Category Archives: public perceptions

S.NET (Society for the Study of New and Emerging Technologies) 2019 conference in Quito, Ecuador: call for abstracts

Why isn’t the S.NET abbreviation SSNET? That’s what it should be, given the organization’s full name: Society for the Study of New and Emerging Technologies. S.NET smacks of a compromise or consensus decision of some kind. Also, the ‘New’ in its name was ‘Nanoscience’ at one time (see my Oct. 22, 2013 posting).

Now onto 2019 and the conference, which, for the first time ever, is being held in Latin America. Here’s more from a February 4, 2019 S.Net email about the call for abstracts,

2019 Annual S.NET Meeting
Contrasting Visions of Technological Change
The 11th Annual S.NET meeting will take place November 18-20, 2019, at the Latin American Faculty of Social Sciences in Quito, Ecuador.

This year’s meeting will provide rich opportunities to reflect on technological change by establishing a dialogue between contrasting visions on how technology becomes closely intertwined with social orders. We aim to open the black box of technological change by exploring the sociotechnical agreements that help to explain why societies follow certain technological trajectories. Contributors are invited to explore the ramifications of technological change, reflect on the policy process of technology, and debate whether or why technological innovation is a matter for democracy.

Following the transnational nature of S.NET, the meeting will highlight the diverse geographical and cultural approaches to technological innovation, the forces driving sociotechnical change, and social innovation. It is of paramount importance to question the role of technology in the shaping of society and the outcomes of these configurations. What happens when these arrangements come into being, are transformed or fall apart? Does technology create contestation? Why and how should we engage with contested visions of technology change?

This is the first time that the S.NET Meeting will take place in Latin America and we encourage panels and presentations with contrasting voices from both the Global North and the Global South.

Topics of interest include, but are not limited to:
Sociotechnical imaginaries of innovation
The role of technology on shaping nationhood and nation identities
Decision-making processes on science and technology public policies
Co-creation approaches to promote public innovation
Grassroots innovation, sustainability and democracy
Visions and cultural imaginaries
Role of social sciences and humanities in processes technological change
In addition, we welcome contributions on:
Research dynamics and organization Innovation and use
Governance and regulation
Politics and ethics
Roles of publics and stakeholders

Keynote Speakers
TBA (check the conference website for updates!)

Deadlines & Submission Instructions
The program committee invites contributions from scholars, technology developers and practitioners, and welcome presentations from a range of disciplines spanning the humanities, social and natural sciences. We invite individual paper submissions, open panel and closed session proposals, student posters, and special format sessions, including events that are innovative in form and content.

The deadline for abstract submissions is *April 18, 2019* [extended to May 12, 2019]. Abstracts should be approximately 250 words in length, emailed in PDF format to 2019snet@gmail.com. Notifications of acceptance can be expected by May 30, 2019.

Junior scholars and those with limited resources are strongly encouraged to apply, as the organizing committee is actively investigating potential sources of financial support.

Details on the conference can be found here: https://www.flacso.edu.ec/snet2019/

Local Organizing Committee
María Belén Albornoz, Isarelis Pérez, Javier Jiménez, Mónica Bustamante, Jorge Núñez, Maka Suárez.

Venue
FLACSO Ecuador is located in the heart of Quito. Most hotels, museums, shopping centers and other cultural hotspots in the city are located near the campus and are easily accessible by public or private transportation. Due to its proximity and easy access, Meeting participants would be able to enjoy Quito’s rich cultural life during their stay.

About S.NET
S.NET is an international association that promotes intellectual exchange and critical inquiry about the advancement of new and emerging technologies in society. The aim of the association is to advance critical reflection from various perspectives on developments in a broad range of new and emerging fields, including, but not limited to, nanoscale science and engineering, biotechnology, synthetic biology, cognitive science, ICT and Big Data, and geo-engineering. Current S.NET board members are: Michael Bennett (President), Maria Belen Albornoz, Claire Shelley-Egan, Ana Delgado, Ana Viseu, Nora Vaage, Chris Toumey, Poonam Pandey, Sylvester Johnson, Lotte Krabbenborg, and Maria Joao Ferreira Maia.

Don’t forget, the deadline for your abstract is *April 18, 2019* [extended to May 12, 2019].

For anyone curious about what Quito might look like, there’s this from Quito’s Wikipedia entry,

Clockwise from top: Calle La Ronda, Iglesia de la Compañía de Jesús, El Panecillo as seen from Northern Quito, Carondelet Palace, Central-Northern Quito, Parque La Carolina and Iglesia y Monasterio de San Francisco. Credit: various authors – montage of various important landmarks of the City of Quito, Ecuador taken from files found in Wikimedia Commons. CC BY-SA 3.0 File:Montaje Quito.png Created: 24 December 2012

Good luck to all everyone submitting an abstract.

*Date for abstract submissions changed from April 18, 2019 to May 12, 2019 on April 24, 2019

Call for Papers: NanoEthics (special issue): After the hype is before the hype (Deadline for proposals: May 5, 2019)

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I got the notice for this special issue of NanoEthics (After the hype is before the hype) in my email this morning (April 16, 2019). Not being familiar with the journal I did a little searching.

NanoEthics (a Springer journal):

Studies of New and Emerging Technologies
Editor-in-Chief: Christopher Coenen
ISSN: 1871-4757 (print version)
ISSN: 1871-4765 (electronic version)
Journal no. 11569
…
Provides a needed forum for informed discussion of ethical and social concerns related to nanotechnology

Counterbalances fragmented, opinionated public discussion

Discussion is informed by the physical, biological and social sciences and the law
Nanoscale technologies are surrounded by both hype and fear. Optimists suggest they are desperately needed to solve problems of terrorism, global warming, clean water, land degradation and public health. Pessimists fear the loss of privacy and autonomy, “grey goo” and weapons of mass destruction, and unforeseen environmental and health risks. Concern over fair distribution of the costs and benefits of nanotechnology is also rising
Introduced in 2007, [emphasis mine] NanoEthics: Ethics for Technologies that Converge at the Nanoscale provides a needed forum for informed discussion of ethical and social concerns related to nanotechnology, and a counterbalance to fragmented popular discussion.
While the central focus of the journal is on ethical issues, discussion extends to the physical, biological and social sciences and the law. NanoEthics provides a philosophically and scientifically rigorous examination of ethical and societal considerations and policy concerns raised by nanotechnology.

