Double Xpression: Debbie Berebichez, PhD Physicist

Deborah is the first Mexican woman to graduate with a physics PhD from Stanford University. She is a physicist, author, and media personality whose initiatives to popularize science have impacted thousands of people around the world. Her passion is to popularize science and motivate young minds to think analytically about the world. This has led her to pioneer learning initiatives in schools and universities in Mexico, Africa, the US and Israel. She is a frequent public speaker and has been recognized by numerous media outlets such as Oprah, CNN, WSJ, TED, DLD, WIRED, Martha Stewart, City of Ideas, Dr. Oz Show, Celebrity Scientist and others. She regularly appears as a science expert on different international TV networks; currently she is the TV host of National Geographic’s “Humanly Impossible” show. And she will appear on the Discovery Channel’s upcoming show ‘You’ve Been Warned.’  You can find Deborah on Twitter, or on her blog, Science With Debbie.  You can also find Deborah telling her story for The Story Collider.



DXS: First, can you give me a quick overview of what your scientific background is and your current connection to science?

I grew up in Mexico City in a fairly conservative community, and as a child, I was discouraged from doing and studying science.  My parents, family, and peers would all ask, “oh, why don’t you study a more feminine career?” Although I was pretty good in school, I wasn’t exactly a math wizard.  I used to say that I loved philosophy and physics – because philosophy was a deep discipline of asking questions about the world.  And physics studied the world itself.   
It was clear when I was born that my personality was was quite different to the one of my mom.  When I was growing up, my mom was scared because she didn’t know what to do with this little girl that was smart and always asking questions.  She is not a naturally curious person, so she kept trying to tame down my curiosity and kept telling me not to tell boys that I was interested in math and science because I would never find a husband.  According to her, the life goal for a girl was to find a husband, have kids, and that’s it.  Women didn’t have to have a career.  (Not that there is anything wrong with not having a career.)  My high school teachers and counselors were not so different and encouraged me to go into philosophy or literature, not into math or physics.  And my friends in school told me I literally had to be an out of the world genius to be able to study physics.      
Given the circumstances, I started studying philosophy in Mexico.  There were some classes with logic, and some with a little bit more math, and those were the ones I just devoured!  And, at the same time – secretly – I was reading the biographies of scientists.  For some bizarre reason, I was hugely attracted to their life stories.  I didn’t have any family members, or anyone else for that matter, that had pursued a career in science, so I didn’t have a mentor or a role model.  I felt an extreme kinship with Tycho Brahe, who in the late 1500’s was locked in a tower, doing all of these calculations for years, hated by everyone in the town.  Go figure! I felt some kinship with these scientists.   But I didn’t have the courage nor the means to switch majors.  I did confess that I wanted to study another area (physics), but in Mexico one cannot study two majors. So, I studied philosophy for two years.

In the middle of it, I felt way too curious about science and I decided to apply to schools in the US.  It was hard at the time because college in Mexico was a lot cheaper than in the states.  At the private school where I was attending, my tuition was about $5,000 per year.  If I were to come to the US, I would be looking at costs exceeding $35,000 per year. I couldn’t really ask my dad to help me with that price tag so I started to apply everywhere and anywhere that had scholarship opportunities.

I ended up getting a letter from Brandeis 

University saying that they would let me take this advanced placement test and write an essay, which, if I did well, would give me a full scholarship.  I received a full Wien Scholarship and was to continue studying philosophy in the US.  This was probably the nicest thing that has ever happened to me because it opened the path of opportunity.

Brandeis transformed me as a person – I saw females doing science!  But, the bravado moment that changed my life was a very general course called Astronomy 101.  The teaching assistant, Roopesh, was a very sweet man from India and he saw that my eyes would just light up when I was in that class – I was much more curious than the random student that was just taking it to fulfill some requirement.   
At the end of that year, Roopesh and I 

were walking around Harvard Square and stopped to sit under a tree.  I started to tell him, with tears in my eyes, that I just don’t want to die without trying.  What I meant by that is I don’t want to die without trying to do physics.  Everyone’s questioning of my decision made me question my actual ability.  Everyone telling me ‘no’ hampered my development.  I mean, I was good at math, but I definitely didn’t have the same background as all the kids coming in with advanced math and physics courses. 
 

I told Roopesh that I don’t even remember how to solve the equation (a+b)2 – even my algebra was rusty!  But, he believed in me and went back to his professor and told him my story.  This professor decided to meet with me and ends up telling me about someone who had done this sort of thing in the past.  His name was Ed Witten and he went on to become the father of string theory.  

He said “Witten had switched from history to physics, and I will let you try too.”  With that, he handed me a book on vector calculus called ‘Div, Grad and Curl’ and told me that If I could master it in three months by the end of the summer, they would let me switch my major to physics and also let me bypass the first two years of course work.  This would allow me to graduate by the time my scholarship ran out.        
I have never in my life experienced the level of scientific passion condensed into such a short amount of time and I am jealous of the person I was that summer.  I had so much perseverance and focus.  I don’t think I can ever reproduce that intensity again.  From the moment I woke up to the moment I went to sleep, and even in my dreams, I only thought about physics. Roopesh, who became my mentor for the summer, taught me.  

I always wanted to pay Roopesh for his tutoring, but he would never accept any money.  He told me that when he was growing up in the mountains of Darjeeling in India, there was this old man who would climb up to his home and teach him and his sisters English, the musical instrument Tabla, and math.  Roopesh’s father always wanted to pay the old man for his tutoring, but the man always declined.  The man said that the only way he could ever pay him back was if Roopesh did the same thing with someone else in the world.  And by mentoring me, Roopesh fulfilled his payment to the old man.  
Out of that, that became a seed for my physics journey and purpose.  It is now my life’s mission to do the same for other people in the world – especially women – who feel attracted to science but feel trapped.  They for some reason, whether it is social, financial, etc., just can’t find the way toward science.  That is the motivation that dictates my actions.
I was able to pull it off and graduated Brandeis Summa Cum Laude with highest honors in physics and philosophy. I went back to Mexico afterwards to figure out what to do next and to spend some time with my family. At the same time, I did a master’s degree in physics at the largest university in Mexico UNAM.  My curiosity for physics didn’t diminish and in 1998, I randomly applied to two physics PhD programs in the US.  I applied very, very late, but, fortunately, I won a merit-based full scholarship from the Mexican government who provided me with funding, which made it easier for me.    


Because I loved biophysics, I did a search on who was doing this line of research.  I came across Steven Chu, who is currently the secretary of energy.  At the time I was applying, he was at Stanford and was one of the first to manipulate a single strand of DNA with his ‘optical tweezers.’  To me, his story was fascinating!  Without really knowing who he was other than what I found on the web, I wrote him an email asking him if I could work in his lab.  Had I known who he was – that he had just won the Nobel prize in 1997 – I would have been too intimidated.  


I was admitted to Stanford and was invited to work with Dr. Chu, but after two years I decided to switch labs.  As expected, it was a very challenging environment and having only studied two years of physics at Brandeis, I wasn’t as prepared as most of the other students.  I struggled for the first two years.  Everyone worked so extremely hard at Stanford and there I was, struggling to be the best, but, in the beginning, I couldn’t even be average.

Fast forward four years.  I had worked my butt off and ended up becoming the first Mexican woman to graduate with a PhD in physics from Stanford.  It was the best day of my life – I kept thinking that I was so blessed to have my parents live to see this!  It was so moving, I was crying so much and I couldn’t believe what had happened.  My friends had flown in from all over the world to be with me.  It was amazing. 

When people hear what I do, they – especially teenage girls – feel intimidated.  But, when they hear the whole story, their tune changes.  I tell them that I know what it is like to not understand something.  I was not the kind of person where comprehension of my science came naturally.  But I did it.  And if I can do it, anyone can do it!  My story can be inspirational to someone who comes from a background completely lacking in science because they, like me, can reach their goal. 
DXS: What ways do you express yourself creatively that may not have a single thing to do with science?

I was always a very curious girl growing up. I had a lot of interests, one of which being theatre.  I wanted to be an actress when I was young, but my father didn’t let me pursue that as a career, which was probably a good idea.  But, during high school, I went to an after school drama program.  I wrote my own plays – three of them – and performed one of them.  I was in heaven when I was on stage. 

In NY, I have tried to do a little bit of that.  Of course, I’ve never done any big roles, but I will be an extra in a film, or if there is a small production being made in Spanish, I will play a part.  It doesn’t matter how big the role is – I just love doing something creative and getting into a character. 

DXS: What types of productions and/or films have you done?

I don’t think I would come up in the credits as an extra, but I did a movie with Simon Pegg, Kirsten Dunst and Megan Fox in the movie “How to lose Friends and Alienate People.” It was a very, very fun film!  In theatre, Jean Genet, who is a French playwright, has a play called The Maids, and I was the madame.   

DXS: Do you find that your scientific background informs your creativity, even though what you do may not specifically be scientific?

Debbie talking to the TEDYouth audience about waves.

I have a concept that I call “physics glasses.”  And what I mean by that is, for me, physics is not a subject that you just teach in a complex way in a classroom.  Rather, physics is something that is related to everyday life.  From the moment you wake up, you can just put on your physics glasses.  It is a mode of thinking – it is a way where although reality can be very rich and diverse, physics goes very deep and it abstracts commonalities, general principles that apply to many things.  To give you an example, I asked the kids in the audience of my TEDYouth talk, “what do the sun, the ocean, and a symphony orchestra have in common?”  When just looking at them on the surface, there isn’t much in common.  I mean, they are all beautiful things but they are not obviously related.  But, to a physicist, they are all waves.   You have sound waves, light waves, and water waves and you can interchange many of the concepts in physics to explain all three.



Where most of us see the world with our eyes through light waves, other might see the world differently.  Take, for example, my friend Juan, who is blind.  He “sees” the world with sound waves – he senses sound as it bounces off the objects around him.  Through this, he can bike, play basketball, and do a load of activities using sound as a guide.  This is one of my favorite analogies because, really, physics “infects” the way I see the world. 

Deborah the Physicist model

To give you a more specific example in the creativity realm, when I got to NY, I felt really un-feminine.  When I was studying physics, I felt that if I was even slightly feminine, I wouldn’t be respected.  It didn’t help that some of the other women in the physics program at Stanford were more of a “guys girl,” always wearing a baseball cap and t-shirts.  Now, since I am Latin, I first showed up wearing a skirt to class, but I quickly learned to dress down.  Looking feminine would assure that no one would talk to me in class.



So, when I got to NY, I had an explosion.  I wanted to know what it was like to express myself as a woman and my friend suggested that I do some modeling.  So I did.  It was a brief, lasting about a year.  But during that time, my friend, who was a designer from Mexico, asked me to work with her and I wrote and did some videos about the physics of fashion, which also included the physics of high heels video.  


Some people could consider fashion to be superficial, but not me.  I love fashion and color.  But, other scientists generally looked down upon you for liking this sort of thing.   This fueled my desire to prove to everyone that there actually is science everywhere, including fashion, and that they shouldn’t be snobs about it.  There is complex science in how different materials work, how they interact with the environment and you can prove to the women, like my mother and friends back home who think that science has nothing to do with their everyday lives, that it has EVERYTHING to do with it.   So I talked about a Newtonian theory for color – how to pick the right color for you based on how much light the color would reflect on that day, etc.  

DXS: Like a more sophisticated version of colors based on your “season?”

DB: Exactly! 

I also did pieces on the materials, including some of the newest engineering accomplishments with fabric.  For example, I hooked up with a woman and helped her to design a fashionable and very scientific coat.  It ended up costing $11,000, but it was made up of nano fibers and it had a patch in it that could detect the temperature and the probability of rain.  Based on this probability, it could change permeability of the fabric.  It was a very light coat that was comfortable in nice weather, but when it would rain, it would become impermeable to water once it detected a high probability of rain, transforming into a raincoat.

DXS: That’s incredible!  I wish it wasn’t $11,000!

DB:  Yeah, that’s usually the problems with these technologies.  They are often so novel, but one day I’m sure we can figure out how to make things like this scalable.

Science is very much what guides my thinking when I am being creative and I wish I had more time to do creative things while being influenced by a scientific mindset.

DXS: It is so cool that physics has such an incredible overlap with everyday living.  Like, when we take a shower, I want to know “how is the water getting pumped from the ground or through pipes and make its way out of the showerhead?”  But, as a biochemist, I often find it hard to relate everyday things to biochemistry, but I would like to!

DB: Its funny that you say that.  When I try to teach girls that the worst thing they can do is memorize.  Critical thinking is so important and they shouldn’t take anything at face value, and they should even question teachers and authoritative figures in their lives.  Always ask: what goes into making this?  Why is this here?  Why is it this way and not another?  Constantly ask questions.  That s the gift that physics will give you. 

DXS: Have you encountered situations in which your expression of yourself outside the bounds of science has led to people viewing you differently–either more positively or more negatively?

Without saying I am a scientist, I can tell you that people have come up to me and told me that before they even hear me speak, they think I am dumb.  They are usually surprised that I am smart!  I think it is because I am bubbly and friendly and that often makes an impression as being unintelligent.  For them it seems that if a woman is intelligent, she is very cold and distant and serious.  


I’ve met a lot of physicists, and yes, some of them do tend to be that way, often as a reaction to how others treat them.  Or, people would say to me that, because I am Latin, my cultural identity comes across as being warm and the last thing they’d expect me to be into was something as cold as physics.  So yeah, I have definitely been judged so many times!  


