Monthly Archives: February 2018

Enter the Naturejobs #ScientistAtWork photo competition 2018

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Send us a moment from your scientific day

By Jack Leeming

UPDATE: This competition is now closed. The winning entries will be published in the 26th April issue of Nature.

Last year, we launched the first Naturejobs #ScientistAtWork photo competition. It was a huge success — we received hundreds of entries from all over the world, and spoke to the five winners here.

We’re running the same competition again this year. We’re looking forward to seeing your entries. Winners will be announced and profiled alongside their images in the April 26th issue of Nature magazine, and will receive a year’s personal print and online subscription to Nature.

The competition will run from the 1st of March until midnight GMT on March 31st. Entrants must not be professional photographers.

All you need to do to enter is either:

  1. Email us your photo with a quick description and your contact details, or
  2. Post your image on Twitter with the #ScientistAtWork tag, or
  3. Post your image on Instagram with the #ScientistAtWork tag

You must be willing to grant us the rights to publish your image for the competition. You also must be contactable — we’ll be getting in touch to interview you about your photo if you are one of the five winners. We may also contact runners-up, as we did in 2017, to find out more about the story behind the image.

The winning entries will be decided by a panel of Nature journalists and art staff. We’re looking for images that capture moments in a scientific day — either in or out of the lab — in an original way. Heavily photoshopped images will not be considered (though colour correction and touching-up is fine). Finally, your photo must be high enough quality for print publishing in Nature (at least 220 mm at 300 dpi) to be considered.

That’s it! (More-or-less: please check out the terms and conditions below.) Best of luck to all of you and we look forward to flicking through your photos. Please feel free to send any questions to photocompetition@nature.com.

 

Jack Leeming is the editor of Naturejobs.

 

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African astronomy and how one student broke into the field

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Africa is investing in a future of astronomy research, but students need access to inspirational lecturers, says Gina Maffey.

Mutie at the Ghana Radio Astronomy Observatory (GRAO) at Kuntuse, Ghana

Isaac Mumo Mutie

What do you do when the degree you want to study is not offered by your university?

You study it anyway.

“I did a lot of personal research online, looking for answers” says Isaac Mumo Mutie, an astronomy student who studied at the Technical University of Kenya. While studying for a Bachelor of Technology in Technical and Applied Physics, Professor Paul Baki introduced Mutie to astronomy, and Mutie would consult with him in his spare time.

“He would ask me ‘why are you interested? This is not part of the curriculum.’ But I insisted.” Continue reading

A student shaping the future of African astronomy

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Africa is investing in a future for astronomy research, but it requires a fresh cohort of enthusiastic people to make it happen. Gina Maffey talks to one dedicated scientist.

Asabre Frimpong (second from the left) and Prof-smaller

“I want to see Africa lit up.” Naomi Asabre Frimpong says with a laugh, “I want to show how Africa can be forward thinking. I want to make sure that we are not left behind.”

Asabre Frimpong is a 2nd year PhD student at the University of Manchester, in the UK, and her enthusiasm — for both astronomy and science in general — is infectious.

She says she was attracted to science through chemistry, and studied for a BSc and MPhil in Ghana. A post at the Ghana Space Science and Technology Centre introduced her to astronomy and shortly afterwards, on an astronomy and astrophysics training scheme in India, her worlds collided as she discovered astro-chemistry – the study of chemical reactions in space Continue reading

TechBlog: Software quality tests yield best practices

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{credit}Alexandros Stamatakis/GitHub{/credit}

Life science research increasingly runs on software. A good fraction, perhaps even most of it, is made by academics, for academics: Rough around the edges, perhaps, but effective — not to mention free. But, is it of high quality?

Alexandros Stamatakis decided to find out.

Stamatakis is a computer scientist and bioinformatician at HITS, the Heidelberg Institute for Theoretical Studies in Germany, and a professor of computer science at the Karslruhe Institute of Technology. His team has been developing and refining software tools for evolutionary biology for more than 15 years, he says, including one called RAxML (from which the code snippet shown above was pulled). Yet for all that time, he says, his code still wasn’t perfect.

“The more I developed it the more bugs I had to fix and the more I started worrying about software quality,” he says.

Not software ‘accuracy’, mind you — when it comes to phylogenetics, it’s difficult to know whether software is providing the correct answer. “You don’t know the ground-truth,” Stamatakis says. Rather, he was curious whether popular tools meet computer-science standards for quality.

To find out, Stamatakis and his team downloaded the code for 16 popular phylogenetic tools (plus, as a control, one from the field of astronomy), which collectively have been cited more than 90,000 times. They then ran those codes — 15 of which were written in C/C++ and the last in Java — through a series of tests.

For instance, they looked at how well software can scale from a desktop computer to a large cluster, something that increasingly is necessary as life science datasets balloon in size. They measured the amount of duplicated code in the software to get a rough indication of maintainability. And they counted the number of so-called ‘assertions’ — logical statements in the code that assert, for instance, that a value falls within a certain range, and that cause the software to terminate should they fail — to obtain a measure of code ‘correctness’.

“There have been empirical studies by computer scientists working in the field of software engineering, where they showed that there is a correlation between incorrect code, or code defects, and the number of assertions used — or let’s better say, an anti-correlation,” Stamatakis says.

So, how did the toolset do? Not too well.