Abstracted/Indexed in
Science Citation Index Expanded (SciSearch), Journal Citation Reports/Science Edition, Social Science Citation Index, Journal Citation Reports/Social Sciences Edition, SCOPUS, INSPEC, Google Scholar, AGRICOLA, Current Contents / Social & Behavioral Sciences, EBSCO Academic Search, EBSCO Book Review Digest Plus (H.W. Wilson) , EBSCO Discovery Service, EBSCO Humanities Full Text (H.W. Wilson), EBSCO Humanities International, EBSCO Humanities Source, EBSCO Nanotechnology Collection: India , EBSCO OmniFile Full Text (H.W. Wilson), EBSCO STM Source, EBSCO TOC Premier, ERIH PLUS, Ethicsweb, Expanded Academic, Gale, Gale Academic OneFile, Humanities Abstracts, Humanities Index, Materials Business File-Steels Alerts, Mechanical and Transportation Engineering Abstracts, OCLC WorldCat Discovery Service, ProQuest ABI/INFORM, ProQuest Advanced Technologies & Aerospace Database, ProQuest Business Premium Collection, ProQuest Central, ProQuest Health & Medical Collection, ProQuest Health Research Premium Collection, ProQuest Materials Science & Engineering Database, ProQuest Philosophy Database, ProQuest Science Database, ProQuest SciTech Premium Collection, ProQuest Technology Collection, ProQuest-ExLibris Primo, ProQuest-ExLibris Summon, Solid State and Superconductivity Abstracts, The Philosopher’s Index

Here’s the text from the April 16, 2019 email announcement,

Dear colleagues!

We invite papers for a special issue in the journal “NanoEthics: Studies
of New and Emerging Technologies”.

AFTER THE HYPE IS BEFORE THE HYPE – FROM BIO TO NANO TO AI: WHAT CAN
WE LEARN FROM PUBLIC ENGAGEMENT IN NANOSCIENCES AND NANOTECHNOLOGIES?

Since the early 2000’s, Nanosciences and nanotechnologies (NST) have
been massively promoted in many parts of the world. Two things were
striking about these policies: first, the hype surrounding NST; second,
the prominence of public engagement–citizen dialogue, deliberation and
participation–in NST discourse and policy. Nanotechnology became a
laboratory for the programmatic and practical development of a range of
forms of public engagement such as “upstream” and “midstream
engagement”, or policy approaches that prominently integrate public
engagement such as “anticipatory governance”, “real-time technology
assessment”, or “responsible research and innovation”.

From bio to nano: A major reason for this noticeable rise of public
engagement in NST are the food scandals and technology controversies in
the late 1990’s, in particular the controversy over genetically modified
organisms (GMOs). These controversies came to be seen as the result of
elites’ reductionist and arrogant approach to the public. To avoid a
similar public backlash against NST authorities and decision-makers in
science and politics should open doors for public engagement and humble
dialogue. Obviously, the public crisis around GMOs had triggered a
learning process.

From nano to AI: Today, the hype surrounding NST has waned and so have
concerns that nanotechnology might fall prey to a public backlash.
Nothing comparable to the public backlash against GMOs ever happened to
Nano. In fact, NST hardly became controversial. Meanwhile, new
technology hypes pervade the public discourse. Synthetic biology,
genetic editing or Artificial Intelligence (AI) are recent examples. In
each case, we observe parallels to the discourses on public engagement
in NST. In the case of AI, for example, prominent researchers and think
tanks warn against a public backlash if policy makers and funders fail
to foster public support through public engagement.

From bio to nano to AI: We suggest that social learning processes
intertwined with technology hypes pervade these and other arenas of
technology governance. While the GM controversy had a visible (albeit
not yet fully understood) effect on the NST field, today, we ask which
lessons can be drawn – and have been drawn by science policy actors –
from the NST field? Where do we stand today after 20 years of public
engagement in nanotechnology and other emerging technologies, and what
is there to learn for the “new governance” of most recently hyped
technologies such as AI?

POSSIBLE TOPICS INCLUDE:

Societal effects and social learnings of Public Engagement (PE)

–       How can we conceptualize the social learning processes which
seem to manifest in technology governance over the past twenty years?
Have new patterns of interpretation been established regarding the
nature of a successful or failed technology governance? If so, how can
they be described and distinguished from the “old” patterns of
interpretation?

–       Does the fact that NST mostly remained uncontroversial mean that
the early emphasis on public engagement in the NST field made it more
“socially robust”, “democratic” and “reflexive”? Have the right
“lessons” been drawn (from the past for the future)?

–       Why and how does the trend toward public engagement manifest
itself in different national political cultures? How did certain public
engagement formats travel across national borders in the NST policy
field?

PE between hype and reflexivity

–       What happens after the hype? With enthusiastic/dystopian
discourse subsiding, do public engagement activities also vane? What
happened to the engagement hype and to ambitious policy metaphors such
as “upstream engagement”? Have they been forgotten? Will they reappear,
or be reinvented, with the next big techno hype?

–       For the social sciences nanotechnology has provided an
opportunity to step up research and policy intervention. How can the
role/agency of the social sciences in public engagement processes be
conceptualized? In which way has this role changed in the past 20 years?
Which role conflicts or normative dilemmas arise from it?

PE between strategic and transformative uses

–       Did public engagement (ever) make a difference in the governance
of NST or other emerging technologies? How have public engagement
initiatives been integrated (or ignored) in the governance of NST and
other emerging technologies?

–       Has public engagement had identifiable impacts on policies or
institutions related to NST or other fields of technoscientific
discourse and policy? Did public engagement have the effect of
problematizing, shifting or even reshaping epistemic and political
demarcation lines between the public, scientific expertise and policy
subsystems? What can we expect for the future?

Several formats are available. We specifically invite original research
papers. In addition, contributions can come in the form of shorter
discussion notes, communications and responses, letters, art-science
interactions, interviews or anecdotes, and book reviews.

SCHEDULE

Proposals: May 5th 2019

First Draft: August 31st 2019

Final draft: January 31st 2020

Please, send proposals to both Franz Seifert (fseifert@gmx.at) and
Camilo Fautz (c.fautz@mailbox.org)

Not being familiar with either of the organizers, I also searched for them online.