It even happens in my current job on Wall Street, especially with my male peers.  When there are off site client meetings, I’m often accompanied by my male sales colleague.  Sales people are generally required to know less about the complexities behind our risk models compared to someone on a more research-oriented role, like me and he will bring me along to these sales meetings in case the potential client has more sophisticated questions that go beyond what he can comfortably answer.  Many times upon meeting the clients for the first time they think that I am the sales person, there to be the smiling face to sell them something, and that he is the risk modeler.  They always direct their mathematical questions to him. 
It came to a point where I became so annoyed that I decided to stop caring.  Now, my sales colleague goes out for drinks with the clients and I know that I am going to be invisible. So I don’t go anymore. I know that I am always going to struggle to get the full intellectual respect in that industry – it will always be a challenge.

DXS: Have you found that your non-science expression of creativity/activity/etc. has in any way informed your understanding of science or how you may talk about it or present it to others?

Yes, absolutely.  For example in Mexico, unlike the US, you absolutely have to do an honors thesis project as an undergrad in science.  Because I had already studied philosophy for four years, I wanted to do a thesis project in philosophy.  But I also wanted to do one in physics.  I recall that back in 1997, when you presented a dissertation in front of the physics community, if you had any power point, forget it.  You would be immediately be called dumb or not a good physicist.  Because, who takes the time to do something fancy!  If you had any color in your presentation, forget it!  


So, literally, the smartest students in physics were people who didn’t really communicate that well, or didn’t really speak English that well, or just didn’t really make an effort.  Their slides were on those overhead projector things with those rolls of plastic sheets, and most of their talks were so confusing and couldn’t be interpreted!  But they were respected!  It was just assumed that if the formula looked complex, they were probably right. 
So what I did was completely different.  I infused my talk with my spiciness and color.  I did an artwork of liquid crystals, which was my research at Brandeis.  Liquid crystals are little cigar-shaped molecules that actually make up the screen of your laptop.  If you pass an electric field through them, they all orient themselves and that is how we can use them for displays in our laptops and TVs. 

I colored these cigar-shaped molecules with purples and reds and greens, and I tried to explain it at the most basic level. This is because of one my philosophy professors in Mexico, who told me that if you cannot explain what you do to your grandmother or 6 year old niece, you don’t understand what you are doing – I loved it!  


And I said to myself that I shouldn’t care what they think.  I pretty much expected to not gain a lot of respect from the physics department, but it had the opposite effect!  I actually had one of the professors from that department come up to me and tell me that he had never really understood what a liquid crystal looked like or what it really was!  He said that “finally I understand [liquid crystals] because of your drawing.  Thank you!”  It was incredible!  


To see the effect on people and from then on, I bounced up in down, I made jokes, I put in creativity.  It doesn’t always have a great effect on very serious audiences, but the younger generation is definitely appreciative.  When it keeps going well, you gain confidence.  And, for me, I even started wearing high heels to the next talk.  When someone commented about my attire, I would counter, hey I have a PhD!

DXS: How comfortable are you expressing your femininity and in what ways? How does this expression influence people’s perception of you in, say, a scientifically oriented context?

This question is deep and a little bit of a struggle at the moment.  This is because I still have that fear – when I arrived in NY, I did that short stint in modeling and I expressed myself and I would dress very creatively – just like my other girlfriends who were not scientists.  But I did feel a little bit of a backlash.  By that I mean that I would post a photo of myself on Facebook or something like that.  They were pretty pictures, not at all seductive or provocative, and my high school mates, usually male, would write me saying: “I always knew you as a serious person and you have achieved so many things – I am just telling you for your own good that this can really damage your image.”  That made me reply with “so you’re telling me that being smart is actually kind of a bummer?”  That actually means that I have to dress very differently from what other women wear for the rest of my life? 

I remember feeling very upset about all of that.  I think that not being taken seriously is still a little bit of a fear of and I think my website has damaged my serious image a little bit.  As a scientist, I was very secluded from the outside world.  I didn’t have a lot of friends when I moved here, but I did know an amazing and powerful woman who happened to be the CEO of Blip TV.  She was insisting that I do videos!  So she invited me to her place and showed me how to do video.  Being the quick woman that she was, she asked me to make up a name for myself on the spot.  When I didn’t answer, she instantly coined “The Science Babe” for me.  I was like, sure, what a cool idea! 

It was kind of a cute name, but because English is not my first language, I don’t always understand some of the cultural connotations associated with some English words.  A few months later, I started to get a few emails from mothers who were upset that I was using my looks.  They would say things like “Are you saying that women have to be in the kitchen or wear short skirts  to be scientists?”  I would answer that no, that was not it at all.  I would further explain that I was trying to change the definition of “babe.”  If you are smart, if you are empowered, you will be a babe no matter how you look.  I am trying to shift what people think of when they think “scientist.”

I don’t feel quite successful with The Science Babe.  It seems like there are quite a few people, especially some from the older generation, who say that they’d love to introduce me to fancy science organizations but are worried that the name “the science babe” will make it difficult.  Also, I had the BBC wanted to talk to me about doing a TV show in NY, and then they said but there’s so much bad stuff out there about you!  And I was like, what do you mean?  They answered “All these things with the “science babe” brand…”

It doesn’t happen all the time, but some people are really critical about the science babe theme, citing that its way too feminine.  Other female scientists that haven’t gone that route have perhaps discounted my seriousness about science.  They assume that what I am doing is not really that important because I do focus on the science everyday life, which is simpler, and it is too much color and too much vivaciousness for our field.  I feel like my femininity has decreased over the last few years because I’ve been too nervous about not being taken seriously.  It s almost like the balance tipped the other way. I feel like perhaps I’ve feminized things to a fault and now I want to appear more serious.  So, I am changing my website to “Science With Debbie” because I really felt the backlash.

It is a struggle to find the balance between being able to express my femininity and presenting myself in a way that people will take me seriously.  In a way, I wish I had a little more courage to not care that much about what people have to say about the science babe but, unfortunately, agents have told me that if I don’t go to the “dumbed down version of femininity” I would get better speaking engagements.  Being feminine has literally affected my career, and it’s because of other people’s perceptions.  I’m never going to be bland, but I will try to change things so I am more serious

DXS: Do you think that the combination of your non-science creativity and scientific-related activity shifts people’s perspectives or ideas about what a scientist or science communicator is? If you’re aware of such an influence, in what way, if any, do you use it to (for example) reach a different corner of your audience or present science in a different sort of way?

The fact that I am approachable and pretty down to earth has allowed me to reach corners of society that more distant and fancy scientists would never even consider. For instance, I am going to a small university to give a talk.  Some of my friends ask why I even bother, especially considering that this insitution is not the most renowned university.  But, I feel the opposite – it is these corners that need the influence the most!  Similarly, when I go to Hispanic high schools, many of the mothers have never seen a scientist.  And there I am, a scientist from Mexico, speaking to them and their kids.  It is that powerful combination of being a smart and warm female that can be shocking, which is cool.

In line with this, there was an experiment where women were asked to draw a female scientist.  Most drew a plain, relatively unattractive woman.  Immediately when you break that mold, it has an incredible effect.  People say, “Hey! She kind of looks like me and she dresses like me.  Maybe I can do science too!”  Some girls are afraid that by being smart, boys won’t talk to them.  My femininity allows me to be a voice in a field that has tended to isolate themselves from the public, which is bad. Some of my colleagues have become a little snobbish.  The fact that I have serious credentials (PhD and 2 postdocs) shows that I had to work like crazy – looks and personality can only go so far.  It s hard work that gets you there! Serious science communication has a lot of math and problem solving in order to explain things accurately to the public. So I still feel like I am doing science!

   

   

Double Xpression: Darlene Cavalier of Science Cheerleader and SciStarter

Darlene Cavalier (source)

Darlene Cavalier (Twitter) is the hard-working and seemingly tireless founder of Science Cheerleader and SciStarter. She has held executive positions at Walt Disney Publishing and worked at Discover Magazine for more than 10 years. Darlene incorporated her experience and knowledge in serving as the prinicple investigator of a $1.5 million grant from the National Science Foundation to promote basic research through partnerships with Disney and ABC TV and also has collaborated with the NSF, NBC Sports, and the NFL to produce the Science of NFL Football series. She holds a master’s degree from the University of Pennsylvania where she studied the role of the citizen in science and is herself a former Philadelphia 76ers cheerleader. In addition, she is a writer and senior adviser to Discover Magazine. You can find her full biography here.


On top of all of that, she is also mother to four children. You might be able to blame them for the two-day stomach flu Darlene was just getting over when she talked with Double X Science Managing Editor Emily Willingham about why women pursue professional cheerleading (hint: it’s much more about passion than pay), why cheerleader stereotypes are “bunk,” and why even if Science Cheerleader doesn’t lead all little girls into science, it leaves them with a message about being secure in who they are.

DXS: First, can you give me a quick overview of what your scientific background is and your current connection to science?

A: So I have no formal science degree. My connection to science is that I work and continue to work at Discover magazine. I worked there as business development coordinator, and that’s how I became reintroduced to science. I became a fan of science later in life. After working at Discover for a couple of years and having some children [Cavalier is the mother of four children], I wondered if there was a more significant role for someone like me without a formal science degree. My role at Discover had become curating science on behalf of the magazine. How do we get average public to move in the direction of science literacy?

I went to grad school at the University of Pennsylvania to look at those issues. When I met with an advisor (there), he recommended that I go for a masters in liberal arts, which made sense to me at the time. They created a curriculum for me. Most was in the history and sociology of science and some was in school of education. Piecing all of this together was a turning point for me in my life both prof and personally, I started to learn about these citizen scientists to engage nonscientific members of the public in real scientific research.

I saw huge gaps in getting people to move in that direction. Other countries were enabling citizens to take part in conversations about science policy on national levels. The U.S. didn’t have mechanism for that. That was one gap I saw. Another was people weren’t getting involved in citizen science projects…(they were) hard to find and scattered all over websites. It was a mechanism problem, not philosophical or societal. In grad school, I created a matchmaking site of all citizen science projects I was coming across. I decided to make that database public for people to add their projects, and made it searchable. There were no cheerleaders involved in science cheerleaders when I started the blog…it was about the citizen science projects and reopening this agency for public input. (It was not about) cheerleaders specifically.

                                            

DXS: So how did you end up incorporating the cheerleader aspect?

A: That was basically a fun way of using my background–it is surprising to people that I was a (Philadelphia) 76ers cheerleader. I kept it secret for long time at Discover, fearing I wouldn’t be taken seriously. I wish I hadn’t attempted (to keep it) secret; when it was “exposed” at Discover people were great about it. They thought it was pretty neat. So I became more comfortable in that role. I wanted to do a tongue-in-cheek look at this when I was starting the blog that this site really is for everyone. Citizen science projects are for everyone; it doesn’t matter if even a quote–unquote “ditzy blonde cheerleader” can do it, surely the scientists could figure it out, and the politicians.


(When the concept of Science Cheerleader really took off), we thought, “We’re on to something.” Most people loved it. Criticism came from feminist science bloggers, which I totally understand…I learned something there, too… (this idea of), “these women aren’t scientists, what are they doing?” Then I started getting emails from actual NFL NBA cheerleaders, (telling me) “I’m getting PhD in chemistry,” (and saw it as) a great way to merge two parts of my life. I could hardly believe it. I never even had thought to ask cheerleaders if they were studying any of the STEM fields.

It became cyclical. The founder of the U.S. Science and Engineering Festival called and asked Science Cheerleader to come to that festival and perform. I had to tell him I’d never met them. We got a grant from the Burroughs Wellcome fund to cover travel for 11 science cheerleaders to come to Washington and perform. They had awesome outfits, speaking roles. It was more or less an experiment. Amazing performers against a science theme routine and incredible public spokespeople.  Applying their talents of being enthusiastic about their team to science and tech careers. They were a huge hit at the festival. 

We left each one speak their own language. They’re very diverse. It helped to have that diverse makeup and watching them talk to little kids. Little girls would come up to them, almost like when you see Cinderella, would want their autographs, to touch their uniforms, feel their pompoms. It was a great opportunity to say, “We love cheerleading, but in the daytime I make cars, I’m what you call an engineer.” Some of the dads and the moms were more attracted to the team (the cheerleaders) represented, and they learned that no cheerleader makes a living on 35 bucks a game…they have professions.

We started to realize we were challenging stereotypes of scientists, cheerleaders, engineers. We have so many science cheerleaders in the database, working now with the NFL and NBA, (that) when a local event is happening, I can contact science cheerleaders in the Boston area tell them, and they can go if they want. They don’t have talking points … they say what they want to say. A Patriots cheerleader says cheerleading was great for her professional career, standards were super high for her in college. (You have to maintain) a GPA to be cheerleader and athlete, (and that) was helpful.

DXS: And you’ve encountered some criticism from feminists or women in science. How do you handle that?

A: You can’t be a science cheerleader unless you have science connection. I’m the only fraud in the group. That’s the criterion. What is different, there was so much media play…NPR, CNN, TODAY Show, you can only get across so much in a video. A couple of people took a video where someone says “go science” and assumed we’re just dressing people up as cheerleaders and sending them around to yell that. (But) there’s a lot of depth with what they do.

