The importance of broadening science communication

Posted by Jack Leeming | Categories: , , , , , , ,

Though well-equipped with scientific training and expertise, scientists need to be aware of the resources available to help them share their work with a public audience, learns Aliyah Weinstein.

Recently, more and more emphasis has been put on scientists to communicate their research to public audiences. National scientific organizations such as the American Society for Biochemistry and Molecular Biology and the American Society for Cell Biology encourage their members to reach beyond the bench, and many blogs help scientists describe their research to wider audiences. At the University of Pittsburgh, where I’m working on my PhD, graduate student and postdoc organizations on campus share their excitement about science with the public through partnerships with local museums and school districts.

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Let’s be wolves

Posted by Jack Leeming | Categories: , , , , , , , ,

A man is a wolf to another man, said the Romans and later Hobbes. Maybe they didn’t study Canis lupus as carefully as they should have, says Naturejobs journalism competition winner Sofia Otero.

In an article last year from The New York Times, Rick McIntyre, a biological technician at the Yellowstone Wolf Project, explains that wolves are civil to each other — the alpha male is confident, self-assured, non-aggressive to the pack. He’s a champion with nothing to prove; a leader with a calming effect.

Every lab is a pack of wolves, with a hierarchy determined by your position and the time you’ve belonged in the group. I think we can all learn something from them.

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The alpha wolf is tough at the right moment: he fights to protect the territory and the group. In the lab, a good principle investigator (PI) is the alpha male (or female — here the wolves could learn something from us) who defends the research: the scientific territory. Read more

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Reactions: Bryden Le Bailly

Posted by Marshall Brennan | Categories:

IMG_0517Bryden Le Bailly worked on iron catalysis and molecular communication devices before moving to London, where he was at Nature Nanotechnology. He is now an Associate Editor for Nature.

1. What made you want to be a chemist?

I think when I realised that not quite understanding what was going on is half the point! I was lucky enough to have some inspirational teachers along the way, through school and university, to nudge me in the right direction.

2. If you weren’t a chemist and could do any other job, what would it be — and why?

I’d love to make my own wine, hopefully an ambition I may still fulfill later in life. It seems like a great mix of chemistry and working with your hands — both things I used to enjoy about being in the lab. And of course lots of tasting.

3. What are you working on now, and where do you hope it will lead?

Well, as I’ve just started at Nature I’m looking forward to meeting a lot of people in the organic chemistry and chemical biology communities and seeing what they’re up to!

4. Which historical figure would you most like to have dinner with — and why?

After serious consideration and whittling down a shortlist, I would say Ernest Hemingway. You know you’re getting a great character, incredible stories and a solid drinker. It’s the perfect, heady combination.

5. When was the last time you did an experiment in the lab — and what was it?

My last experiment in the lab was using a photoacid to mediate a conformational relay. It ended up being photographed and was used to promote the work, thus fulfilling my lifetime ambition as a hand model.

6. If exiled on a desert island, what one book and one music album would you take with you?

Choosing one album is an almost impossible choice to make because I listen to a lot of music, but if I was stuck with The Lyre of Orpheus/Abattoir Blues by Nick Cave and the Bad Seeds for the rest of my days I think I’d be okay with it. For a book I’d have to go with something from my favourite author, Haruki Murakami, probably The Wind Up Bird Chronicle. Murakami has such a unique and vivid writing style that so many of his novels would be an ideal companion to a desert island.

7. Which chemist would you like to see interviewed on Reactions — and why?

Daniele Leonori — I never got around to asking these questions while we were both at Manchester.

The Peer Review Hymn

Posted by Subhra Priyadarshini | Categories: , ,

In the middle of a busy, newsy week, that also saw a Science Writing and Career Workshop, a Conference Proceedings publication and some travel, I happened to receive a poem from Biswapriya B. Misra, who works in the genetics department of Texas Biomedical Research Institute, San Antonio, Texas, USA.

“The Peer Review Hymn”, needless to say, caught my attention immediately. Biswa has been a long-time reader of Nature India and we also featured him on our Away From Home series earlier (Living with Plants).

Here’s Biswapriya Misra‘s guest blog — his views on the peer-review process (he also rustled up this cartoon to go with it!) and the tongue-in-cheek hymn:

Cartoon

 

To an early career academic, the peer-review process both reflects and sums up his/her life. For someone who has published decently and reviewed enormously, I feel that the current academic set-up over-relies on publications in terms of number and quality. On the other hand, reviewers are burdened with so much to review and publish that the process might suffer many times. Peer review as a process may not be perfect but is the only time-tested one.

On a more personal note, performing sound science, going through steep learning curves of data handling, analysis, interpretation, visualization and the very process of authoring and co-authoring manuscripts can be very painful. On the other hand, as a reviewer, reviewing papers is a really enjoyable work, given that we are always good at critiques!