Franz Seifert has been an independent social scientist since 2000 according to his CV (on academia.edu). At a guess, he’s based in Austria. I found his CV quite interesting, both it and his list of publications is extensive, all of it related to the topic of the special issue.

Camilo Fautz is a member of the scientific staff at the Karlsruhe Institute of Technology (Germany) and a PhD student, if his profile page is up-to-date. He too has a number of papers on ‘relevant to the special issue’ topics listed on his profile page.

Good luck with your submissions.

Resurrection (or de-extinction) biology debate: Don’t bring back extinct creatures (woolly mammoth, anyone?) back to life

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The debate takes place in New York City on Thursday, January 31, 2019. Ticket prices and more follow in the information from the January 17, 2019 IQ2US (Intelligence Squared) debates announcement received via email,

Intelligence Squared U.S. Debates De-Extinction, in NYC and Online January 31 [2919]

While bringing extinct species back to life was once a sci-fi fantasy out of ‘Jurassic Park’, recent biological and technological breakthroughs indicate that reviving creatures like the woolly mammoth and the passenger pigeon could someday become a reality. De-extinction’s proponents argue that benefits include correcting mistakes of the past and helping to curb climate change. But others aren’t so sure de-extinction is ethical, or even feasible, they worry that the resources channeled to support de-extinction efforts could compete with current work to save the over 16,000 endangered species on Earth today. On Thursday, January 31, veteran debate series Intelligence Squared U.S. continues their explorations into science and technology with a live debate on the motion “Don’t Bring Extinct Creatures Back to Life.”
Environmentalist Stewart Brand, who founded the Whole Earth Catalog, and Harvard professor Dr. George Church, who is working to revive the woolly mammoth, will argue in favor of de-extinction. Debating against them and against de-extinction will be Dr. Ross MacPhee, curator at the American Museum of Natural History, and evolutionary biologist Dr. Lynn J. Rothschild, a senior scientist at NASA’s Ames Research Center.

The debate will be held at NYC’s Kaye Playhouse and stream live online, then air soon after as part of the syndicated public radio show and podcast “Intelligence Squared U.S.” On January 31 [2019], online viewers can tune in at IQ2US’s website: https://www.intelligencesquaredus.org

WHAT: Intelligence Squared U.S. Debates “Don’t Bring Extinct Creatures Back to Life”

WHEN: Thursday, January 31 / 7:00-8:30 PM EDT

WHERE: The Kaye Playhouse at Hunter College, 115 E. 68th Street, New York, NY

TICKETS: $40 ($12 for students w/ ID). To purchase, visit http://www.intelligencesquaredus.org/

Arguing For the Motion

* Dr. Ross MacPhee: Curator, Department of Mammalogy, Division of Vertebrate Zoology, American Museum of Natural History Dr. Ross MacPhee is the former chairman of the Department of Mammalogy at the American Museum of Natural History, where he has been curator since 1988. Known for his paleomammalogical research on island extinctions, he has focused his most recent work on extinctions occurring during the past 50,000 years, or “Near Time.” He is the author of the new book “End of the Megafauna: The Fate of the World’s Hugest, Fiercest, and Strangest Animals” (Norton, 2019). Dr. MacPhee has also collaborated with geneticists and molecular biologists to develop the new tool of “ancient DNA” for studying the ultimate collapse of Pleistocene mammals.

* Dr. Lynn J. Rothschild: Evolutionary Biologist & Astrobiologist Dr. Lynn Rothschild is an evolutionary biologist and astrobiologist who focuses on the origin and evolution of life on Earth, while at the same time pioneering the use of synthetic biology to enable space exploration. She is a senior scientist at NASA’s Ames Research Center as well as an adjunct professor of molecular biology, cell biology, and biochemistry at Brown University. Since 2011, Rothschild has been the faculty adviser of the award-winning Stanford-Brown iGEM team, which has pioneered the use of synthetic biology to accomplish NASA’s missions, including the human settlement of Mars.

Arguing Against the Motion

* Stewart Brand: Co-Founder, Revive & Restore & Founder, Whole Earth Catalog Stewart Brand is a futurist, environmentalist, and proponent of de-extinction who promotes the use of science to preserve the planet. He is the co-founder of Revive & Restore, which facilitates extinct species revival, and the Long Now Foundation, of which he is co-chair and president. He was the founder and editor of the award-winning Whole Earth Catalog and is the author of several books, including “Whole Earth Discipline: An Ecopragmatist Manifesto.” In 2013, Brand organized the TEDxDeExtinction conference in partnership with the National Geographic Society.

* Dr. George Church: Professor of Genetics, Harvard and MIT & Founder, Personal Genome Project Dr. George Church is a geneticist and molecular engineer who is working to revive the extinct woolly mammoth. He is the Robert Winthrop professor of genetics at Harvard Medical School and professor of health sciences and technology at Harvard and MIT. Dr. Church developed methods used for the first genome sequence and founded the Personal Genome Project. He has earned dozens of awards and honors, including Time’s “100 Most Influential People,” and is the author of 490 papers, 130 patent publications, and the book “Regenesis: How Synthetic Biology Will Reinvent Nature and Ourselves.”

ABOUT INTELLIGENCE SQUARED U.S. DEBATES (IQ2US) A non-partisan, non-profit organization, Intelligence Squared U.S. was founded in 2006 to address a fundamental problem in America: the extreme polarization of our nation and our politics. Their mission is to restore critical thinking, facts, reason, and civility to American public discourse. The award-winning debate series reaches over 30 million American households through multi-platform distribution, including radio, television, live streaming, podcasts, interactive digital content, and on-demand apps on Roku and Apple TV. With over 150 debates and counting, Intelligence Squared U.S. has encouraged the public to “think twice” on a wide range of provocative topics. Author and ABC News correspondent John Donvan has moderated IQ2US since 2008.

The only speaker who’s been previously mentioned on this blog is George Church. In particular, 2018 seems to have been his year although it’s possible 2019 may beat that record for appearances on this blog.