Many are very accomplished in their fields, going on to do research. One is getting her PhD in chemistry, working on gold nanoparticles to treat pancreatic cancer. That criticism that’s ill informed is the worst type. Putting them in a bad light and they don’t deserve it. They volunteer to do this. They do it because they really believe in it. There are an estimated 3 to 4 million cheerleaders in the US. They want to reach that group, let them know it’s OK to love math and science, (to say) here’s my experience, here’s how I learned what an engineer is, here’s what my day is like. They’re all available to be pen-pal partners. As much as we preach “don’t let other people bother you or criticism bother you,” I don’t like to see ill-informed or misinformed statements.

Q: Have you encountered situations in which your expression of yourself outside the bounds of science has led to people viewing you differently–either more positively or more negatively?

A: Yes. (What) we have is mostly anecdotal…have a number for people coming to site, watching video, we try to save emails and letters that come in from moms of little girls who just want to be cheerleaders but also are talented, and the moms feel they’re talented in math and science and grow concerned about their daughters losing that for their love of cheerleading and dance and are happy to see these role models on the site.

In terms of other positive impacts, if we just look at it from public outreach, it’s been incredible because of the media’s interest. Media interest in this, the teams themselves…it’s not easy to reach Baltimore Ravens fans w positive messages about science and tech or women and science and tech, so when the Ravens repost the interviews and tweet it to their fan base, that’s very positive.

Lines at live events are pretty long with kids lining up to get autographs from the Science Cheerleaders. We always look for local or regional citizen science activity to capitalize on that attention to get those people to do something. For example in South Texas a science and engineering festival. We did our routine, a bunch of people line up for autographs, our choreographer is the reigning Miss United States. That attracts people as I talk about a local researcher who needs their help for citizen science project. (It’s) super simple to use that attention to say “hey, by the way, you’re needed. When you see this crayfish–hold up a picture–it’s considered invasive. Here’s Dr. Zen!” He (Dr. Zen) came out and talked, while they’re waiting inline, a captive audience, and we give the Website where they can get involved.

Our sister site, is now a full-size website called SciStarter, a startup company. That was named one of Philly’s top-10 tech startups last year! It aggregates all of the citizen science projects out there. We rely on that at all of the Science Cheerleader appearances.

I can do what I know how to do, but I would love some grad student or organization that does evaluations or measures outcomes and help me learn more about the metrics, direct outcomes that can be measured, and how do I do that.

DXS: Have you found that your non-science expression of creativity/activity/etc. has in any way informed your understanding of science or how you may talk about it or present it to others?

A: It’s a great question. It’s interesting because that Science Cheerleader blog that I started with and still have–it’s a very diverse audience. There are people who came because they’re reading about their favorite teams’ cheerleaders doing cool things and that ‘s great. I’d have a lot of those types coming to the site, and they’d learn, “hmm that’s interesting I didn’t realize that’s what a chemical engineer does,” then look to their right and see, “hmmm this is happening in Boston”… and take next step from passive reader to getting involved in a citizen science project. The goal is to move them to being actively engaged citizens getting them prepared aware involved in the science policy conversation. I know that sounds so farfetched but not nearly as much as a couple of years ago.

It is not easy to talk to different audiences. I used to preach “know your audience,” but I’ve learned more from my audience than they may have from me. I consider some of the science bloggers, and they’re a part of the audience. I learned they don’t like 76ers involved without science degrees, and we responded to that. What one group likes another won’t. There’s no “one size fits all.” We try to (appeal) to a wide variety of audiences coming to site….from those interested in science policy to people who come because they want more about citizen science efforts. We can point them to these things through SciStarter.

DXS: How comfortable are you expressing your femininity and in what ways? How does this expression influence people’s perception of you in, say, a scientifically oriented context? And does that impression evolve at all?

The initial impression, even through me–and I think the Science Cheerleaders would say this too, even when I was of the Sixers…(pauses)… let’s talk motivation for a minute, why most of these women choose to become professional cheerleaders, why would you do that? The bottom line is that there are very few opportunities to continue dancing and performing once you’re out of college. My personal experience–and you’ll see this in interviews–your options are so limited, and we wanted to continue performing, usually it’s dancing. We see an audition in paper, and they’re looking for people who know how to do triple pirouettes, and the opportunity to continue to perform is there.

I wish we didn’t have to wear those uniforms when I was on the Sixers. I loved every single thing about it except for some of the uniforms. I would love for the NFL and NBA to look and say, “We didn’t realize cheerleaders felt that way and tone it down,” (but) it’s not going to happen. I encourage people to read interviews to see what motivated some of the cheerleaders. I wasn’t a gung-ho Sixers fan who wanted to do this for the team, but some people almost their whole lives dreamed of being a cheerleader for their team.

In terms of embracing being feminine, I don’t know anyone who is that 100% of the time. My hair looked decent, I wore OK clothes, but I don’t walk around like that all the time. I think that the reality of the situation is there’s no one walking around looking like a professional cheerleader all the time. I doubt that the Science Cheerleaders look like that when they go into the lab, not because they want to be taken seriously but for convenience. It s a lot of work to look like that.

I wish that the people who pave the way for these Science Cheerleaders to be exploring the careers they have now–lots are supportive and embrace them but that also happens to be where the toughest critics are embedded. They know better than anyone what it feels like to have somebody work against you. I wish they’d ease up on Science Cheerleaders and let them be all that they can be. They can relate to an audience it’s not easy for us to reach. I can’t reach those little cheerleaders out there myself, but they can, maybe through pom-poms or uniforms or a connection with the moms. It does evolve

Some teams require you to be in school full time or have a full-time job. They want smart cheerleaders because you have to be out doing public speaking so if you’re not articulate or bright…pretty girls and good dancers are a dime a dozen…your success comes down to your interview.

These Science Cheerleaders are by far way more secure in their dual roles than I was. I’m not sure why or how, but when you see them at appearances, they’re looking for ways to embrace these two roles. They’ll say in their interview, I don’t care what people in my lab think about my wearing makeup and so on, and they mean it. These women walk the walk.

DXS: If you had something you could say to the younger you, back when you weren’t so comfortable with yourself about the role of expression and creativity in your chosen career path, what would you say?

A: If I had read one of these interviews when I was, say, in fifth grade, and I read one of those Science Cheerleader interviews, it would resonate w me in a different way. It might not have an impact on me personally when I was a kid…the cheerleaders on our team, we were athletes. Most cheerleaders are leaders in their schools, involved in leadership and academics, student government. The stereotype is total bunk. 

I can tell you that in some point in my life, I can think back to times, like my first big job at Discover, had I read these interviews as a kid, I may have felt more comfortable about being authentic about every aspect of me. 

To use the Pop Warner example, we set a world record with them, 1300 little cheerleaders cheering for science for five minutes. I have a sneaking suspicion that fast forward 10 years from now, they might be interviewed, by you maybe, about how they got interested in science, and they might say, when I as in 8th grade, I got called in to do this science cheer thing, and it opened my eyes to science as a valid career. If it doesn’t happen at a young age for some of these girls, they might reflect back to something they experienced science cheerleading and feel entitled to embrace all that they are and feel good about that.
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See the Science Cheerleaders in action at the Science and Engineering Festival:

By Emily Willingham, DXS managing editor 

Double Xpression: Karyn Traphagen, co-founder of ScienceOnline

Hanging out with Al.

Karyn Traphagen is the Executive Director of ScienceOnline Inc., a non-profit organization representing a diverse science community that cultivates conversations both online and face-to-face. At face-to-face events, including a perennially popular signature conference in North Carolina, ScienceOnline encourages creativity, collaborations, connections, and fun. Through social media, the ScienceOnline community listens, supports, shares, recommends, and reaches out. ScienceOnline also develops tools such as ScienceSeeker news river and curates The Open Lab, an annual anthology of the best science writing on the web.

Karyn previously taught physics at the high school, undergraduate and graduate levels. As a teacher, she sought to connect the science of the curriculum with the everyday life of her students and to instill lifelong skills for learning. Karyn completed graduate work at the University of Virginia and also studied at the University of Stellenbosch (South Africa). She has trained physics teachers through the University of Virginia’s Physics department and traveled to South Sudan to conduct professional development training for local teachers. She has more than 10 years of experience developing and teaching online courses.

In addition to her science work, Karyn maintains a freelance graphic design studio. Her latest project was a work on Ancient Near Eastern royal inscriptions.

Karyn lives in Durham, North Carolina, and she encourages readers wherever they are to Stay Curious at her blog. Connect with her on Twitter or Google+. You can also follow ScienceOnline on Twitter and Google+.  [Editor's note: Karyn is also an official ADK46er, which is pretty incredible.]



DXS: First, can you give me a quick overview of what your scientific background is and your current connection to science?

Karyn enjoys creating art with…LEGOS!

I remember one of my favorite childhood gifts was a chemistry set and a microscope. My mother was a great role model. She left a job as a chemist to get married and raise a family, but she always instilled in me the attitude that if I was interested in any subject, I could learn it and do it. I always accepted a challenge.

Although I attended excellent public schools, I had to overcome some significant challenges. Our family was one of the only ones in our town designated as eligible for the new free lunch program, and I started high school when Title IX was passed (go ahead, do the math). This was an exciting time for girls in school–but not just for sports (our legacy to our 8thgrade class was a change in our public (!) school policy to allow girls to wear jeans).

I was thrilled to be the one of two females on our Math League squad and to have access to advanced science courses and labs in high school. It seems I always took a circuitous route though. I helped change the rules so that I could graduate in 3 years. I was very fortunate to have lots of opportunities after graduation (including being recruited for the first female class at West Point). But then, I took on other responsibilities and went back to school later to finish my degrees.

In addition to research, I have taught high school physics and physical science, undergrad physics (I especially liked the Physics for Non-Science majors!), and helped to develop a degree program in the university physics department for high school physics teachers. I’ve led sailing trips in the Bahamas for biology students and I’ve been trained by the American Meteorological Society to use live data in classrooms. I’ve even been a programmer. Obviously I’m interested in too many things for my own good.

Currently, I am the Executive Director of ScienceOnline, a non-profit organization that facilitates discussion about science through online networks and face-to-face events. We welcome all to the conversation – scientists, journalists, librarians, educators, students, and anyone interested in engaging in science. Four words that help to define ScienceOnline are: Connections, conversations, collaborations, and community. We also develop projects that work to connect scientists and their research to the public. I’m thrilled to be representing this thriving community, and I enjoy working with so many talented, brilliant, and fun people.

Karyn has traveled to South Sudan to conduct professional development training for local teachers.

DXS: What ways do you express yourself creatively that may not have a single thing to do with science?

I have an insatiable thirst to learn and try new things, which has resulted in a string of very diverse jobs. Over the years my creative activities (and jobs) have included medieval calligraphy, art, photography, mathematics (I count this as creative), LEGO creations, graphic design, garment creation, gardening, construction projects, violin/guitar (as musician and also instructor), studying ancient languages and writing systems (both real and created).

On the surface, many people think these are not “science-y” but really, they are all about science. Seeing that connection is something I love to introduce people to. My science career has included research that helps create more bio-fidelic crash test dummies (I worked with cadavers–this makes for great party stories), meteorology, high school physics teacher, and university physics instructor. I used to think that people would think I was flighty or unable to commit to a project. Now I see the benefits of having been successful at so many different skills and fields of study. The key was seeing how they all tapped into my curiosity and creativity.

DXS: Do you find that your scientific background informs your creativity, even though what you do may not specifically be scientific?

Definitely. Paying attention to the details of the world gives me opportunity to see beauty, symmetry, order, and chaos in unusual places. I am thrilled by the macro and the micro vision of our universe and lives (which is why I continue to study other fields of science in addition to physics). These are not only realms to explore with experiments, but to experience emotionally and to communicate creatively. I have learned to appreciate the details in science and that carries over into the art, photography, design, and construction projects that I may spend time on. Even my tattoo (snow crystals) reflects both beauty and science (and a lot of personal meaning too!)

DXS: Have you encountered situations in which your expression of yourself outside the bounds of science has led to people viewing you differently–either more positively or more negatively?

I think that sometimes the more conventional creative side of my life makes me seem more “human” and approachable. When non-science people ask what I do, I don’t usually start with “physics” in the answer because that often is hard for people to relate to and the conversation dies. But if they get to know some things I am interested in or the diversity of things I’ve created, and THEN learn about my science background, they are more likely to perceive me as more than a physics geek. At that point they feel more comfortable asking questions about science.

On the other hand, some of my science colleagues in the physics department saw those other activities as something that took me away from time that could be spent on physics. Even if they thought my non-science activities might be amazing they minimized their value. Thinking back now, maybe this is why I keep so much of what I do to myself and it takes time to draw out of me all the things that I have had the joy of learning and doing.

I think there is a geek aspect to many of the things I like to do. They don’t completely overlap with the same brand of geekiness though. It’s just that you align yourself with a community that is very engaged in a certain niche. A tribe if you will. Some of these tribes don’t understand each other very well, so I sometimes feel like an ambassador of the various communities I am a member of.

DXS: Have you found that your non-science expression of creativity/activity/etc. has in any way informed your understanding of science or how you may talk about it or present it to others?

Karyn collecting water samples in Molokai, Hawaii

Yes, I used to focus more on the narrow aspects of my field. Now I try to see interconnectedness—not only with other fields of science, but more broadly with day-to-day life. My “non-science” expressions are really gateways into understanding the science better or being willing to think more creatively about how to solve a research problem. Bottom line: I always want to stay curious. We don’t value curiosity enough. I think curiosity undergirds creativity. Curiosity doesn’t just beget science questions. We also have to ask, “What would happen if I mixed these colors together?” or “How small can I write with this pen nib and ink?” or “What kind of effects can I create in this photograph by changing the lens?”