Submissions are journal-specific and formatting the citations is the most boring — how we wish all journals adopted a universal citation format! Passing through a technical editor’s criteria can be challenging at times — no matter how accurately one follows the author instructions. A good cover letter that ensures an impact on the Editor is also another big challenge!

This satire tries to sum up the plight of an author and his/her anxious state of mind during the peer review process.

 

The Peer-Review Hymn

Biswa

Biswapriya B. Misra

Oh my dear, oh my peer,
Oh my dear Peer Reviewer,
Gatekeeper of my precious career,
Please forgive that tiny mistake,
For, my career is at stake.

Formatting, and reformatting text till I blurred my sight,
Cropping images over many a night,
Following your journal’s instructions so tight,
Please do not reject my manuscript outright!

The PI was running low on resources,
Dear reviewer, please accept my excuses,
I was unable to perform your suggested experiments,
And my entire group will vouch, and still laments.

The data was not ‘garbage in and garbage out’,
Stats have helped me win this tough bout,
No oranges were compared with apples,
Even though the controls look just like samples!

Took me years to convince my PI,
He did not like my experiments or even stop by,
But now, as his name and reputation are on line,
He wants all credit supposed to be mine!

Oh Ghost Author, oh Ghost Author,
Never heard of you until we uploaded the paper,
Where were you, and foremost, who are you?
Do us a favour, and please decline to be there, will you?

Oh Reviewer, oh Reviewer One and Two,
Please write at least a paragraph – a line or two?
If my effort has taken 3 years to come about,
Will you be a wee bit interested to read it out?

Praying hard to avoid Reviewer Three,
Who has a reputation to reject for free,
No matter what the first two say,
He has to put his nose in the way, anyway!

Oh Editor, oh Editor, Once you have seen the review,
Hope the readers do not have to pay-per-view,
Whatever the form — single, double or blind,
Peer-review is vital for the scientist’s soul and mind.

Please let me out of this situation,
I want to survive until graduation,
Still churning out papers to get tenured,
Oh Reviewer, oh Journal, I shall come back, be assured.

This New Year I shall have new resolutions,
Ready with exact answers and replies to suggestions,
Shall make a career out of these, and more publications,
Building on my PIs reputation and connections.

Oh journal, Oh journal,
I shall be loyal to you till my funeral,
Please accept my investigation,
For the peace of my soul and for my salvation!

Nature’s Grand Societal Challenges

Posted by Subhra Priyadarshini | Categories: ,

Let’s talk career with Naturejobs

Every week, Indigenus brings you some interesting and relevant posts from sister blog Naturejobs, a leading online resource for scientists in academia and industry who seek guidance in developing their careers. The blog delivers a mix of expert advice and personal stories to help readers review, set and achieve their career goals.

This week we have Nature editor in chief Sir Philip Campbell, speaking about Nature‘s Grand Societal Challenges at the Naturejobs Career Expo, London, 2016.

 

Suggested posts

What personal qualities do you need to stand out in academia?

Have you ever had to compromise your personal life?

Science communication: Do you struggle with staying impartial?

The story behind the story: Box 27

Posted by Colin Sullivan |

In this week’s Futures story, Kevin Lauderdale presents Box 27. When not wrestling with the thorny issue of species definitions, Kevin has found himself writing essays and articles for the Los Angeles Times, The Dictionary of American Biography and McSweeneys.net. You can find out more about his work at his website. Here Kevin reveals what inspired his latest tale — as ever, it pays to read the story first.

Writing Box 27

The 1980 TV series Cosmos, hosted by Carl Sagan, affected me greatly. I was in grade school when it aired. Although I’d always been vaguely interested in science, this brought home to me the magnificence of the Universe and the wide breadth of what people who worked in the sciences studied.

In the penultimate episode, ‘Encyclopedia Galactica’, Sagan pages through an imaginary compendium of information about billions of worlds. We see entries for three representative planets. Among other information, we read about each planet’s age, its sun’s composition, its technology level and its ‘Society Code’ — its nickname, if you will. Sagan shows us the entry for ‘We Who Survived’, a planet only a little more advanced than Earth. Then there is ‘We Who Became One’, a super-civilization that has harnessed the power of supergiants and pulsars. And finally, Earth: a planet with no extra-planetary colonies, that’s still using fossil fuels and nuclear weapons, and that has only a 40% probability of surviving the next 100 years. Our Society Code is simply ‘Humanity’.

That idea has intrigued me for 36 years now. In the Universe Sagan imagined, how did we chose that name to be known by? Who chose it? Or was it imposed on us by the Encyclopedia’s writers? A few months ago, I began thinking more and more about this. What were some of the other options for labelling us Terrans? What might work and what would not?