Why not monetize your DNA for 2019? (Jan. 14, 2019); scroll down to the ‘Bockchain and crypto me’ subhead for more about George Church and his startup company.
First CRISPR gene-edited babies? Ethics and the science story (November 28, 2018) scroll down about 20% of the way to see an excerpted piece with Church’s comments.
I found it at the movies: a commentary on/review of “Films from the Future” (November 22, 2018) Dr. Andrew Maynard’s 2018 book ‘Films from the Future’ features a chapter on Jurassic Park and a discussion featuring Church and de-extinction; scroll down to the Jurassic Park subhead for the excerpts or read the book.
Xenotransplantation—organs for transplantation in human patients—it’s a business and a science (September 11, 2018) Church is featured in the section with the subhead ‘Medicine, healing, and big money’
Etc.: use ‘George Church’ as the search term in the blog search engine for more

Coming January 30, 2019: Watch this spot for a link to the live stream: Here you go on January 31, 2019 at 4 pm PT or 7 pm ET:
<iframe width=”560″ height=”315″ src=“https://www.youtube.com/embed/N-1iqmKlTs8” frameborder=”0″ allow=”accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture” allowfullscreen></iframe>

Café Scientifique Vancouver (Canada) talk on September 25th 2018: Giving patients, the public, and health-care providers a voice in pediatric biobanking and Science Borealis’ favourite Canadian science blog competition

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There are two items today, an event in Vancouver (Canada) and an online competition.

Pediatric biobanking

From a September 14, 2018 Café Scientifique Vancouver announcement received via email,

Our next café will happen on TUESDAY, SEPTEMBER 25TH at 7:30PM in the
back room at YAGGER'S DOWNTOWN (433 W Pender). Our speaker for the
evening will be DR. SUZANNE VERCAUTEREN the Director of BC Children’s
Hospital BioBank. Her topic will be:

GIVING PATIENTS, THE PUBLIC, AND HEALTH-CARE PROVIDERS A VOICE IN
PEDIATRIC BIOBANKING

Dr. Vercauteren is a hematopathologist and associate head of the
department of pathology and laboratory medicine at BC Children’s
Hospital. She obtained her MD and PhD at the University of Utrecht, The
Netherlands and did her residency in hematological pathology at the
University of British Columbia. Since 2013 Suzanne has been the
director of the BC Children’s Hospital BioBank, the first
institutional pediatric biobank in Canada to allow for a standardized
approach of patients and sample collections and ensuring high quality
samples and data and reduce consent burden for patients. “My research
includes ethical issues as well as public engagement and education in
biobanking. I believe that a systematic approach for the collection of
patient specimens and data is allowing groundbreaking research that can
quickly be translated into improved diagnosis and clinical care in many
areas of research.” She has published several papers regarding
pediatric biobanking and consenting [consent] and is a member of the Canadian
Tissue Repository Network Management Committee. She received several
grants to study public perception on (pediatric) biobanking topics.

You can find Dr. Vercauteren’s webpage on the BC Children’s Hospital website here.

One thing I’m curious about is this quote from her event description: “I believe that a systematic approach for the collection of patient specimens and data is allowing groundbreaking research that can quickly be translated into improved diagnosis and clinical care in many areas of research.” Since she started her biobanking initiative in 2011, have there been any breakthroughs? It seems to me that seven years later there might be some promising news and it’s surprisingly unmentioned in the event description.

Science Borealis’ Online Science Communication Competition

I stumbled across this recently, from the Science Borealis 2018 People’s Choice Award webpage,

VOTE! 2018 People’s Choice Awards: Canada’s Favourite Science Online!

Science Borealis and our co-sponsor the Science Writers and Communicators of Canada (SWCC) are excited to present the nominees for the 2018 People’s Choice Awards: Canada’s Favourite Science Online!

This year you are invited to vote for your 3 favourites in 2 categories — Favourite Science Blog and Favourite Science Site. The winners of each category will get snazzy site badges, endless bragging rights, and will be featured in full write-ups on both our blog and SWCC’s site.

Once you’ve voted, join us on social media to cheer for your favourite blogs and sites using the hashtag #CdnSciFav.

Take a look at the contenders before you GO HERE TO VOTE!

Here are the 2018 contenders for the Favourite Science Blog category:

Palaeocast – Dave Marshall, Joe Keating, Laura Soul, Liz Martin-Silverstone, Caitlin Colleary, Tom Merrick-Fletcher

Twitter: @Palaeocast

The Palaeocast blog is where we let palaeontologists around the world tell their own stories in their own voice. Palaeocast is a free web series exploring the fossil record and the evolution of life on earth.

Scientist Sees Squirrel – Stephen B. Heard

Twitter: @StephenBHeard

I’m an evolutionary ecologist and entomologist at the University of New Brunswick. Most of my current research has to do with plant-insect interactions and with the evolution of new biodiversity. But when I’m not doing research, I think about a lot of quasirandom things. I blog about some of them here.

Birds In Mud – Lisa Buckley

Twitter: @LisaVipes

I am a vertebrate paleontologist who specializes in the study of the tracks and traces of Mesozoic animals, specifically Cretaceous-age (145 million years ago to 66 million years ago) dinosaurs and birds!

Agile Scientific – Matt Hall, Evan Bianco, Diego Castañeda, Robert Leckenby, Kara Turner, Tracey Lothian

Twitter: @agilegeo

A bioscience and technology blog with a string focus on geophysics and geosciences, Agile also organizes hackathons, teaches coding for geoscientists and engineers, and promotes open discussion about pressing topics in science and industry.

Canadian Mountain Network – Various authors

Twitter: @CanMountainNet

CMN was established to collaboratively address the diverse challenges facing mountain regions by harnessing existing capacities and seeking new research relationships between Indigenous and non-Indigenous researchers and communities. Our aim is for CMN to become a national and global leader in inclusive, co-designed, interdisciplinary mountain-research that recognizes the interconnectedness in mountain systems between the environment, economy, and society, and encourages an integrated approach for long-term sustainability that serves the needs of mountain communities. CMN and its administrative centre is hosted at the University of Alberta.

Obesity Panacea – Peter Janiszewski and Travis Saunders

Twitter: @TravisSaunders and @Dr_Janis

Obesity Panacea educates people about the science (or lack thereof) behind popular weight loss products, and has grown to include discussions of the latest news and research regarding obesity, nutrition and physical activity.

The Boreal Beetle – Dezene Huber

Twitter: @docdez

Insect Ecology Lab at the University of Northern British Columbia blogging about ecology, entomology, and life.