DXS: How comfortable are you expressing your femininity and in what ways? How does this expression influence people’s perception of you in, say, a scientifically oriented context?

I really tried to think about this carefully. In the physics department at the university where I worked, my main concern was not the fact that I was in the minority (or that there were more men’s rooms in the building), but that the lab was freezing and I needed to keep warmer layers at work to survive! Basically, the lab protocols determined what kind of clothing and shoes I could wear, how I kept my hair (out of the way!) etc. I never felt those things were anything particularly against being feminine, but I didn’t go out of my way to wear makeup or dress special.

On the other hand, I do think that female visitors and students who dressed more feminine were definitely treated differently. I desperately wanted to be valued for my ideas and work ethic and not what I looked like or which bathroom I used, so I was probably more affected by others attitudes than I realize(d).

Probably the most feminine thing I’ve ever done was to have children and show my priority for them (I realize that there are fathers who do this too, so it may be more a parent thing than a feminine thing, but in the society I live in, it is still the mothers who bear the lion’s share of the responsibility for child-rearing). I had colleagues who could not understand some choices I made because of family. They felt I was wasting my potential (whatever that means!).

Now that I am not in a lab and don’t have small children at home, I alternate between tomboy and professional attire. I do like that it is easier to create a more feminine professional wardrobe these days.

I find it odd that women are complimented for their appearance more than men. I don’t think people realize how out-of-balance this is. I try to notice and mention men’s clothing and appearance as a small step toward equalizing that.

DXS: Do you think that the combination of your non-science creativity and scientific-related activity shifts people’s perspectives or ideas about what a scientist or science communicator is? If you’re aware of such an influence, in what way, if any, do you use it to (for example) reach a different corner of your audience or present science in a different sort of way?

I think that getting the attention of whatever audience you are addressing is paramount. You may have something wonderful to share, but if you don’t have their attention, it will fall to the ground. I want to develop a relationship with people in order to get them to trust me, believe me, and be interested in what I have to say. Dispensing information is not enough.

The manner in which I communicate makes all the difference in how the person will engage the topic. To do this, I need to listen first and understand who my audience is. Using creativity, I will then try to connect with each person or audience in a way that I hope will best bring them along the journey I have experienced. Some people will want to know more specific details, others will want to know how it affects their lives, and still others will challenge and question my thoughts and methods.

Using visual arts (e.g. fine arts, video, etc) can be as important as a data chart. As long as the conversation continues, then I have been successful in communicating. My goal is to make someone (whether a researcher or a teenager) so interested that they will take on a search for more information on their own. That’s really how we learn and retain best—to explore something we have invested our own time in.

I also use a variety of outlets for communication. There are definitely important and different roles for journals, conference presentations, Twitter, blogs, Google+, etc. These diverse outlets are just as important as creative ways of presenting material. Again, you must always be aware of your audience. I would use a museum’s Twitter account to communicate differently than I would my regular account.

DXS: If you had something you could say to the younger you about the role of expression and creativity in your chosen career path, what would you say?

Knowing myself, I’m not so sure that the younger me would listen to any advice I would give! In some ways, going through the experiences is what made me who I am and there are no short cuts for that. However, there are definitely things that would have been great to learn earlier on.

So, I would tell the younger me not to try to keep creative interests and career objectives separate or think that they have to be at odds with each other. They don’t need to be in competition for your attention. Creativity, job skills, life experiences, and responsibilities can interweave. You will not only be more content, but probably more productive in all your endeavors.

I would also tell her that “no” is not a dirty word and that it is ok to be selective in how you spend your time.

Double Xpression: Liz Neeley, Science Communicator Extraordinaire

Liz Neeley: Science communicator extraordinaire
and lover of fine fashion… and bread.

Liz Neeley is the assistant director at COMPASS where she helps develop and lead the communications trainings for scientists, and specializes in the social media and multimedia components of their workshops and outreach efforts. Before joining COMPASS, Liz studied the evolution and visual systems of tropical reef fishes at Boston University. After grad school, she helped communities and researchers in Fiji and Papua New Guinea connect their knowledge of local coral reefs ecosystems to the media. She also dabbled in international science policy while working on trade in deep-sea corals. Liz is currently based in Seattle, at the University of Washington.  You can find Liz on Twitter (@LizNeeley) and on Google+.  Also check our her passion projects, ScienceOnline Seattle and her SciLingual hangout series.  






DXS: First, can you give us a quick overview of what your scientific background is and your current connection to science?
I was one of those kids who knew from a really young age what they wanted to be, and that was a fish biologist.  Sea turtles, dolphins – no way – I wanted to study fish. My mom actually found an old picture I drew when I was in third grade about what I wanted to be when I grew up: it was me in a lab coat, holding a clipboard, and tanks of aquaria behind me. 

You combine this with the fact that I am also a really stubborn person, and I just wanted to do science straight through all my schooling.  Not just the coursework either – I did an NSF young scholars program in high school, was the captain of the engineering team, and, of course, was a mathlete. 

I did my undergraduate work in marine biology at the University of Maryland.  I did three years of research there on oyster reef restoration, and then went straight into my PhD at Boston University, where I studied the evolution of color patterns and visual systems in wrasses and parrotfish.

I actually did not finish my PhD.  Life sort of knocked me sideways, and instead of finishing my PhD, I ended up taking a masters, and then going into the non-profit world.  At first, I mostly worked on coral conservation in Fiji and Papua New Guinea, and I did a big project on deep sea corals. 

After I left grad school, I started a 20-hour per week internship at an NGO called SeaWeb.  Vikki Spruill, who was the founder and president, has killer instincts and a passion for women’s high fashion that I share. She had noticed coral jewelry coming down the runway in Milan, Paris, and NY. People just didn’t have any idea that these pieces of jewelry were actually animals, much less that they were deep sea corals. 

So we launched a campaign called “Too Precious to Wear,” which partnered with high-end fashion and luxury designer to create alternatives to these deep sea corals – celebrating coral but not actually using it.  The Tiffany & Co. Foundation was our major partner, and we got to throw a breakfast at Tiffany’s that brought in fashion editors from Mademoiselle and Vogue.  

Everyone always dismisses women’s fashions as shallow and meaningless, but this ended up being this huge lever that got a lot of attention for deep sea coral conservation, and my piece was the science that pinned it all together. I got a taste of the international policy component of that as well, and headed to the Netherlands for CITES (the Convention on International Trade in Endangered Species) as part of the work.  I knew the science, but certainly helped that I knew how to pronounce the names of the designers too – opportunities like that to bridge cultures that seem foreign to each other are tremendously powerful. 

I currently work at COMPASS, which is an organization that works at the intersection of science, policy, and communication/media.  Our tagline is “helping scientists find their voices and bringing science into the conversation.” For my part, this means, I teach science communications trainings around the country, helping researchers understand how social media works, how reporters find their stories, and how to overcome some of the obstacles that scientists often put in their own way when they talk about their work. 

What I love about this work so much is that it keeps me in the science community – around people who are pursuing tough questions. That is how my brain works, it is how my soul works, and I want to be a part of it.  The power of this for me is to be able to take in all of this knowledge that is generated by these scientists and help connect it to the broader world.  I feel like this is the best contribution I can make.     

DXS: What ways do you express yourself creatively that may not have a single thing to do with science?

I am a pretty artistic person – or at least I think of myself as a pretty artistic person!  My creative outlets usually involve some kind of graphic design.  I am always giving presentations for my work, and I constantly ask “what do my slides look like, and am I telling a good story?” I so lucky that I get to spend a lot of time thinking about imagery, visual storytelling, and how people react to art or data visualization. 

I also paint and draw (though I wouldn’t really share those) and I cook.  I am actually doing a bread baking experiment this year where I am trying out a different type of bread recipe every weekend. 

It can be really funny because sometimes, if it has been a really stressful week, I will look for a recipe that really needs to be punched down or kneaded for a long time. It’s a good workout too! And then we have this amazing bread every weekend.  It is all about the aesthetics for me – I host dinner parties, bake, have a great garden – all of that is sort of my own creative outlet.

Some experimental results from Liz’s bread project.  
DXS: What is your favorite bread?
The delicious baguette
LN: Oh, the baguette. I made my own for the first time last weekend and it was really fantastic! I realize that baking is one of these things that, if you want to do it properly, you have to be very precise. You should weigh the ingredients. But I’m precise in the rest of my life. When it is the weekend and I am having fun, I kind of love it when the flour is just flying everywhere.  As a result, my loaves are a little bit mutated, or just not quite right, but they are delicious!  Some of my other favorites also includes a great focaccia (the recipe for it is below!).
DXS: Do you find that your scientific background informs your creativity, even though what you do may not specifically be scientific?

Yes, absolutely.  It’s funny because when you asked the question about my creative outlets that have nothing to do with science, it was not entirely easy to answer.  You know, science is who I am – it permeates everything I do.  When I am baking the bread, I am thinking about the yeast and fermentation.  When I am painting, I am thinking about color theory and visual perception – after all that would have been what my PhD was in! 

Speaking of color theory, Joanne Manaster recently shared a “how good is your color vision?” quiz. I took that test immediately to see how I would do. That lead me on this interesting exploration around the literature, and I read one theory that Van Gogh might have had a certain type of color blindness.  I love this question of how our brains interact with the world. In animal behavior the concept is called “umwelt” – each species has a unique sensory experience of the environment. I like to think about how that applies to individual people to a smaller degree.

I think about this all the time – science, creativity, art, aesthetics – it is all one beautiful and amazing thing to me.

DXS: Have you encountered situations in which your expression of yourself outside the bounds of science has led to people viewing you differently–either more positively or more negatively?

I accept the fact that, especially when it comes to strangers, we make up stories based on what we see – clothes, hair, etc.  I know that this happens to me as well.  When we talk about femininity, it’s no secret that I am a girly girl.  I wear makeup and heels. That’s how I feel most like myself, how I feel best. I know that this doesn’t sit well with everybody, but that’s ok. I like to think that I hold my own. Give me enough time to speak my piece and I can back it up. I’ve got an interesting career, I am a geek, and it is not hard for me to connect with people once we start talking.

In science we say that we don’t have a dress code, but the reality is that we do. Maybe it’s unspoken, and sure it is not the same as you see in the business world, but when you look different from how everyone else looks, people do want comment on it. I don’t feel like it is particularly negative in my case, and I feel that it doesn’t impede me. What is most exciting is that it often opens up conversation – mostly with other women who say “oh I really like your dress, I’ve been wearing more dresses lately!” 

When I was an undergrad, I was kind of oblivious to the whole dress code thing.  One day, when I was in the lab, I was wearing this pink, strappy sundress, tied up the back, and these stupid platform sandals that were really tall (clearly not appropriate lab gear).  I was scrubbing out this 100-gallon oyster tank and my advisor happened to walk by and he sees me doing this. I remember freezing – all of the sudden I was afraid he was going to mock me or lecture me, but he just said, “Oh, Liz… Keep on.”

My graduate advisor was the same way – he acknowledged who I am and didn’t bother about how I dress. We didn’t avoid the topic.  It just wasn’t an issue. I hope that other women can have that same experience. It doesn’t matter if you are a tomboy or a girly-girl.  I don’t care – I am not judging you. You don’t have to look like me because I am in a dress.   

This is why I love this #IAmSciencememe, and the whole “be yourself” mentality. And that is what I am going to do. I’ve decided to be myself. I accept the fact that not everyone will like the look of me.  But, I think that we will eventually get to the point where we understand that science can be presented in lots of different ways.


DXS: Have you found that your non-science expression of creativity/activity/etc. has in any way informed your understanding of science or how you may talk about it or present it to others?

For me, my job with COMPASS really is sitting at this nexus of asking how we share science with people who aren’t intrinsically fascinated by it or connected to it.  This is very much a ripe field for thinking about creative expression.  Mostly, we come at it in terms of verbal presentations, storytelling and written materials, but then I specialize in the social media and multimedia components.  I am always thinking about everything I am reading and seeing – news, art, music, fiction – and how we can apply what resonates with others in these non-science realms.  It is very much a two-way thing; my science informs my creativity and my creativity informs my science.  That makes it really fulfilling and exciting for me.

I see this in terms of the ability to make connections.  When I am standing up in front of a group of researchers doing a social media training, I am making pop-culture references, alluding to literary works, quoting song lyrics.  When you get it right, you can see someone’s eyes light up.  It’s just another way to connect – people sit up and pay attention if you can make a meaningful reference to the artist they love or the book they just read.

One of the questions we always use in our trainings is “so what?” So you are telling me about your science, but why should I care?  Miles Davis has a famous song “So What?” and we play that in the background. It makes people smile. It makes it memorable. I love that. I really like this idea that we should be using the fullness of who we are and our creative selves, including all of the sensory modalities, to talk about the very abstract and difficult scientific topics we care about so much.


(DXS editor’s side note: A portion of the previous paragraph was delivered to me in song. What’s not to smile about?!?!)
DXS: How comfortable are you expressing your femininity and in what ways? How does this expression influence people’s perception of you in, say, a scientifically oriented context?