Originally, my story had a different ending. Even though I was inspired by Sagan, I didn’t have my hero settle on ‘Humanity’ in the end. But as I fine-tuned my story, I became less and less satisfied with that ending. I sat down and watched much of Cosmos again. I quickly saw how right Sagan had been in making his choice. Thinking back over the whole of the series, I rediscovered the idea that we need to work together in order to solve our problems. Luckily, it is our natural inclination to do so. We are humans, but Humanity means we were not alone. I rewrote the last third of the story to fit the now-correct ending. (An ending that had been correct since 1980. Protip: you can’t improve on Carl Sagan.)

If this story speaks to you in any way, you owe it to yourself to go watch Cosmos. Maybe for the second time, maybe for the first. Celebrate Sagan’s vision, brilliance and, yes, humanity.

 

Finding job satisfaction in industrial research

Posted by Jack Leeming | Categories: , , , , ,

After finishing a PhD and postdoc studying the cellular mechanisms behind cardiovascular disease, Shikha Mishra decided not to continue in academia.

She found she could still do the work she loved at the bench by doing product development research at Thermo Fisher Scientific.

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The astrophysicist on a mission to get more women into physics

Posted by Lillienne Zen | Categories:

Guest post by Alex Jackson

Professor Jo Dunkley

Professor Jo Dunkley

Wadham College

“Very often the famous names we know and read about in science are not those of women,” says Professor Jo Dunkley. “To get more young girls studying the subject, we must change cultural perceptions and have more visible female role models.”

As we sit discussing the women who have inspired Dunkley, a professor of physics and astrophysical sciences at Princeton University, to study the universe, the mood is rather sombre. On a morning when the first female frontrunner for US presidency has missed out at the final hurdle, and the impacts of that decision on science, are yet unknown, there is a strong sense of disbelief.

“I was really hoping to see the first female president and that in itself is a disappointment,” she says. “I don’t see it as a positive turn of events in terms of funding for science, although I hope there’ll be enough influence to keep ongoing projects running.”

Dunkley admits to being shocked at the result. Having moved from the UK, just shortly after Brexit, she was already starting to see the effects of political uncertainty on European grants. “Uncertainty is not we need right now in science,” she says.

However, the astrophysicist has plenty occupying her mind other than politics. This week, she will receive the Royal Society’s Rosalind Franklin Award and present a public lecture in London. Named after the great English chemist and crystallographer, the award recognises both her research in the cosmic microwave background, and her work encouraging more young women to study physics.

“I see a really important part of my work is not just doing the research I love, but also encouraging others to pursue a career in science,” she says. Dunkley became aware of Franklin’s story when she was an undergraduate at Cambridge University. Sadly, Franklin died at just 37 years old, the age Dunkley has recently turned. “She’s such a wonderful role model, who achieved so much in a very short life.”

Our window on the universe

Dunkley’s own research has gained her much attention. As a research fellow at Princeton, she worked on NASA’s WMAP satellite, before analysing data on the European Space Agency’s Planck satellite. Interrogating rich and complex data, her research group made large strides in furthering our understanding of the universe’s origins.

Studying the evolution of the universe is, however, becoming easier as technology rapidly develops. “Our telescopes have become so sophisticated in recent decades, we are now able to see out into the far reaches of the universe,” Dunkley says. “We’ve been able to put together a fairly successful cosmological model that explains how we got here over the 14 billion year history of the universe.”

A large focus of Dunkley’s work involves turning recorded maps of the most distant light we can see—an image of the universe when it was born—into properties such as age, weight, and the rate of expansion.

“We measure the faint light by capturing a little snapshot of what the universe looked like when it was only 400,000 years old,” she explains. Her team then compare the experimental data to millions of theoretical universes, until they find one which matches. “We can now see the very beginnings of tiny cosmic structures that over billions of years develop to become the first stars and galaxies. It’s then our job to find out what these structures look like, and how they evolved,” she says.

After analysing more than 15 months’ data from Planck, Dunkley and her colleagues created the most detailed map ever made of the oldest light to shine through the universe. The results confirmed many of the theories cosmologists draw on to explain the evolution of the universe. “We think during the first trillionth of a second of the Big Bang, the universe expanded extremely fast, laying down the seeds for the cosmic structure we see today,” she says.

A view of the cosmic microwave background collected by the European Space Agency’s Planck satellite.

A view of the cosmic microwave background collected by the European Space Agency’s Planck satellite.

European Space Agency, Planck Institute

By Dunkley’s own admission, there are still many unanswered questions. Her current research at the Atacama Cosmology Telescope in Chile, and a new five-year project at the same site in the Atacama Desert called the Simons Observatory, hope to make the next big steps forward in measuring cosmic microwave background.