Spiderbytes – Catherine Scott

Twitter: @Cataranea

This is a blog about spiders (and probably occasionally some other stuff, too)! The idea is that each post will feature accumulations of cool bits of information (‘bytes’) about spiders: spiderbytes. By the way, spiders (usually) do NOT bite, and one of my dreams (for this blog, and in life) is to shift perceptions about spiders from fearsome, aggressive, disgusting etc., to amazing, beautiful, sophisticated, charming, fascinating, elegant, resourceful, mysterious, and many more adjectives that could be used to describe these awesome arthropods!

Jasmine Janes – Jasmine Janes

Twitter: @JazJanes

I am an Assistant Professor in Plant Ecology/Genetics at Vancouver Island University. I teach units including Plant Ecology, Conservation Biology, Terrestrial Ecosystems and Computing for Biologists. I currently work and collaborate on projects ranging from genomics of eucalypts and mountain pine beetle, to speciation mechanisms in Stellaria, to dietary metagenomics in Vancouver Island Marmot.

Here are the 2018 contenders for the Favourite Science Site category:

Earth Rangers Kids outreach

Hey Science – Science Sam Popular science

Inside the Perimeter Theoretical physics

Quebec Science French language magazine

Research2Reality Joint university research

Science Alive General science

Science for the People Podcast and radio show

The Marine Detective Marine bio/art

The Weather Network – Out of This World Weather, climate and space science

Tomatosphere – Let’s Talk Science Education

At a guess, every single blogger is a member of SWCC and, oddly, all of them are scientists. It will be a great day, as far as I’m concerned, when regular people, assuming there are some out there, writing about science are in contention for these awards..

Call for papers for the 2018 S.NET (Society for the Studies of New and Emerging Technologies) Annual Meeting

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S.NET once stood for Society for the Study of Nanoscience and Emerging Technologies and then the name started changing with the most recent being, Society of the Studies of New and Emerging Technologies. As I noted in my 2017 end-of-year comments (Dec. 30, 2017 posting), the nano blogosphere is also shifting as nanotechnology is being absorbed into and enables other scientific and technical efforts.

S.NET is celebrating its 10th year at their annual meeting, which will be held in Maastricht (Netherlands). Here’s their call for papers,

2018 Annual S.NET Meeting

Image: Geert Budenaerts, Wikimedia

CALL for PAPERS.

The 10th annual S.NET meeting will take place June 25-27, 2018 at the Faculty of Arts and Social Science, Maastricht University, The Netherlands. The theme is Anticipatory Technologies: Data and Disorientation.

Invitation

S.NET invites contributions to the tenth annual meeting of The Society for the Study of New and Emerging Technologies (S.NET), to be held at Maastricht University, the Netherlands, on June 25 – 27, 2018. The three-day conference will assemble scholars, practitioners and policy makers from around the world interested in the development and implications of emerging technologies.

About S.NET

S.NET is an international association that promotes intellectual exchange and critical inquiry about the advancement of new and emerging technologies in society. The aim of the association is to advance critical reflection from various perspectives on developments in a broad range of new and emerging fields, including, but not limited to, nanoscale science and engineering, biotechnology, synthetic biology, cognitive science, ICT and Big Data, and geo-engineering. Current S.NET board members are: Michael Bennett (chair), Marianne Boenink, Ana Delgado, Clare Shelley-Egan, Chris Toumey, Poonam Pandey, Christopher Coenen, Colin Milburn, Kornelia Konrad, Nora Vaage, Maria Belen Albornoz, and Ryan LaBar.

Conference Theme: Anticipatory technologies – data and disorientation

Any effort on new and emerging technologies unavoidably deals with the non-existing and the speculative. The future is permanently mobilized to promote decisions and policies regarding the science, technology and society nexus. Anticipatory technologies like predictive policing and preventive medicine promise to give us better epistemic access and practical control over the future. The basic irony, however, is that anticipatory technologies do not only increase data but also disorientation. Is the disorientation vis-á-vis the future in spite of the astonishing growth of data, or can it be a result of that growth? Does the growing control over future events in terms of risk make people more acutely aware of what they don’t control? Contributions are invited that explore existing ways in which the future is mobilized, technologically mediated, and economically exploited; that map the manifold ways it is contested both in discourse and in action; and that reflect on the extent to which new technologies ironically undermine our faith in the future.

Key note speakers

Prof Cyrus Mody is an historian of recent science and technology and has published on the history of nanotechnology and micro-electronics. He studies the commercialization of academic research, countercultural science and technology, and the longue durée of responsible research and innovation. He worked at Rice University, Texas, the NSF Center for Nanotechnology in Society and now has a chair at Maastricht University.

Prof Marjolein van Asselt has a strong profile on governance, risk and uncertainty in both academic and policy circles. Currently she is member of the Dutch Safety Board and was a member of the Scientific Council for Government Policy for many years. She has a Governance chair at Maastricht University.

Third key note speaker to be announced.

Themes, topics and conference strands for the 10th Annual Meeting

S.NET encompasses communities, perspectives, and methodologies from across the social sciences, humanities and natural sciences, and welcomes contributions from technology developers and other practitioners. The program committee invites contributions from the full breadth of disciplines, methodologies, and perspectives, as well as from applied, participatory, and practical approaches to studying these emerging fields. Regionally or internationally comparative perspectives are especially welcome. Possible themes and topics have been organized into one overarching conference theme and six ‘strands’. While applicants are asked to indicate the strand relevant to the topic of their paper, submissions dealing with themes or topics outside the present strands are also welcome.

R&D practices and the dynamics of new and emerging sciences and technologies

Research networks & collaborations, ways of organizing research & development, emerging research fields, practices of ‘doing’ new and emerging fields of science and technology, including historical and philosophical studies of these practices.

Innovation and the use of new and emerging sciences and technologies

Innovation networks and systems, commercialization, implications for industry structures, translation from lab to practice, application and use of products and other innovations, critical analyses of growth and consumption, including economic, social and cultural approaches of innovation processes.

Governance of newly emerging sciences and technologies

Regulations, anticipatory governance practices, risk assessment, risk concerns, (constructive) TA, forms of public participation and engagement, including critical evaluation of forms of governance.

Visions and cultural imaginaries of newly emerging sciences and technologies

Promises, expectations, visions, science fiction, imagination, socio – technical change, moral change, role of media, including assessments of such visions and analyses of their role in innovation processes.