I feel very comfortable in my own skin, and who I am and where I come from does tend to be a classically feminine look (at least in terms of clothing choices and how I wear my hair).  I am never quite certain the exact definition of “femininity”, but I don’t think how I look so much influences people’s perception of me as much as it opens up opportunities for us to discuss gender and personality and science. 

 
Part of what I do for my work is to help scientists understand that in journalism, we need characters.  So, I have the obligation to walk my talk – we are all the main characters in our own lives and we have to live with that and be true to that.

It brings up interesting questions of personality and privacy. I feel pretty comfortable talking about my clothes and my art and my dogs and my bread baking – but I also know that a lot of people don’t want that type of stuff out there. I like the challenge of helping them tell their own science stories and shine through as interesting people in a way that is authentic and represents who they are in a way that works for them. 

DXS: Do you think that the combination of your non-science creativity and scientific-related activity shifts people’s perspectives or ideas about what a scientist or science communicator is? If you’re aware of such an influence, in what way, if any, do you use it to (for example) reach a different corner of your audience or present science in a different sort of way?

Sure, I think that I sometimes surprise people.  For example, in the world of communications and journalism, we are seeing more and more that coding and programming has great value. To just look at me, you might not believe that I geek out over altmetrics and that I miss using MatLab.

It suprises people when they find this out, and I sort of like that. I know what it feels like to walk into a room and to be dismissed. I relish these opportunities because I consider them a challenge. Instead of feeling offended (though it can get tiring), my approach is thinking, “Guess what! I have something interesting to say, and you and I are actually going to connect, even though you don’t see it yet.” 

I think that this sort of willingness to interact is something I try to help the scientists that I work with to understand.  Maybe you think that you are going to be met with great opposition toward some subject like climate change, but if you have the willingness to approach it without assuming the worst, it opens new opportunties. I’m no Pollyanna, but I think relentless optimism and a commitment to finding common ground with others is very effective.    

When I introduce social media to scientists, it has changed a lot over the last three years, but there is still a lot of skepticism and some outright scorn for “all those people online.” I like to encourage taking a step back from that in order to reveal all of the awesome things going on online and the ways you might engage.  I truly enjoy the process of turning skeptics into something other than skeptics – I might not change them into believers, but they will at least be surprised and interested onlookers. 


Liz Neeley’s Favorite Focaccia

INGREDIENTS:

Scant 4 cups white bread flour

1 tablespoon salt

Scant 1/2 cup olive oil

1 packet of active dry yeast

1 1/4 cups warm water

Favorite olives, roughly chopped if you prefer

Handful of fresh basil

TIME:

Start this mid-afternoon (between 3 and 4 hours before you want to eat it, depending on how fast you are in the kitchen)

RECIPE:

1.      In a large bowl, combine the flour and salt with 1Ž4 cup of the olive oil, the yeast & the water. Mix with your hands for about 3 minutes.

2.     Lightly dust your countertop with flour and knead your dough for 6 minutes. Enjoy your arm workout and stress relief exercise! 

3.     The dough will be pretty sticky. Put it back in the bowl, cover it with a damp cloth, and let stand at room temperature for 2 hours.

4.     Mix 1Ž2 or more of your olives and all the basil into the dough, and try to get them evenly distributed. It won’t be perfect, but it will be delicious.

5.     Dump the dough onto a lined baking sheet. Flatten it with your hands until it’s a big rectangle about 1″/2.5cm thick. Slather with olive oil. Let rise for 1 hour.

6.     Preheat your oven to 425°F/220°C

7.     Sprinkle with flaky sea salt and drizzle with more olive oil if you want. Bake for 25 minutes or until golden.

8.     Make your neighbors jealous with the amazing smell of baked bread wafting from your house.

9.     Enjoy!

Don’t worry so much about being the right type of science role model

Role models: How do they look? (Source)
[Today we have a wonderful guest post from Marie-Claire Shanahan, continuing the conversation about what makes someone a good role model in science. This post first appeared at Shanahan's science education blog, Boundary Vision, and she has graciously agreed to let us share it here, too. Shanahan is an Associate Professor of Science Education and Science Communication at the University of Alberta where she researches social aspects of science such as how and why students decide to pursue science degrees. She teaches courses in science teaching methods, scientific language and sociology of science. Marie-Claire is also a former middle and high school science and math teacher and was thrilled last week when one of her past sixth grade students emailed to ask for advice on becoming a science teacher. She blogs regularly about science education at Boundary Vision and about her love of science and music at The Finch & Pea.]

What does it mean to be a good role model? Am I a good role model? Playing around with kids at home or in the middle of a science classroom, adults often ask themselves these questions, especially when it come to girls and science. But despite having asked them many times myself, I don’t think they’re the right questions.


Studying how role models influence students shows a process that is much more complicated than it first seems. In some studies, when female students interact with more female professors and peers in science, their own self-concepts in science can be improved [1]. Others studies show that the number of female science teachers  at their school seems to have no effect [2].


Finding just the right type of role model is even more challenging. Do role models have to be female? Do they have to be of the same race as the students? There is often an assumption that even images and stories can change students’ minds about who can do science. If so, does it help to show very feminine women with interests in science like the science cheerleaders? The answer in most of these studies is, almost predictably, yes and no.


Diana Betz and Denise Sekaquaptewa’s recent study “My Fair Physicist: Feminine Math and Science role models demotivate young girls” seems to muddy the waters even further, suggesting that overly feminine role models might actually have a negative effect on students. [3] The study caught my eye when PhD student Sara Callori wrote about it and shared that it made her worry about her own efforts to be a good role model.


Betz and Sekaquaptewa worked with two groups of middle school girls. With the first group (144 girls, mostly 11 and 12 years old) they first asked the girls for their three favourite school subjects and categorized any who said science or math as STEM-identified (STEM: Science, Technology, Engineering and Math). All of the girls then read articles about three role models. Some were science/math role models and some were general role models (i.e., described as generally successful students). 


The researchers mixed things even further so that some of the role models were purposefully feminine (e.g., shown wearing pink and saying they were interested in fashion magazines) and others were supposedly neutral (e.g., shown wearing dark colours and glasses and enjoying reading).* There were feminine and neutral examples for both STEM and non-STEM role models. After the girls read the three articles, the researchers asked them about their future plans to study math and their current perceptions of their abilities and interest in math.**


For the  most part, the results were as expected. The STEM-identified girls showed more interest in studying math in the future (not really a surprise since they’d already said math and science were their favourite subjects) and the role models didn’t seem to have any effect. Their minds were, for the most part, already made up.


What about the non-STEM identified girls, did the role models help them? It’s hard to tell exactly because the researchers didn’t measure the girls’ desire to study math before reading about the role models.  It seems though that reading about feminine science role models took away from their desire to study math both in the present and the future. Those who were non-STEM identified and read about feminine STEM role models rated their interest significantly lower than other non-STEM identified girls who read about neutral STEM role models and about non-STEM role models. A little bit surprising was the additional finding that the feminine role models also seemed to lower STEM-identified girls current interest in math (though not their future interest).


The authors argue that the issue is unattainability. Other studies have shown that role models can sometimes be intimidating. They can actually turn students off if they seem too successful, such that their career or life paths seem out of reach, or if students can write them off as being much more talented or lucky than themselves. Betz and Sekaquaptewa suggest that the femininity of the role models made them seem doubly successful and therefore even more out of the students’ reach.

The second part of the study was designed to answer this question but is much weaker in design so it’s difficult to say what it adds to the discussion. They used a similar design but with only the STEM role models, feminine and non-feminine (and only 42 students, 20% of whom didn’t receive part of the questionnaire due to an error). The only difference was instead of asking about students interest in studying math they tried to look at the combination of femininity and math success by asking two questions:

  1. “How likely do you think it is that you could be both as successful in math/science AND as feminine or girly as these students by the end of high school?” (p. 5)
  2. “Do being good at math and being girly go together?” (p. 5)

Honestly, it’s at this point that the study loses me. The first question has serious validity issues (and nowhere in the study is the validity of the outcome measures established). First, there are different ways to interpret the question and for students to decide on a rating. A low rating could mean a student doesn’t think they’ll succeed in science even if they really want to. A low rating could also mean that a student has no interest in femininity and rejects the very idea of being successful at both. These are very different things and make the results almost impossible to interpret. 

Second these “successes” are likely different in kind. Succeeding in academics is time dependent and it makes sense to ask young students if they aspire to be successful in science. Feminine identity is less future oriented and more likely to be seen as a trait rather a skill that is developed. It probably doesn’t make sense to ask students if they aspire to be more feminine, especially when femininity has been defined as liking fashion magazines and wearing pink.

Question: Dear student, do you aspire to grow up to wear more pink? 

Answer (regardless of femininity): Um, that’s a weird question.

With these questions, they found that non-STEM identified girls rated themselves as unlikely to match the dual success of the feminine STEM role models. Because of the problems with the items though, it’s difficult to say what that means. The authors do raise an interesting question about unattainability, though, and I hope they’ll continue to look for ways to explore it further.

So, should graduate students like Sara Callori be worried? Like lots of researchers who care deeply about science, Sara expressed a commendable and strong desire to make a contribution to inspiring young women in physics (a field that continues to have a serious gender imbalance). She writes about her desire to encourage young students and be a good role model:

When I made the decision to go into graduate school for physics, however, my outlook changed. I wanted to be someone who bucked the stereotype: a fashionable, fun, young woman who also is a successful physicist. I thought that if I didn’t look like the stereotypical physicist, I could be someone that was a role model to younger students by demonstrating an alternative to the stereotype of who can be a scientist. …This study also unsettled me on a personal level. I’ve long desired to be a role model to younger students. I enjoy sharing the excitement of physics, especially with those who might be turned away from the subject because of stereotypes or negative perceptions. I always thought that by being outgoing, fun, and yes, feminine would enable me to reach students who see physics as the domain of old white men. These results have me questioning myself, which can only hurt my outreach efforts by making me more self conscious about them. They make me wonder if I have to be disingenuous about who I am in order to avoid being seen as “too feminine” for physics.

To everyone who has felt this way, my strong answer is: NO, please don’t let this dissuade you from outreach efforts. Despite results like this, when studies look at the impact of role models in comparison to other influences, relationships always win over symbols. The role models that make a difference are not the people that kids read about in magazines or that visit their classes for a short period of time. The role models, really mentors, that matter are people in students’ lives: teachers, parents, peers, neighbours, camp leaders, and class volunteers. And for the most part it doesn’t depend on their gender or even their educational success. What matters is how they interact with and support the students. 
Good role models are there for students, they believe in their abilities and help them explore their own interests.

My advice? Don’t worry about how feminine or masculine you are or if you have the right characteristics to be a role model, just get out there and get to know the kids you want to encourage. Think about what you can do to build their self-confidence in science or to help them find a topic they are passionate about. When it comes to making the most of the interactions you have with science students, there are a few tips for success (and none of them hinge on wearing or not wearing pink):

§   Be supportive and encouraging of students’ interest in science. Take their ideas and aspirations seriously and let them know that you believe in them. This turns out to be by far one of the most powerful influences in people pursuing science. If you do one thing in your interactions with students, make it this.

§  Share with students why you love doing science. What are the benefits of being a scientist such as contributing to improving people’s lives or in solving difficult problems? Students often desire careers that meet these characteristics of personal satisfaction but don’t always realize that being a scientist can be like that.

§  Don’t hide the fact that there are gender differences in participation in some areas of science (especially physics and engineering). Talk honestly with students about it, being sure to emphasize that differences in ability are NOT the reason for the discrepancies. Talk, for example, about evidence that girls are not given as many opportunities to explore and play with mechanical objects and ask them for their ideas about why some people choose these sciences and others don’t.
There are so many ways to encourage and support students in science, don’t waste time worrying about being the perfect role model. If you’re genuinely interested in taking time to connect with students, you are already the right type.
__________________________________________________________

* There are of course immediate questions about how well supported these are as feminine characteristics but I’m willing to allow the researchers that they could probably only choose a few characteristics and had to try to find things that would seem immediately feminine to 11-12 year olds. I still think it’s a shallow treatment of femininity, one that disregards differences in cultural and class definitions of femininity. (And I may or may not still be trying to sort out my feelings about being their gender neutral stereotype, says she wearing grey with large frame glasses and a stack of books beside her).

**The researchers unfortunately did not distinguish between science and math, using them interchangeably despite large differences in gender representation and connections to femininity between biological sciences, physical sciences, math and various branches of engineering.

[1] Stout, J. G., Dasgupta, N., Hunsinger, M., & McManus, M. A. (2011). STEMing the tide: Using ingroup experts to inoculate women’s self-concept in science, technology, engineering, and mathematics (STEM).Journal of Personality and Social Psychology, 100, 255-270.

[2] Gilmartin, S., Denson, N., Li, E., Bryant, A., & Aschbacher, P. (2007). Gender ratios in high school science departments: The effect of percent female faculty on multiple dimensions of students’ science identities.Journal of Research in Science Teaching, 44, 980–1009.

[3] Betz, D., & Sekaquaptewa, D. (2012). My Fair Physicist? Feminine Math and Science Role Models Demotivate Young Girls Social Psychological and Personality Science DOI: 10.1177/1948550612440735


Further Reading

Buck, G. A., Leslie-Pelecky, D., & Kirby, S. K. (2002). Bringing female scientists into the elementary classroom: Confronting the strength of elementary students’ stereotypical images of scientists. Journal of Elementary Science Education, 14(2), 1-9.

