 363 deaths from monkeypox.
Ring vaccination proved effective in curbing the smallpox and Ebola outbreaks. As the monkeypox threat continues to loom, scientists view this as the best vaccine approach.
A person infected with monkeypox typically has symptoms—for instance, fever and chills—in a contagious state, so knowing when to avoid close contact with others makes it easier to curtail than COVID-19.
Advantages of ring vaccination
For this reason, it’s feasible to vaccinate a “ring” of people around the infected individual rather than inoculating large swaths of the population. Ring vaccination proved effective in curbing the smallpox and Ebola outbreaks. As the monkeypox threat continues to loom, scientists view this as the best vaccine approach.
With many infections, “it normally would make sense to everyone to vaccinate more widely,” says Wesley C. Van Voorhis, a professor and director of the Center for Emerging and Re-emerging Infectious Diseases at the University of Washington School of Medicine in Seattle. However, “in this case, ring vaccination may be sufficient to contain the outbreak and also minimize the rare, but potentially serious side effects of the smallpox/monkeypox vaccine.”
There are two licensed smallpox vaccines in the United States: ACAM2000 (live Vaccina virus) and JYNNEOS (live virus non-replicating). The ACAM 2000, Van Voorhis says, is the old smallpox vaccine that, in rare instances, could spread diffusely within the body and cause heart problems, as well as severe rash in people with eczema or serious infection in immunocompromised patients.
To prevent organ damage, the current recommendation would be to use the JYNNEOS vaccine, says Phyllis Kanki, a professor of health sciences in the division of immunology and infectious diseases at the Harvard T.H. Chan School of Public Health. However, according to a report on the CDC’s website, people with immunocompromising conditions could have a higher risk of getting a severe case of monkeypox, despite being vaccinated, and “might be less likely to mount an effective response after any vaccination, including after JYNNEOS.”
In the late 1960s, the ring vaccination strategy became part of the WHO’s mission to globally eradicate smallpox, with the last known natural case described in Somalia in 1977. Ring vaccination can also refer to how a clinical trial is designed, as was the case in 2015, when this approach was used for researching the benefits of an investigational Ebola vaccine in Guinea, Kanki says.
“Since Monkeypox spreads by close contact and we have an effective vaccine, vaccinating high-risk individuals and their contacts may be a good strategy to limit transmission,” she says, adding that privacy is an important ethical principle that comes into play, as people with monkeypox would need to disclose their close contacts so that they could benefit from ring vaccination.
Rapid identification of cases and contacts—along with their cooperation—is essential for ring vaccination to be effective. Although mass vaccination also may work, the risk of infection to most of the population remains low while supply of the JYNNEOS vaccine is limited, says Stanley Deresinski, a clinical professor of medicine in the Infectious Disease Clinic at Stanford University School of Medicine.
Other strategies for preventing transmission
Ideally, the vaccine should be administered within four days of an exposure, but it’s recommended for up to 14 days. The WHO also advocates more widespread vaccination campaigns in the population segment with the most cases so far: men who engage in sex with other men.
The virus appears to be spreading in sexual networks, which differs from what was seen in previously reported outbreaks of monkeypox (outside of Africa), where risk was associated with travel to central or west Africa or various types of contact with individuals or animals from those locales. There is no evidence of transmission by food, but contaminated articles in the environment such as bedding are potential sources of the virus, Deresinski says.
Severe cases of monkeypox can occur, but “transmission of the virus requires close contact,” he says. “There is no evidence of aerosol transmission, as occurs with SARS-CoV-2, although it must be remembered that the smallpox virus, a close relative of monkeypox, was transmitted by aerosol.”
Deresinski points to the fact that in 2003, monkeypox was introduced into the U.S. through imports from Ghana of infected small mammals, such as Gambian giant rats, as pets. They infected prairie dogs, which also were sold as pets and, ultimately, this resulted in 37 confirmed transmissions to humans and 10 probable cases. A CDC investigation identified no cases of human-to-human transmission. Then, in 2021, a traveler flew from Nigeria to Dallas through Atlanta, developing skin lesions several days after arrival. Another CDC investigation yielded 223 contacts, although 85 percent were deemed to be at only minimal risk and the remainder at intermediate risk. No new cases were identified.
How much should we be worried
But how serious of a threat is monkeypox this time around? “Right now, the risk to the general public is very low,” says Scott Roberts, an assistant professor and associate medical director of infection prevention at Yale School of Medicine. “Monkeypox is spread through direct contact with infected skin lesions or through close contact for a prolonged period of time with an infected person. It is much less transmissible than COVID-19.”
The monkeypox incubation period—the time from infection until the onset of symptoms—is typically seven to 14 days but can range from five to 21 days, compared with only three days for the Omicron variant of COVID-19. With such a long incubation, there is a larger window to conduct contact tracing and vaccinate people before symptoms appear, which can prevent infection or lessen the severity.
But symptoms may present atypically or recognition may be delayed. “Ring vaccination works best with 100 percent adherence, and in the absence of a mandate, this is not achievable,” Roberts says.
At the outset of infection, symptoms include fever, chills, and fatigue. Several days later, a rash becomes noticeable, usually beginning on the face and spreading to other parts of the body, he says. The rash starts as flat lesions that raise and develop fluid, similar to manifestations of chickenpox. Once the rash scabs and falls off, a person is no longer contagious.
“It's an uncomfortable infection,” says Van Voorhis, the University of Washington School of Medicine professor. There may be swollen lymph nodes. Sores and rash are often limited to the genitals and areas around the mouth or rectum, suggesting intimate contact as the source of spread.
Symptoms of monkeypox usually last from two to four weeks. The WHO estimated that fatalities range from 3 to 6 percent. Although it’s believed to infect various animal species, including rodents and monkeys in west and central Africa, “the animal reservoir for the virus is unknown,” says Kanki, the Harvard T.H. Chan School of Public Health professor.
Too often, viruses originate in parts of the world that are too poor to grapple with them and may lack the resources to invest in vaccines and treatments. “This disease is endemic in central and west Africa, and it has basically been ignored until it jumped to the north and infected Europeans, Americans, and Canadians,” Van Voorhis says. “We have to do a better job in health care and prevention all over the world. This is the kind of thing that comes back to bite us.”