Publics and their relations to newly emerging science s and technologies

Science communication, risk communication, public engagement, participation and discourses on NEST, science museums, informal science learning initiatives, including critical evaluation of such initiatives and the notion of ‘publics’.

Politics and ethics of new and emerging sciences and technologies

Responsible innovation, (in)equality, equity, development, global and social distribution of benefits and risks, sustainability, ‘soft’ and ‘hard’ impacts of emerging technologies, including theoretical perspectives on NEST and global developments.

How to apply

S.NET encourages proposals for individual papers, posters, traditional panels, roundtable discussions and other innovative formats. Abstracts should be approximately 250 words in length. Proposals for panel sessions should include a general introduction and abstracts of the separate contributions. Proposals should include the theme or strand to which the abstract/panel session is submitted. If an abstract fits more strands, or does not fit the existing strands, simply note that in your submission. The deadline for abstract submissions is March 2, 2018; send your abstract in PDF form to 2018snet@gmail.com. All submitters will be notified about the results of the review process by the end of April 2018. Details of the submission process are available online: www.maastrichtsts.nl/snet.

The local organizing committee

Tsjalling Swierstra, Harro van Lente, Nora Vaage, Conor Douglas, Danielle Shanley, Darian Meacham, Cindy van Montfoort, Jacqueline Graff.

Location

Maastricht is an ancient Roman city of some 120.000 inhabitants in the south of The Netherlands and has a beautiful medieval inner-city. Generally known as the venue of the Treaty of Maastricht, it has a distinctly international orientation. Maastricht can easily be reached by plane, train and car. Maastricht University is internationally oriented; its students come from all over the world. The Faculty of Arts and Social Sciences (FASoS) is located in the centre of Maastricht.

Good luck!

Science denial is not limited to the political right

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These days, climate is the most likely topic to bring up charges of having anti-science views and/or ‘right wing’ thinking but according to a Sept. 19, 2017 news item on phys.org ‘left wing’ thinkers can also reject science,

In the wake of Hurricanes Harvey and Irma, many claims have been made that science denial, particularly as it relates to climate change, is primarily a problem of the political right.

But what happens when scientific conclusions challenge liberals’ attitudes on public policy issues, such as gun control, nuclear power or immigration?

A new study from social psychologists at the University of Illinois at Chicago [UIC] and published online in Social Psychological and Personality Science suggests people of all political backgrounds can be motivated to participate in science denial.

A Sept. 19, 2017 University of Illinois at Chicago news release (also on EurekAlert), which originated the news item, delves further,

UIC researchers Anthony Washburn, a graduate student in psychology, and Linda Skitka, professor of psychology, had participants indicate their political orientation, evaluate fabricated scientific results, and, based on the data, decide what the studies concluded.

Once they were informed of the correct interpretations of the data, participants were then asked to rate how much they agreed with, found knowledgeable, and trusted the researchers’ correct interpretation.

“Not only were both sides equally likely to seek out attitude confirming scientific conclusions, both were also willing to work harder and longer when doing so got them to a conclusion that fit with their existing attitudes,” says Washburn, the lead author of the study. “And when the correct interpretation of the results did not confirm participants’ attitudes, they were more likely to view the researchers involved with the study as less trustworthy, less knowledgeable, and disagreed with their conclusions more.”

These effects were constant no matter what issue was under consideration, which included six social issues — immigration, gun control, climate change, health care reform, nuclear power and same sex marriage — and one control issue — skin rash treatment.

Rather than strictly a conservative phenomenon, science denial may be a result of a more basic desire of people wanting to see the world in ways that fit with their personal preferences, political or otherwise, according to the researchers.

The results also shed light on science denial in public discourse, Skitka added.

“Before assuming that one group of people or another are anti-science because they disagree with one scientific conclusion, we should make an effort to consider different motivations that are likely at play, which might have nothing to do with science per se,” she said.

This research fits into a larger body of work where researchers are examining what we believe and how we use or dismiss science and fact to support our positions. Chris Mooney’s article “The Science of Why We Don’t Believe Science” for the May/June 2011 issue of Mother Jones examines the issue although it is strongly weighted with examples of research into intransigent opinion associated with right wing politics (climate change, etc.).

Getting back to more recent work, here’s link to and a citation for the paper,

Science Denial Across the Political Divide; Liberals and Conservatives Are Similarly Motivated to Deny Attitude-Inconsistent Science by Anthony N. Washburn, Linda J. Skitka. Social Psychological and Personality Science DOI: https://doi.org/10.1177/1948550617731500 First Published September 14, 2017

This paper is behind a paywall.

“Innovation and its enemies” and “Science in Wonderland”: a commentary on two books and a few thoughts about fish (2 of 2)

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Part 1 featured my commentary on both Calestous Juma’s 2016 book, ”Innovation and Its Enemies; Why People Resist New Technologies” and Meanie Keene’s 2015 book, “Science in Wonderland; The scientific fairy tales of Victorian Britain.” Now for an emerging technology; genetically modified fish (AquAdvantage salmon) and my final comments on the books and the contrasting ways the adoption of new technologies and science is presented.

Fish

AquAdvanage salmon features as one of Calestous Juma’s contemporary emerging technologies. I mentioned the fish here in a May 20, 2016 posting when the fish was approved for consumption in Canada; this followed an earlier mention in a Dec. 4, 2015 posting when the US Food and Drug Administration (FDA) approved the salmon for consumption in the US (from the 2015 posting),

…

For the final excerpt from the December 2015 issue, there’s this about genetically engineered salmon,

Genetically Modified Salmon: Coming to a River Near You?
After nearly 20 years of effort, the Food and Drug Administration has approved genetically engineered salmon produced by AquaBounty Technologies, as fit for consumption and will not have to be labeled as genetically engineered. This salmon is capable of growing twice as fast as a non-engineered farmed salmon in as little as half of the time, however, it’s still likely to be at least two years before these salmon reach supermarkets. Some groups are concerned about the environmental implications should these salmon accidentally get released, or escape, into the wild, even though AquaBounty says its salmon will be all female and sterile.