Buck, G. A., Plano Clark, V. L., Leslie-Pelecky, D., Lu, Y., & Cerda-Lizarraga, P. (2008). Examining the cognitive processes used by adolescent girls and women scientists in identifying science role models: A feminist approach. Science Education, 92, 2–20.

Cleaves, A. (2005). The formation of science choices in secondary school.International Journal of Science Education, 27, 471–486.

Ratelle, C.F., Larose, S., Guay, F., & Senecal, C. (2005). Perceptions of parental involvement and support as predictors of college students’ persistence in a science curriculum. Journal of Family Psychology, 19, 286–293.

Simpkins, S. D., Davis-Kean, P. E., & Eccles, J. S. (2006). Math and science motivation: A longitudinal examination of the links between choices and beliefs. Developmental Psychology, 42, 70–83.

Stout, J. G., Dasgupta, N., Hunsinger, M., & McManus, M. (2011). STEMing the tide: Using ingroup experts to inoculate women’s self-concept and professional goals in science, technology, engineering, and mathematics (STEM). Journal of Personality and Social Psychology, 100,255–270.


Friday Roundup: Arsenic in juice, self-medicating chimps, science tattoos, Guinness Record-setting science cheerleaders, and more!



Are you getting regular mammograms on the recommended schedule?
Please be sure to monitor your breast health.
Health
  • Writing for Forbes, Susannah Breslin tells the story of “The business about my breasts,” chronicling her journey from mammogram to a diagnosis of breast cancer. You can follow her on Twitter here and read her blog here. Just another reason for you to ask not what science can do for you but what you can do for science
  • A UK study finds that homebirth in specifically low-risk women carries no increased risk for women who have had children previously. They assessed data for 64,538 women and found, after a whole lot of statistical adjustment, that there were no increased odds of negative outcomes for women having birth at home or midwife-attended births in facilities. They did find an increased risk for women who were trying to have planned home births who were giving birth for the first time.
  • Can eating baked or grilled fish three times a week be protective against Alzheimer’s in the elderly? These researchers think so
  • The FDA is thinking about lowering the standard it’s set for how much arsenic exposure is OK in apple and other juices. Cutoffs are usually set in what are known as “parts per billion” (ppb). That means what you think: if the cutoff is 3 ppb, that means, for example, three drops in a billion drops. Right now, the cutoff for arsenic in drinking water is 10 ppb, and consumer groups are asking the EPA to drop that to 3 ppb. Deborah Blum has addressed the fact that arsenic is present in food, water, and soil and that different forms of it have different effects. As always, it’s not as simple as hollering “toxic metal!” and calling for its removal. 
  • Can heading the ball in soccer/football cause brain damage?
  • Is a “Mediterranean-ish” diet good for your heart? Researchers draw that conclusion from this study of 2500 Manhattanites. 
  • Can dreams predict the future? No.
  • Would you want to see yourself old?


      Our Living World
      • Chimps self medicate with food. They really are our closest living relatives.
      • Speaking of being like us, some dinosaurs cared for their young, as this fossilized nest of 15 baby dinosaurs seems to suggest.
      • Looking for the animal with the most amazing, the strangest, the most remarkable nose around? Look no more. It’s the star-nosed mole:

      • Need a break from the workaday world? Listen to some whale songs and help scientists translate the language of whales.
      • Speaking of whales, scientists have sunk a 67-foot fin whale carcass off of the San Diego coast. Why go to the trouble? Whale fall is an important contribution to ocean ecosystems, and the researchers plan to study how an entire ecosystem builds up around the sunken cetacean. Here’s a video of the community that forms around a whale fall:

      Women and women in science
      • Nicole Ostrowsky shares her love of science in her book, An Agenda of an Apprentice Scientist. She also shares her love of science–and inspires it in others–as a teacher. As she notes, to teach science well to non-scientists, “You have to master subject to explain it simply.” 
      • Do you think you apologize too much
      • From the Science Cheerleader, a Guinness World Record Cheer for Science:

      • What do Marie Curie, theater, and Alan Alda have in common? Find out here as Alan Alda chats with Scientific American’s Jason Goldman. 
      • Do women lack ambition compared to men? No
      • Do science kits for girls really have to look like this? No, they do not, and one company has responded to complaints in the women-in-science blogosphere. 
      • Women are mean! Science says so! Some of us disagree.
      • Speaking of stereotypes about women and women in science, Wendy Lawrence writes about attracting girls to math and science and struggling against those stereotypes.
      • Here Come the Math Girls! In a day and age when girls are discouraged from being good at math by either being told they aren’t good or should not be, here is a refreshing book out of Japan.
      • And by way of Improbable Research: Moms on the Net: Intro to Computer Science 
      Sex


        Art and Science

        Leah Gerber, conservation biologist and lover of sushi


        Leah Gerber and her little lovelies!
        Leah Gerber is an Associate Professor of ecology at Arizona State University.  Her research is motivated by a desire to connect academic pursuits in conservation science to decision tools and effective conservation solutions. This approach includes a solid grounding in natural history and primary data collection, quantitative methods and an appreciation for the interactions between humans and the environment. She is keenly aware of the need for the communication of scientific results to the public and to government and non-governmental agencies.  This communication is essential for the translation of scientific results into tenable conservation solutions.  
        DXS: First, can you give me a quick overview of what your scientific background is and your current connection to science?

        LG: I learned about ecology and environmental conservation as an undergraduate and quickly became  motivated to do science that impacted the real world of conservation.  Learning about the impacts of humans on nature was a wake-up call for me, and inspired me to channel my feeling of concern for the demise of nature in a positive way.

        From there, I have walked the tightrope between science and policy.  After getting my undergraduate degree in environmental biology, I wanted to do more than just the science.  So I enrolled in a masters program at the University of Washington – an interdisciplinary program called Marine Affairs.  It was a great experience, but I wanted to have more substance to my science background – I wanted to know how to do the science in addition to how to apply the science. 

        This compelled me to enter a PhD at the University of Washington, which was largely funded by NOAA.  My thesis involved trying to figure out how to make decisions about endangered species – how to determine which were endangered and which were threatened.  This was a perfect project given my interest in developing tools to solve problems.  After finishing my PhD, I did a postdoc at the National Center for Ecological Analysis and Synthesis (NCEAS) and developed approaches for marine reserve design and endangered species recovery.  I was at NCEAS for three years before starting on the tenure track at Arizona State University.  I’ve been at ASU for about 10 years now.   

        A major theme in my work has remained constant – that is, how to use the information we are generating in the natural and social sciences to better manage our natural world.  Pre-tenure I focused a lot more on doing the science, publishing in good journals, and hoping that it made its way into good policy.  Now that I am midcareer, meaning that I have a good amount of papers and tenure, I am enjoying the opportunity to work with practitioners outside of academia.  For instance, I just got off the phone with someone from National Geographic regarding my recent publicationon seafood health and sustainability.  In that study, we performed an analysis regarding seafood in the context of health and sustainability, to answer simple questions like, what to order when out to sushi?  How do we educate about health benefits and risks?  We will be organizing a workshop to help restaurant chains, grocery stores, as well as environmental NGOs identify a path forward in informing consumers about healthy and sustainable seafood choices.  As a tenured professor, I feel fortunate to have the opportunity to work at the science-policy interface and to give society some science that is truly applicable. 

        DXS: It is too bad that you have to wait until you are more established and have tenure to go out and engage with the public, because this type of thing is just so important!

        LG: Yes, I agree.  There isn’t a clear path in academia when it comes to public engagement.  But in recent years I have felt optimistic – the landscape within academia is starting to change, and at ASU this change is noticeable.  We have a fabulous president, Michael Crow, who has really transformed ASU from just another state institution to a leader in sustainability.  Part of this is the establishment of the Global Institute for Sustainability, and one of Michael Crow’s mantras is “community embeddedness.”  He is really on board with this type of thing and I have seen evidence of his commitment trickle down throughout the University.  For instance, when I first arrived, I had to justify and explain why I was serving on these federal recovery teams for endangered species.  Now I feel that there is no justification needed.  Developing solutions is not only so important for society, but should also be a key aspect of what we do at Universities.

        DXS: We were introduced by another fantastic science communicator, Liz Neeley, who you met at a communications workshop.  Why is it important to take part in this type of training? 

        LG: I met the Fantastic and Fashionable Liz through the Leopold Leadership Program, offered through the Woods Institute for the Environment at Stanford University.  The Leopold Leadership training was the best professional development experience of my career, and has made me a better translator and communicator of science to policy.  Pre-Leopold, I had little training in communications, and there I was, in a teaching position where I taught hundreds students. I thought to myself, well, how do I do this?  The Leopold experience has solidified my commitment to teaching students about communication and engaging in policy.

        One development emerging from this training is a science communication symposium at the AAAS meeting.  Elena Bennett and I are giving a talk on overcoming institutional barriers for community engagement, and we will address the issues head on.  We put out a survey asking others if they faced institutional barriers, and how they might work to engage more. 

        DXS: What ways do you express yourself creatively that may not have a single thing to do with science?

        LG: I have 2 young kids, a 3yo and a 7yo.  Being a mom helps me keep it real -  I love that I get to enjoy the awe of discovering the world with my girls.  We just got a puppy this weekend and we are having fun dressing her up and painting her nails (only partly joking).  Other things that I do that are creative – truthfully, I am uninteresting – I don’t bake bread or go to the opera.  I just work and take care of my kids.  I practice yoga for my own sanity and also love to work in the garden.  Doing these things gives me a reason to pause and step off the treadmill of keeping up with everything. 


        DXS: Do you find that your scientific background informs the creativity you have with your kids or your yoga practice, even though what you do may not specifically be scientific?

        LG: I think there is synergy with my science and my kids and my yoga practice in helping me to accept things and be mindful – but not in any conscious way.  For instance, when doing my science, the type A person that I am, I have an inclination to keep pushing, pushing, pushing.  My kids and my yoga help me to shift gears and accept that things are going to happen when they happen.  I try to let the kids be kids, including the associated chaos, and accept that this is a snapshot in time that they will be little.  Now I find joy in that chaos.  Having kids and yoga gives me a little more perspective, and the knowledge that things aren’t lined up and neatly placed in a box.  It rounds me out.

        DXS: Are your kids are major influencers in your career?

        LG: My first child, Gabriella, was born just after I submitted my application  for tenure – so it was good timing.  And I was able to slow down.  I quickly realized that I wasn’t able to work a 60+hour week.  Before kids, I lived to work.  Now, I work to live.  I absolutely love my job and I feel so lucky that I have a career that I believe in and that I am actually paid to do it – it’s not just a hobby.  But having kids made me chill out a little.  If I get a paper rejected, I can let it go instead of lamenting about it for weeks.  It has made me healthier.  I don’t necessarily know if it has had positive impact on my career – time will tell.  While my publication rate may be slightly smaller, I think my work now has different dimensions, and greater depth. 

        I am still pretty passionate about my work, and my kids know what I do and are proud of it.  They share it with their classmates, and take every opportunity to wax poetic about how their mom saves animals in the ocean.  They also have a built in conservation effort – my 7YO gets irritated when she can’t find a compost bin, and her new thing is to only fill her cup half way because she will only drink a little bit of water.

        DXS: When you decided to have children, did your colleagues view you differently?  Did they consider that you were sending your career down the tubes or was it a supportive environment?

        LG: I honestly had a really positive experience.  I can’t think of any negative sentiments from my colleagues, and they were actually really supportive.  For instance, when I was pregnant with my first daughter, ASU did not have a maternity leave policy.  Before that, you would have to take sick leave.  So my colleague worked within the parameters of the unit to give me maternity leave.  And then with my second daughter, our new president had established a maternity policy. 

        The support of my colleagues at ASU has made me feel loyal to my institution.  Normally, I am loyal to people and not institutions, but overall, the support has been fabulous.  Of course, with having the kids in each case, I did decline a lot of invitations – some pretty significant ones – but I did not have a desire to drag a newborn to give a talk, especially when I was nursing.  And it was hard for me to do this at times, especially given my career driven nature, and I had to learn to accept that there would be other opportunities.

        I had to shift it down a notch and realize that the world wasn’t going to freeze over, and that I could shift it back to high gear later.  With “mommy brain”, I knew I wasn’t going to be at the top of my game at that point in my life.  But I have incredible role models.  Most notable is Jane Lubchenco, currently the Director of the National Oceanic and Atmospheric Administration.  During the first part of her career, she shared a position with her husband – each did 50% – and they did that on purpose so they’d be able to enjoy having children and effectively take care of them.  Now, she is in the National Academy, is having major scientific impacts, and she did it all despite having kids.  If she can do it, why cant the rest of us?

        DXS: Given your experiences as a researcher, as a mother, and now as a major science communicator, do you feel that your ability to talk to people has evolved?

        LG: Absolutely.  I think that the Leopold Training Program, which selects 20 academics from North America to participate in retreats to learn how to be better communicate and lead, has re-inspired all who attended.  It has recharged our batteries and allowed us to make realizations that doing good science and putting it out there via scientific publication is just not enough.  We also have to push it out there and make it available to a broader, more diverse population.  As part of the training, we also learned about different thinking styles – super analytical or super emotional – and after I returned, I had my lab group participate in this type of exercise.  And now I feel like I can better assess a persons thinking style and adjust the way I communicate accordingly.

        DXS: Did you always have the ability to talk to the general public or does having kids help you to better understand some of the nuances associated with science communication?