“We keep looking for new physics, complexities and extra particles that could have existed when the universe was very young,” notes Dunkley. “Yet, the more data we collect, the simpler the universe’s behaviour looks, which is exciting, but we still have all these unanswered questions.”

After the breakthrough LIGO discovery earlier this year, which detected gravitational waves, Dunkley believes there’s much optimism in now finding a signal from the big bang. She also hopes through another development, gravitational lensing, scientists will soon be able to understand and map out where all the dark matter is in our universe.

Role models

Her optimism and love for physics is affable and evident in her responses. Yet, there is one area she believes cultural changes are needed: role models. This is a theme she will address in her lecture and one that will feature in her first popular science book out late next year, Our Universe: An Astronomer’s Guide.

“There really aren’t enough women role models in physics, and many of the great female astronomers are not often that well known, or talked about in education,” says Dunkley. “I think it is so important. The ability to see someone you can imagine being, is everything, and gives you the confidence to try things out and aim for something. And often that will mean having someone, as a woman, showing a woman can do it.”

Galaxies in our universe

Galaxies in our universe

NASA, Hubble

As she enthuses through the great achievements of Henrietta Swan Leavitt, “an incredible woman” who made it possible for Edward Hubble to determine that the universe is expanding; Cecilia Payne-Gaposchkin who figured out how stars were formed; and Vera Rubin whose work led to the theory of dark matter, it’s easy to forget Dunkley has become a star in her own right.

Dunkley may feature on shows such as BBC’s Science Club and Stargazing Live, yet she believes the industry must do better. “The media must do more to get visible female role models on television to change perceptions,” she says. “I’d love to get to the stage where young people knew it was normal to be a female scientist, and expect to be able to have a family too, whether it be in physics or engineering.”

Time for change

On academia, Dunkley is keen to express some sanguinity. “We’re definitely seeing more women now at senior level, which makes a huge difference, and has a direct influence on female students,” she says.

At Princeton, she notes there are growing numbers in female students pursuing astrophysics. It was a similar trend at Oxford University, where until this summer, Dunkley taught for more than eight years.  However, it is the drop-out rate at colleges that worries her.

“In the UK, for example, only 20 percent of physics students aged 16-18 are girls, and this figure continues through to degree, PhD, and researcher level,” she explains. It is a target she’d like to see change. “Consciously or unconsciously, there is often still a common assumption that science, particularly physics, is more for boys than girls. To effect change, we need to influence both teachers and parents.”

Through her book release, she is a planning a series of workshops, talks and videos for students, as well as a public lecture tour of the UK. She hopes to raise awareness of women’s contribution to astronomy, as well as break down the idea that the universe is too difficult to understand.

“I want to promote the many remarkable women who have been central to our biggest discoveries in space,” she says. “We have an incredible group of women currently working in the field, but to answer our world’s most pressing questions and challenges, we need more.”

Professor Jo Dunkley’s Rosalind Franklin award lecture will be streamed live on Thursday, 6.30pm GMT / 1.30pm EST.

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Werner Herzog gets geological

Posted by Barbara Kiser | Categories:

Posted on behalf of Noah Baker

InfernoThe film Into the Inferno opens with a grand spectacle. The camera glides up and over tiny figures clustered on the peak of the volcanic island of Ambrym in Vanuatu in the South Pacific. Far below, an ominous lava lake splutters to a bombastic choral soundtrack. There is a sense of ritualistic grandeur here that sets the tone for what follows.

The documentary, created by legendary filmmaker Werner Herzog and Cambridge volcanologist Clive Oppenheimer, straddles the science and culture of volcanoes. It is strong on exploring the significance of volcanoes to humanity — their role in local mythologies, traditions and lifestyles, now and through the centuries. The film even suggests that our relationship with these geological giants stretches back to early hominids living in the shadows of volcanoes in East African rift valleys.

Like many Herzog films, Inferno goes off on tangents and strays into quirky side stories, hopping about among unusual locations. One moment we’re hearing from a volcanology station in North Korea, where Oppenheimer, in a rare international collaboration, has been working with local volcanologists for several years. The next we’re in the midst of an archaeological dig in Ethiopia, scientists scraping away at the soil in search of early hominid remains. The stories and locations do link back to volcanoes, but sometimes a little obliquely.

Oppenheimer occasionally brings insights into the science among the craters and cones, but his central quest remains cultural. And that yields a trove — not least the ‘cargo cult’ on the island of Tanna in Vanuatu. Its members worship a US serviceman called John Frum, who they claim lives in local volcano Yasur.

Noah Baker is senior editor in Nature’s multimedia team. Hear his Nature Podcast interview with Oppenheimer here.

 

For Nature’s full coverage of science in culture, visit www.nature.com/news/booksandarts.