As documented in an article published 29 January in Molecular Biology and Evolution, none of the 16 programs in the round-up, including Stamatakis’ own RAxML, aced all the tests. (With 57,233 lines of code, RAxML exhibited both compiler warnings and memory leaks.) But, he stresses, that is neither to denigrate the programmers who wrote those tools — who, after all, were simply trying (and generally succeeding) to solve a particular problem — nor to suggest they do not work properly.

Rather, he says, potential users must exercise caution in using these tools. “They shouldn’t blithely trust software. And they shouldn’t view it as black boxes,” but instead (as he puts it in his article) as “potential Pandora’s boxes”.

Users should strive also to understand what their code is doing, Stamatakis advises. And if unexpected results arise, repeat them using a separate tool that performs the same task, to ensure they aren’t chasing digital phantoms.

Stamatakis concludes his article with a series of ‘best practices’ for software developers. These include running tests for memory allocation errors and leaks, using assertions, checking for code compilation warnings using multiple compilers, and minimizing code complexity and duplication — practices that are common in professional software development but less so in the life sciences.

The tools Stamatakis’ team used to run its tests are freely available, so readers can try them themselves to see how trustworthy their chosen software is.

Journal editors, he says, should consider requiring such tests of any peer-reviewed work, either performed by the authors themselves prior to submission, or by the peer-reviewers. In fact, during our conversation, Stamatakis suggested he might make the toolbox available as a Python script or Docker container, to make it easier for others to adopt. If and when he does, we’ll let you know. In the meantime, caveat emptor!

 

Jeffrey Perkel is Technology Editor, Nature

 

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March for Science 2018 gears up

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Organisers of the second annual March for Science , scheduled for 14 April in Washington DC, are hoping to recapture the energy and enthusiasm that prompted more than 1 million researchers and others to march together last year across 600 cities around the world in support of evidence-based policy and upholding science for the greater good.

MarchforScience-Judith-2-smaller

Caroline Weinberg, an organizer for the upcoming march in Washington DC, expects smaller crowds than last year, although she admits her prediction may again be off the mark. “Last we expected 40,000 people, and we got around 100,000,” she says. She adds that most of the marchers in the nation’s capital city were concerned citizens, not practicing researchers.

In Washington DC and elsewhere, organisers envision events with fewer marchers, placards and chants but more advocacy-related activities. Weinberg and others aim to offer hands-on projects for those taking to the streets in Washington DC. In Berlin, Germany, organisers are planning a “local hero” programme where scientists will give public talks at bars, cafes and other venues. March-related activities in Portland, Oregon, will include speeches by local politicians and a science expo with at least 30 presenters, including a juggler who demonstrates the principles of physics.

The election and inauguration of Donald Trump for US president helped to spur marchers last year, and Weinberg says that she suspects that some scientists this year may be motivated to speak out against Trump’s recent budget proposal, which called for drastic cuts to the US Centers for Disease Control and Prevention spending plan . But she adds that the march and other forms of science activism shouldn’t depend on crises to draw interest and participation. “Our challenge is to build up a huge crowd and send a message that galvanizes everyone but to also make it sustainable,” she says. “We can’t allow our advocacy to be tethered to those moments.”

Roughly 15,000 people attended last year’s march in Portland, but that kind of enthusiasm will be hard to replicate, says Denesa Oberbeck, a behavioral neuroscientist at the Oregon Health & Science University in Portland and a member of the steering committee for this year’s march. “There’s some fatigue and some burnout, but we need to keep fighting,” she says. “We have to maintain an activist stance.”

Kristine Wadosky, a cancer researcher at Roswell Park Cancer Institute in Buffalo, New York, marched in Washington DC last year carrying a sign that read “Curing cancer is non-partisan.”  This year, she plans to join the march in Chicago, Illinois, where she will give a talk on advanced prostate cancer for the annual meeting of the American Association for Cancer Research. She says that she’s just as energized about science advocacy as ever before, and she thinks that many other young scientists feel the same way.

This time, Wadosky says, she won’t need a sign to send her message, which isn’t especially complicated. “I just want to go to show that I’m a scientists, and I exist,” she says.

 

Chris Woolston is a freelance writer in Billings, Montana.

 

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Isolation and alienation force female researchers out of US tech jobs

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US corporate training programmes aimed at retaining female researchers in technology may be focussing on the wrong targets.

IMG_4078

A report, out on 7 February in Information Systems Journal, examines the results of in-depth interviews with 23 women in information-technology jobs across nine US firms, including consultancies, a bank and an insurance company. Study authors sought to identify the challenges faced by female researchers in industrial technology positions. Continue reading

TechBlog: ‘Manubot’ powers a crowdsourced ‘deep-learning’ review

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2018-02-22_Tech-Feature_Deep-learning_WEB

{credit}Alfred Pasieka/SPL/Getty{/credit}

In Nature‘s February technology feature on ‘deep learning‘, a kind of artificial intelligence whose usage is spiking in life science research, author Sarah Webb points readers to a ‘comprehensive, crowd-sourced’ review of the field.

Available as a preprint on bioRxiv (ETA: and now online in the Journal of the Royal Society Interface), the review is indeed comprehensive: the PDF runs to 123 pages and 552 references, and has been downloaded nearly 27,500 times since May 2017. But it was an intriguing footnote on the article’s title page that really piqued my interest: “Author order was determined with a randomized algorithm”. Continue reading

The long and winding road for training scientists to engage the general public

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Efforts to encourage better public outreach are admirable, but better communication between scientists must come first, says David Rubenson.

communication

{credit}iStockphoto/Thinkstock{/credit}

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