        LG: I think so. In fact, I am thinking back to when I had a paper in Sciencecome out around the time that I had my first child.  It got a lot of news coverage and was featured in Time magazine. I thought it was so cool at the time, but looking back on it I realized that have come a long way.  I said something to a journalist, who then asked me to translate it into “plain English.”  It was a little bit of a jab. 

        Now, with kids, I can tell you a lot more about my research and can better see the broader impact.  Talking to them helps me to do that. Here is a conversation about my research with my daughter:

        L: Mama is working on figuring out how to help the whales that people like to eat.  It’s a big problem because some people like to eat whales and some like to see them swimming in the ocean.

        G: What we have to do is let the people eat the whales in the ocean, and buy some whales from the pet store to put back in the ocean.  How much do whales cost?

        L: Good idea. But you can’t buy whales at the store. They are too big. And if we take them all out of the ocean there will be none left.

        G: Well instead we should ask the people to eat bad things like sharks.

        L: Another good idea. But if we take sharks out there will be no predators to eat the big fish. And the whole ecosystem would collapse.=

        G: Well then the people should eat other things like fish instead of whales. They should buy a fishing pole and catch a fish and eat those instead of whales.

        L: What about chicken, shouldn’t people just eat chicken?

        G: Mama, we can’t kill chickens. Chickens are nicer than fish, so that’s why we have to eat fish.

        L: What about just eating vegetables?

        G: Oh mama, some people are meat-eaters.  And there are no more dinosaurs.  They all got extinct.  They should have saved some of the dinosaur meat in the freezer for the meat-eaters.  When the dinosaurs come back, there will be enough meat to eat and people won’t want to eat whales.

        The simplicity of taking myself out of my research bubble and engaging with a creative (and nonlinear?) 7YO has taught me how to be a better communicator – with the media, with my students, and with the general population.

        DXS: Do you think these efforts in science communication are helping to shift other peoples perspectives about who a scientist actually is?  For instance, are we changing the old crazy haired white guy stereotype?

        LG: Well, I hope so.  A couple of examples – again, as a mom, one of my daughters a Girl Scout and I get to help with the troop.  One of the themes was to teach about environmental and conservations awareness.  We did this Crayola molding experiment where we put our fingers into cold water.  We then did the same thing except we put modeling clay over our fingers before putting them into the cold water and to learn about adaptations to extreme environments.  Also, we play games where they simulate fishing – what if there is plastic?  What happens to you if you eat that?  My hope is that this shows these young girls that science is both interesting and fun. 

        Another thing that just happened today is that I was contacted by Martha Stewart’s office, and it seems that some of my research results will be featured in the October issue of Martha Stewart Living.  The message here is that I happen to care about the ocean, but I also love sushi.  I also I care about health. I am not just a nerd in a lab coat. I am a mom, I do yoga, I have wonderful friends, and here is the kind of science that I do.  It seems to me that it is better to connect with others when I can give them something that is relevant to their lives instead of a more abstract ecological theory. 

        DXS: If you had something you could say to the younger you about getting on your chosen career path, what would you say?

        LG: I feel like I have been very effective at figuring out how to get from point A to point B, but less successful at savoring the process.  I think that I’d tell myself to make time to celebrate the small victories. I have also learned to identify what kind of research is most exciting, and I would tell myself to say “no” to everything that is only moderately interesting.  I tell my grad students that if you don’t dive in head first, you won’t ever know. So why just not give it a try!  And if it doesn’t work, move on.  Also, if something isn’t making you happy, change!  Academia isn’t for everyone, and there is a lot more to life than science. 




        Mariette DiChristina

        Mariette DiChristina is editor in chief of Scientific American.

        [Ed. note: This interview is the second installment in our new series, Double Xpression: Profiles of Women into Science. The focus of these profiles is how women in science express themselves in ways that aren’t necessarily scientific, how their ways of expression inform their scientific activities and vice-versa, and the reactions they encounter.]

        Today’s profile is an interview with Mariette DiChristina, editor in chief, Scientific American, who answered our questions via email with DXS Biology Editor Jeanne Garbarino. Read on to find out what a Marx Brothers movie has to do with communicating science.

                                 

        DXS: First, can you give me a quick overview of what your scientific background is and your current connection to science?

        MD: Like most kids, I was born a scientist. What I mean is, I wanted to know how everything worked, and I wanted to learn about it firsthand. At a tag sale, for instance, I remember buying a second-hand biology book called The Body along with my second-hand Barbie for 50 cents. “Are you sure your mom is going to be OK with you buying that?” asked the concerned neighbor, eyeing the biology book.

        I memorized the names and orbital periods of the planets and of dinosaurs like some kids spout baseball stats (which I could also do as a kid, by the way). We didn’t have a lot of money, so I caught my own pet fish from a nearby pond by using my little finger as a pretend worm. I scooped up my fish with an old plastic container and put it on my nightstand. If it died, I buried it and dug it up later so I could look at the bones. My proudest birthday gifts were when I got a chemistry set and a microscope with 750x. A girlfriend and I got the idea to pick up a gerbil that had a bad habit of biting fingers, just so we could get blood to squeeze on a glass slide. (She was braver than I was about being the one to get bitten.)

        In middle school, I was a proud member of the Alchemists—an after-school science club—so I could do extra labs and clean the beakers and put away Bunsen burners for fun. I knew I would be a scientist when I grew up.

        But somewhere during my high school courses, I came to believe that being a scientist meant I’d have to pick one narrow discipline and stick to it. I felt that I liked everything too much to do that, however. As an undergraduate, I eventually figured out that what I really wanted was to be a student of many different things for life, and then share those things I learned with others. That led me to a journalism degree. It also means that, as far as knowledge about science goes, I fit the cliché of being “an inch deep and a mile wide.”

        DXS: What ways do you express yourself creatively that may not have a single thing to do with science?

        MD: This one is a tough one for me to answer because I am always trying to convince people that pretty much everything they care about in the headlines actually has to do with science! In my case, I’ve also always been interested in drawing and in visuals in general. I was a pretty serious art student in high school as well, although I later decided that I didn’t have enough passion for it to make that my career choice. My interest in art partly led me to work at magazines like Scientific American and Popular Science, where the ability to storyboard an informational graphic and otherwise think visually is very helpful.

        When I’m home, I really enjoy making things with my two daughters, such as helping them with crafts or scrapbooks, although I definitely spend a lot more time on planning dinners and cooking for (and with) the family than anything else. I like the puzzle solving of setting up the meals for the week during the weekend, so it’s easier for my husband to get things ready weeknights. We’re big on eating dinner together as a family every night. I like gardening and mapping out planting beds. I’m better at planting than at keeping up with tending, however, because of my intense work schedule and travel. In short, if I have free time at all, I’m enjoying it with my family. And if we’re doing some creative expression while we’re at it, great!

        DXS: Do you find that your connection to science informs your creativity, even though what you do may not specifically be scientific?

        MD: My connection to science informs most things that I do in one way or another. When I’m making dinner, I sometimes find myself talking about the chemistry of cooking with the girls. Especially when our daughters were smaller, if one of them had a question, I’d try to come up with ways to make finding the answer together into a kind of science adventure or project.

        I suppose that since I spend most of my waking hours thinking about how best to present science to the public, it’s just a mental routine, or a lens through which I tend to view the world.

        DXS: Have you encountered situations in which your expression of yourself outside the bounds of science has led to people viewing you differently–either more positively or more negatively?

        MD: It’s more the other way around. I get amusing reactions from people once they find out what I do. How could I seem so normal and yet work in a field that relates to…shudder…science? An attorney friend has sometimes kidded me, saying there’s no way he can understand what’s in Scientific American, so I must be incredibly smart. I don’t feel that way at all! Anybody who has a high school degree and an interest in the topic can understand a feature article in Scientific American. Science is for everyone. And science isn’t only for people who work in labs. It’s just a rational way of looking at life. I also believe science is the engine of human prosperity. And if I sound a little evangelistic about that, well, I am.
        DXS: Have you found that your non-science expression of creativity/activity/etc. has in any way informed your understanding of science or how you may talk about it or present it to others?

        MD: I think it’s helpful to look to non-science areas for ideas about ways to help make science appealing, especially for people who might be intimidated by the subject. My main job is to try to make a connection for people to the science we cover in Scientific American. I once had a boss at Popular Sciencewho made all us editors take an intensive, three-day screenwriting course that culminated in the showing and exposition, scene by scene, of the structure and writing techniques of Casablanca. When I came back, he gave me a big grin and said, “So, what did you think?” I got his point about bringing narrative techniques into feature articles. Like most people, I enjoy movies and plays; now I also look at them for storytelling tips. And there are lots of creative ways to tell science stories beyond words: pictures, slide shows, videos, songs. Digital media are so flexible.

        DXS: How comfortable are you expressing your femininity and in what ways? How does this expression influence people’s perception of you in, say, a scientifically oriented context?

        MD: I was the oldest of three daughters raised by a single dad (my mom died when I was 12) and I was always a tomboy, playing softball through college and so on. So I can’t say I’ve ever been terribly feminine, at least in the stereotypical ways. At the same time, I’m obviously a wife and a mother who, like most parents, tries not to talk about my kids so often that it’s irritating to friends and coworkers. I once was scolded in a letter from an irritated reader after I had mentioned my kids in a “From the Editor” column about education. He wrote that if I was so interested in science education and kids, I should go back home and “bake cookies.” I laughed pretty hard at that.

        DXS: Do you think that the combination of your non-science creativity and scientific-related activity shifts people’s perspectives or ideas about what a scientist or science communicator is? If you’re aware of such an influence, in what way, if any, do you use it to (for example) reach a different corner of your audience or present science in a different sort of way?

        MD: I’m sure that’s true. I think personality and approach also might shift perspectives. A girlfriend of mine once called me “the friendly face of science.” I guess I smile a lot, and I like to meet people and try to get to know them. That ability—being able to make a personal connection to different people—is important for every good editor. My job, essentially, is to understand your interests well enough to make sure Scientific American is something that you’ll enjoy each day, week, month.

        Increasingly, also, the audiences are different in different media, so we need to understand how to flex the approach a bit to appeal to those different audiences. In print, for instance, according to the most recent data we have from MRI, the median age of Scientific American readers is 47, with 70 percent men and 30 percent women. The picture is quite different online, where, according to Nielsen, our median age is 40 and the male/female ratio is closer to half and half, with 56.5 percent men to 43.5 percent women. You need to bring a lot of creative thinking to the task of how to make one brand serve rather different sets of people.

        Fortunately, I have terrific, creative staff! And another part of the way you do that, I think, is to invite your readers in to collaborate; we’ve done a bit of that in the past year on http://www.scientificamerican.com/, and I’m looking forward to experimenting further in the coming months. Ultimately, I’d like to turn Scientific American from a magazine with an amazing 166-year tradition of being a conduit of authoritative information about science and technology into a platform where curious minds can gather and share.

        DXS: If you had something you could say to the younger you about the role of expression and creativity in your chosen career path, what would you say? 

        MD: I was pretty determined to do something—whatever it was—that would let me satisfy my curiosity and passion about science. I would tell younger me, who, by the way, never intended to go into magazine management: It’s just as fun, rewarding and creative to be a science writer as you suspect it might be. I’d also tell the younger me something that didn’t occur to me early enough to pull it off—that a double major in journalism and science might be a good idea. And, I would add, it’s also a good idea to take some business classes, so you’ll be better armed for dealing with the working world.


        Also on Double X Science

        More about Mariette DiChristina

        Mariette DiChristina oversees Scientific American Continue reading

        The path from science to alarmism: How science gets twisted before it gets to you



        Source.


        Today’s post is long. It’s long because it involves the winding path that science can take from ignition to exploding into the public view… and how the twists and turns in that path can result in a skewed representation and understanding of the science. Read the whole thing. It focuses on an example that involves autism–which seems to pop up in skewed representations every day–but certainly this path from science to you, the consumer, happens with scientific information in general. The author is Jess, who blogged this originally at “Don’t Mind the Mess” and graciously gave us permission to reproduce it here. Jess, an attorney with a B.S. in biochemistry, parent of an autistic child and brand new baby, and self-described “Twitter fiend,” tweets as @JessicaEsquire
        —————————————————————
        I am putting my foot down.
        As the parent of an autistic child I hear a lot about vaccines and about half a million other things that people think cause autism.
        I’m hyperaware of the attention autism gets in the media. So I know about the CDC’s new stats on autism rates. I know about the debate on whether the increase in autism is due to more awareness and diagnosis or more actual occurrences. (Personally, I find the former to be a serious factor, though who’s to say how much.) And I see all the articles that come out week after week about the millions of things that are linked to autism.
        There’s a recurring problem here. Valuable research is done. Research is disseminated. Information is reported. Articles are read. Findings are spread. What starts in a lab ends up in a Facebook status. What starts as truth ends up as mistruth in something like a child’s game of telephone. Along the way, piece by piece, truth fades away in favor of headlines and pageviews and gossip.
        It’s getting just plain stupid. I’m starting to suspect these articles have nothing to do with serious research but with a search for traffic and hype, an attempt to ride the wave of a trendy topic as concerned parents read every horror story they can find.
        A particularly egregious one came up recently. This one doesn’t just cite some random correlation. This one is just plain making things up. The problems here just pile one on top of the other. So let’s consider it piece by piece, a case study in how real research becomes misinformation.