AquaBounty’s salmon (background) has been genetically modified to grow bigger and faster than a conventional Atlantic salmon of the same age (foreground.) Courtesy of AquaBounty Technologies, Inc. [downloaded from http://www.npr.org/sections/thesalt/2015/06/24/413755699/genetically-modified-salmon-coming-to-a-river-near-you]

The link from the newsletter points to a June 24, 2015 article by Jessie Rack for US National Public Radio’s Salt on the Table program (Note: Links have been removed),

One concern repeatedly raised by critics who don’t want the FDA to give the transgenic fish the green light: What would happen if these fish got out of the land-based facilities where they’re grown and escaped into the wild? Would genetically modified salmon push out their wild counterparts or permanently alter habitat? In a review paper published this month in the journal BioScience, scientists tackle that very question.

Robert H. Devlin, a scientist at Fisheries and Oceans Canada, led a team that reviewed more than 80 studies analyzing growth, behavior and other trait differences between genetically modified and unaltered fish. The scientists used this to predict what might happen if fish with modified traits were unleashed in nature.

Genetically modified salmon contain the growth hormone gene from one fish, combined with the promoter of an antifreeze gene from another. This combination both increases and speeds up growth, so the salmon grow faster.

Altering a fish’s genes also changes other traits, the review found. Genetically modified salmon eat more food, spend more time near the surface of the water, and don’t tend to associate in groups. They develop at a dramatically faster rate, and their immune function is reduced.

But would these altered traits help genetically modified salmon outcompete wild salmon, while at the same time making them less likely to thrive in nature? It’s unclear, says Fredrik Sundström, one of the study authors and an ecologist at Uppsala University in Sweden.

You may note the lead researcher for the literature review, a Canadian scientist was not quoted. This is likely due to the muzzle the Conservative government (still in power in June 2015 ) had applied to government scientists.

One last thing about AquAdvantage salmon, there is a very good Dec. 3, 2015 posting by Meredith Hamel focusing on their Canadian connections on her BiologyBizarre blog/magazine (Note: A link has been removed),

“For the first time anywhere in the world, a genetically engineered animal has been approved for human consumption” announced Peter Mansbridge on CBC [Canadian Broadcasting Corporation] news on November 20 [2015]. Members of society do not agree on how genetically modified fruits and vegetables should be labelled, if at all, but we are already moving on to genetically modified animals for human consumption. The AquAdvantage salmon by the US company AquaBounty can grow quicker and go to market twice as fast as regular farmed salmon using less feed. This genetically engineered salmon, whose fertilized eggs are produced at an inland facility in P.E.I [Prince Edward Island], Canada [emphasis mine] and raised at a facility in Panama, has been approved by the FDA after a long 20 year wait. AquAdvantage salmon could be the first genetically engineered meat we eat but opposition to approving it in Canada shows this salmon is not yet finished swimming against the current.

She goes on to describe in detail how these salmon are created (not excerpted here) and pinpoints another Canadian connection and political ramifications (Note: Links have been removed),

Head of Ocean Sciences Department at Memorial University [province of Newfoundland and Labrador], Garth Fletcher told The Star he was happy to see his creation get approved as he didn’t think approval would happen in his lifetime. Fletcher is no longer involved with AquaBounty but began working on this growth improved transgenic fish with other scientists back in 1982. On CBC news he said “the risk is as minimal as you could ever expect to get with any product.”

While the salmon is not approved in Canada for human consumption, some grocery store chains have already boycotted AquAdvantage salmon. The first step, the production of eggs in P.E.I has been approved by the federal government. Now there is a court battle with British Columbia’s Living Oceans Society and Nova Scotia’s Ecology Action Centre together challenging the federal government’s approval. They are concerned AquAdvantage salmon would be toxic to the environment as an invasive species if they were to escape and that this was not adequately assessed. Secondly they argue that Environment Canada had a duty to inform the public but failed to do so.

Natalie Huneault at Environment Canada told the National Oberver, “there were no concerns identified to the environment or to the indirect health of Canadians due to the contained production of these GM fish eggs for export.”

Anastasia Bodnar over on Biology Fortified does an excellent job of going through the risks and mitigation of AquAdvantage salmon (here and here) both with respect to safety of eating this meat product as well as in preventing escapee transgenic fish from contaminating wild salmon populations. The Fisheries and Oceans Canada document containing assessment of risks to the environment and health are found here. Due to the containment facility and procedures there is extremely low likelihood that any fertile genetically modified salmon would escape to an area where it could survive and reproduce.

The failure of Environment Canada to properly inform and have a discussion with the public before approving the P.E.I fertilized egg production facility will certainly have increased public mistrust and fear of this genetically engineered salmon. I think that if the public feel that this step has already taken place behind their back, future discussion about approving genetically engineered salmon as safe to eat, is only going to be met with suspicion.

…

Since the 2016 approval, AquAdvantage salmon, 4.5M tonnes has been sold in Canada according to an Aug. 8, 2017 article by Sima Shakeri for Huffington Post (Note: Links have been removed),

After decades of trying to get approval by in North America, genetically modified Atlantic salmon has been sold to consumers in Canada.

AquaBounty Technologies, an American company that produces the Atlantic salmon, confirmed it had sold 4.5 tonnes of the modified fish on August 4 [2017], the Scientific American reported.

The fish have been engineered with a growth hormone gene from Chinook salmon to grow faster than regular salmon and require less food. They take about 18 months to reach market size, which is much quicker than the 30 months or so for conventional salmon.

The Washington Post wrote AquaBounty’s salmon also contains a gene from the ocean pout that makes the salmon produce the growth hormone gene all-year-round.

The company produces the eggs in a facility in P.E.I., which is currently being expanded, and then they’re shipped to Panama where the fish are raised.

Health Canada assessed the AquAdvantage salmon and concluded it “did not pose a greater risk to human health than salmon currently available on the Canadian market,” and that it would have no impact on allergies nor a difference in nutritional value compared to other farmed salmon.

Because of that, the AquAdvantage product is not required to be specially labelled as genetically modified, and is up to the discretion of retailers.

Scientific American has reproduced a piece by Emily Waltz (originally published August 4, 2017, the date Canadian consumers discovered the fish was being sold, in Nature). From the Aug. 7, 2017 Scientific American republication (Note: A link has been removed),

AquaBounty’s gruelling path from scientific discovery to market terrified others working in animal biotechnology, and almost put the company out of business on several occasions. Scientists first demonstrated the fast-growing fish in 1989. They gave it a growth-hormone gene from Chinook salmon (Oncorhynchus tshawytscha), along with genetic regulatory elements from a third species, the ocean pout (Zoarces americanus). The genetic modifications enable the salmon to produce a continuous low level of growth hormone.