        Part One: Research

        It starts with scientists. It starts with research. They write up their findings and publish them in a peer-reviewed scientific journal. In this case there are several papers published over a few years about chemicals and their link to brain development. They cover a wide variety of issues and present a wide variety of conclusions. All of them suggest further study.
        Maybe they have bad methodology or use statistics incorrectly. Only a few people would ever know the difference. That’s not my concern today. Bad science is one thing, but bad information on good science is another. So let’s assume we have good, solid science in this research.

        Part Two: The Conference

        Scientists and researchers with similar interests get together and discuss their findings. It’s not that difference from any other conference. There are panels and presentations.

        Part Three: The Op-Ed

        Next, a group that works on environmental hazards for children publishes a paper. Not a research study but an op-ed in a peer-reviewed journal. In this op-ed they review the conference from Part Two and encourage the study of environmental factors and their relationship to neurodevelopment disorders. Autism is one of many neuro-ish disorders and is mentioned by name in the piece and its title. It’s unclear to me why they zero in on autism. They have a couple vague pieces of evidence that are autism-specific, but the vast majority of what they’re looking at has never been demonstrated to have any kind of relationship to autism, not even a correlation.
        Problem #1 is the unnecessary autism name-checking. Problem #2 is much worse, it’s the list of 10 chemicals they suggest for future study. The list itself isn’t a bad idea, I guess. They’re suggesting places for potential research, which certainly needs to be done. But it does reek a little bit of the kind of thing magazines do, you know what I mean, 10 Ways To Get Your Guy All Fired Up! and such. Still, it’s their prerogative.
        So let’s examine their evidence for these suggestions. They cite at least one paper for each of these chemicals. I checked them all. The vast majority of them have never shown any connection to Autism (or even ADHD, another diagnosis they name-check). In fact, many of them show that with exposure to these chemicals, the outcome differentials between exposure and non-exposure is 5 IQ points.
        FIVE IQ POINTS. Statistically significant? Perhaps. Practically important for a parent? No.
        IQ itself is a strange and vague thing. And 5 points isn’t going to move your super-genius down to the level of an average person They’d still be a super-genius. And adding 5 points to someone with severe deficits isn’t going to make them average, either. It’s hard to imagine what difference you’d see between two people whose IQ’s are 5 points apart.
        Such statistical differences may well be a sign to warrant further study. And they may be a sign that these chemicals affect neurological development. But it’s getting a bit ahead of ourselves to say they are suspected of being tied to autism. Many of these papers are in areas of research that are just beginning. Many of them involve homogeneous groups (for example, all the participants are Mexican-American migrant workers) which makes issues of genetics and heredity very difficult to account for. Many involve parents self-reporting by filling out surveys rather than having the children examined by professionals.
        Let’s be fair. These are the very beginnings of research. You’ll need to do all sorts of rigorous testing and consideration to make real connections. Of course more research is needed. And it’s important that we keep that in mind as we move forward.
        (Though, of course, no one else will.)

        Part Four: The Press Release

        The op-ed is about publicity so it’s the beginning of the problem. But it gets worse. A press release comes out with the list of ten chemicals and already the twisting starts. These are chemicals suggested for further research, but suddenly they’re a ”List of the Top Ten Toxic Chemicals Suspected to Cause Autism and Learning Disabilities.” This, unsurprisingly, is the headline you’ll see all over the internet when news organizations report on the press release. Already it’s turned from suggestions for research into a watchlist.
        It gets worse. The press release has this second headline:
        The editorial was published alongside four other papers — each suggesting a link between toxic chemicals and autism.
        No, actually that’s not at all accurate.
        Let’s start with the first paper, which examines the possibility of a connection between maternal smoking and autism. What’s their conclusion?
        The primary analyses indicated a slightly inverse association with all ASDs[.]
        What does that mean? Among the autistic kids vs. regular kids, there was actually LESS maternal smoking in the autism group. The paper does point out that when it comes to “subgroups,” for instance high-functioning ASD or Asperger’s, there may be a possibly positive relationship. But there are so many caveats I can’t even get to them all. Let’s just take this one:
        The ASD subgroup variables were imperfect, relying on the child’s access to evaluation services and the documentation by a myriad of community providers, rather than direct clinical observation.
        This means that when they’re saying some groups of ASD kids may have this relationship, they didn’t actually classify these kids. They never saw these kids. They’re relying on data collected by other people. Not even by a consistent set of people. It comes from 11 different states and who knows how many providers. Who’s to say how accurate any of it is. And who’s to say whether these kids are correctly classified at their particular place on the spectrum.
        So take all that with a whole jar full of salt and you’re still looking at, overall, no connection with smoking. If anything, the data would indicate smoking has LESS autism rather than more.
        After this there are 2 papers on the same chemical. One of them does not contain the word “autism” anywhere. (One of its references has it, but nowhere does it appear in the text of their paper.) The second paper is better. It focuses on the chemical’s effects in particular processes which have been linked to autism. This is very micro-scale science, there are no people involved, just cells and chemicals. It’s important research, but there’s a long stretch between cellular interactions and a person’s diagnosis. It didn’t involve any analysis with autistic individuals. This is certainly the most useful paper of the bunch by a long shot, but it still just sets the stage for further research.
        The fourth paper is a review. That means it asserts no new information but summarizes the research on a particular issue, specifically pesticides and autism. Technically I suppose it does assert a link, but none of this is new information.
        So I think we’ve pretty much destroyed the headline in that press release. There were not 4 articles suggesting a connection between chemicals and autism.
        Is it likely that the writers who take this press release and write articles on it are going to read the papers it cites? Are they going to realize that what they’re saying isn’t actually true? They should. Of course they should. But they don’t.
        This list has chemicals suspected of being tied to neurological development. And we should just leave it at that. It’s not that they shouldn’t be studied. They should. But we shouldn’t be throwing out buzzwords like ADHD and Autism when the research doesn’t show any firm data.

        Part Five: News Articles

        This is a process, though. First research, then op-ed, then press release and finally news articles. So what’s the headline of our news article? “Top 10 Chemicals Most Likely to Cause Autism and Learning Disabilities.” Guilty of serious fearmongering, no? A more accurate title may be: Researchers propose list of chemicals potentially tied to neurological development for further study. But I doubt anyone’s going to write that.
        The article itself, to be fair, is full of caveats. The reasons for the increase in autism are “controversial.” There is a “gap in the science.”  But then you get a sentence like this:
        But clearly, there is more to the story than simply genetics, as the increases are far too rapid to be of purely genetic origin.
        Clearly? Clearly says who? What source says it’s too rapid? The author certainly isn’t a reliable source. She is Robyn O’Brien, a writer for Prevention who posted this article. Her scientific credentials are nonexistent. She is a former financial analyst who now writes about the food industry. She has an MBA, and her undergraduate was in French and Spanish.
        Full disclosure: I have a B.S. in Biochemistry, but I feel I’m unqualified to write this article. I’d much rather it be written by someone with a PhD. I’m married to a PhD, which has given me a lot more exposure to science since leaving school, but I fully acknowledge that I shouldn’t be the one doing this. I know how to read a scientific article and examine its conclusions, but I certainly am not someone who can tell you if their methods and analysis are correct.
        But I’m talking because there aren’t enough people talking about it. Because the PhD’s aren’t generally science writers. They are scientists. They write about their research in journals, not in the newspaper. And certainly not on a blog for a healthy living magazine.
        The author goes on to restate the inaccurate subheadline of the press release verbatim.
        In the end she suggests things like buying organic produce, opening your windows and buying BPA-free products.
        This is part 5 of our process, but it’s where many of us start. Many of us will only read this article and not the press release or the op-ed or the research papers. Most of us aren’t qualified to do so, all we have is this article. Well, we have that and what other people tell us. Which leads us to our next step.

        Part Six: Readers

        The article is frustrating, but I can only get so mad. She is saying what the scientists told her to say. She has even included some cautionary language. The problem is that when writing for laymen, you have to be careful.
        And with AUTISM? You have to be really careful. Just for you I’m going to venture into the comments to this article to show you how people have responded.
        –How about we quit injecting our kids with aluminum, formaldehyde and the rest of the toxic stew that they call vaccines — we bypass every natural defense our bodies have (skin, saliva, stomach acid) to put these things directly in the blood stream.
        –Thank you Robyn for always providing sound information to continue guiding our decisions.
        –What about heavy metals like Arsenic that are trapped in soils that our “organic” brown rice is growing in to be made into brown rice syrup to sweeten organic foods and baby formula? Not to mention the reports coming in regarding the radiation and contamination from Fukushimi that has reached the west coast an is spreading across this country in the produce and even the pollen…
        –Unvaccinated children are some of the healthiest little people on the planet. As far as the Autism link, who really knows but why risk it.
        –Thank you for this information. It confirms to me that we should keep doing what we are doing. It also helps me to enforce our no shoes policy in our home. Some people are so disrespectful and just don’t take them off and I hate to sound like a nag and ask even though they already know its what we prefer.
        Thankfully there are some people in there who take the writer to task, but how is a reader to trust any one commenter over another? You have no way of knowing from a comment what someone’s experiences or qualifications are.
        There’s a reason we need responsible scientific reporting. I’m all for the open dissemination of information, but I’m also aware of what happens when people read something they don’t understand.
        autism FB The Whole Truth About Autism
        I encountered this FB conversation the other day. Usually I overlook such things but I could not help myself. I jumped in. I tried hard to be polite and present facts. When all that was over, no one was convinced. The response?
        autism FB 2 The Whole Truth About Autism
        Enough articles on vaccines and people are scared even without evidence. Enough headlines and people don’t bother reading articles. It doesn’t matter how much is retracted or debunked, the damage is done.
        We need responsible science reporting. We need responsible reporting, period. I’ve seen plenty of lazy articles on Supreme Court opinions that lead me to read the opinion myself only to realize that they’ve stated the conclusions all wrong.
        I don’t want to go on all day, but I do feel like it’s important for us to put our foot down and demand better.
        We aren’t all scientists. But we can ask for science writers with the appropriate qualifications. We can ask for links and citations in their articles. (I spent quite some time tracking everything down for this post, and luckily I’m relatively familiar with looking up scientific articles online.) We can ask for articles that show failed connections. It doesn’t all have to be “Autism linked to X” there’s plenty of “Autism not linked to Y” that happens in these studies but you never see that, do you?
        As for us laymen, we have to find our own trusted experts. Ask your pediatrician. And if your pediatrician’s not qualified (most of them are MD’s but not PhD’s) ask them if they have a trusted source. Track down specialists in Autism with PhD’s and ask them what they think of the research. Find reliable books and articles and spread them to your friends. We can’t necessarily do a lot, but we can do our part to stop the spread of misinformation and demand better.


        These views are the opinion of the author and do not necessarily either reflect or disagree with those of the DXS editorial team.
        —————————————————————
        We also suggest

        Good Deeds, Good Science: IAmScience Kickstarter

        Kevin Zelnio, husband, father, musician, scientist, human.



        As someone who is not only into science, but also doesscience, I was over the moon to see the #IAmScience hashtag in my tweet stream on the evening of January 26th, 2012.  This is because, like hundreds, if not thousands, of others, my trajectory into science did not necessarily follow the stereotypical blueprint associated with becoming a scientist.  Furthermore, and quite frankly, I am sick of what people think scientists shouldlook and act like.   

        It all started with this harsh yet honest post from Zuska, in which she admitted to disliking the Science Online 2012 keynote speaker, Mireya Mayor, just because of her femininity.  It took some deduction and self-observation to figure out exactly why Zuska had a negative reaction to Mayor, and her post inspired others to admit, although somewhat abashedly, that they felt similarly.

        Naturally, this sparked quite a discussion within the scicomm community, and also facilitated several tangible reactions, including the Double Xpression: Profiles of Women into Science series on Double X Science and Allie Wilkinson’s This Is What A Scientist Looks Liketumblr.  But, perhaps the most heartfelt and inspiring movement coming out of this discussion is Kevin Zelnio’s baby, #IAmScience

        In the events leading up to #IAmScience, Zelnio asks why the scicomm community was so bothered by Mayor and her keynote address.  His point, which was well said despite of the 140 character limitation, basically called out those who weren’t practicing what they preached.



        This was followed by a brutally honest recap of how Zelnio made his way into science, which included drug use, homelessness, and violent behavior. 



        And, suddenly, #IAmScience became a movement.



        Because of the roaring success of #IAmScience, Zelnio is looking to expand the movement’s reach.  He has launched an #IAmScience Kickstarter project, which, if funded, will lead to an eBook containing individual #IAmScience stories:
        The goal of the I am Science storytelling is to break down the scientist stereotype and highlight how much diversity of backgrounds really exist in science, where stereotypes in Hollywood and the media have done massive damage to the field. To reduce barriers to accessing this resource, the e-book will be made freely available for all major digital platforms (Kindle, iPad, Nook, pdf).

        We at Double X Science believe in the breaking down of stereotypes when it comes to science and scientists, and we encourage you to donate to this worthy cause.  For a closer look at the #IAmScience stories, you can check out the IAmScience Tumblr, or read Emily Willingham’s touching and poetic post about her science experience. 

        Making these types of stories available to the public will do nothing short of inspire – and this may be the deciding factor for a career in STEM for those living a life where no inspiration can be readily found.  Together, we can make a difference, one IAmScience story at a time.

        To back Kevin Zelnio’s Kickstarter project, visit the IAmScience Kickstarter page. 


        IAmScience vimeo is by Mindy Weisberger.