AquaBounty formed around the technology in the early 1990s and approached regulators in the United States soon after. It then spent almost 25 years in regulatory limbo. The US Food and Drug Administration (FDA) approved the salmon for consumption in November 2015, and Canadian authorities came to the same decision six months later. Neither country requires the salmon to be labelled as genetically engineered.

But unlike in Canada, political battles in the United States have stalled the salmon’s entry into the marketplace. …

Activists in both the United States and Canada have demanded that regulators reconsider their decisions, and some have filed lawsuits. …

Waltz includes this quote from an interested party,

The sale of the fish follows a long, hard-fought battle to navigate regulatory systems and win consumer acceptance. “Somebody’s got to be first and I’m glad it was them and not me,” says James West, a geneticist at Vanderbilt University in Nashville, Tennessee, who co-founded AgGenetics, a start-up company in Nashville that is engineering cattle for the dairy and beef industries. “If they had failed, it might have killed the engineered livestock industry for a generation,” he says.

Canadians don’t necessarily respond in the same way that Americans do. The stem cell controversies to the south of us never reached the same fury and pitch although there were some significant impacts felt by the research community. Similarly the GMO (genetically modified organisms) controversies were felt here but in nowhere near the same degree as Europe. That doesn’t mean there won’t be problems this time but trying to determine how Canadians are likely to respond can be tricky especially when most of us don’t know much about GMO foods as Meham Abedi notes in her August 9, 2017 article for Global TV news (Note: Link have been removed),

On Wednesday [Aug. 9, 2017], an Angus Reid survey revealed that most Canadians admit they don’t know much about genetically modified organisms, but still want more transparency.

Of the 1,512 respondents, 24 per cent said they had “never heard of them” or only heard the term, 60 per cent said they “know a little bit about” GMO food, while only 16 per cent were “very familiar” with what it entails.

However, 83 per cent of Canadians surveyed said at least some GMO food labelling should [be] mandatory in grocery stores.

The report echos 2016 Health Canada findings that Canadians’ opinions on the products were defined by “confusion, misinformation, and generally low awareness/understanding.”

…

The Angus Reid survey was conducted between June 8-13, 2017 [emphasis mine], by 1,512 Canadian adults. It is considered accurate +/- 2.5 percentage points, 19 times out of 20.

It’s hard to know how “confusion, misinformation, and generally low awareness/understanding,” is going to play out but it doesn’t seem a good idea to just sneak GMO salmon into the Canadian marketplace. Notably, Juma argues for more public education in his book and while it might not smooth the path as much as he and other innovation enthusiasts might prefer, it certainly couldn’t hurt.

It might also be useful to consider the idea that not all resistance is bad and to be avoided. Tess Doezema in her April 26, 2017 article (Skepticism About Biotechnology Isn’t Anti-Science) presents a persuasive argument suggesting that public concerns don’t deserve to be dismissed (Note: Links have been removed),

…

To many in bioscience and biotechnology circles, this [AquAdvantage salmon] is a case of politics contaminating science. In an open letter to President Obama in 2014, a group of “concerned international scientists and global technology company executives” argue this point:

The American people, and indeed all people everywhere, are best served by a trusted objective regulatory process truly based on sound science, a system which can be counted upon to evaluate and act on the applications it receives without fear of political interference.

These scientists and others offer a picture of a Manichean world divided into those who are for scientific and technological progress and those who are against it—a representation of the world that we have been seeing more and more of lately in reports of a “war on science.” But drawing this line is dangerous. The real problem here is the regulatory process itself, which forces dissent to take the narrow form of challenges to scientific data and methodology and ignores other questions about what’s at stake.

The FDA approval process for the AquAdvantage salmon took longer and included more opportunities for public comment than most products the FDA reviews. This unique openness to public input was balanced by a careful parsing of what counts as scientifically and contextually relevant and what does not. The agency received 38,000 comments in response to its draft assessment alone, but it determined that just 90 were worth considering [emphases mine]. The remaining comments were discounted as irrelevant because they did not directly address the details of the regulation process, or they raised issues beyond the mandate of the agency. These disregarded comments focused on a wide range of concerns, including patenting and ownership regimes of seed and crops; how deploying genetically modified corn and soy would affect the United States’ image around the world; continuing failures of existing market configurations to address inequality and food distribution; and the long history of multinational corporations central to the commercialization of biotechnologies, such as Monsanto, intentionally obscuring the negative impacts of their chemical products and byproducts while undermining human health.

…

Some might read the vast public preoccupation with a broad set of social, political, and economic issues as the contamination of science with politics. But I would suggest that this is actually a case of the reverse problem: seemingly endless conflict around the AquAdvantage salmon reflects the limitation of using narrow scientific terms to address questions of broad social, political, and economic significance. As things stand, the only legitimate way to engage in debates about the entry of the AquAdvantage salmon and other genetically modified organisms into our environments, meals, intellectual property regimes, and beyond is to contest its approval at the level of regulatory science. When the system asks the public to limit objections to narrow technical concerns, it undermines regulatory legitimacy and stultifies democratic debate—and perhaps most importantly, it contributes to the problematic discourse around science itself. When our modes of public deliberation strictly define what counts as a legitimate view on these issues, we end up portraying a good portion of the population as “against science,” when that in fact could not be further from the truth.

…

To position science on one side of these debates is not only patently false but detrimental to public discourse.

… Synthetic biology is billed as having the potential to transform the world in a way that will disrupt prevailing economic and geopolitical paradigms and “reshape the very fabric of life.” The one thing both sides of the fishy debate seem to agree on is that the AquAdvantage salmon is a “pioneer” technology, and what happens to this fish could set the stage for the role that biotechnology will play in our food system in the century to come. As one commentator opined for the New York Times:

We should all be rooting for the agency to do the right thing and approve the AquAdvantage salmon. It’s a healthy and relatively cheap food source that, as global demand for fish increases, can take some pressure off our wild fish stocks. But most important, a rejection will have a chilling effect on biotechnological innovation in this country. …

This framing suggests that biotechnological innovation is a necessary and unmitigated good. But for many, the prospect of a world radically altered by biotechnology conjures past experiences in which scientific “progress” didn’t go as planned—like the devastation and political instability ushered in by nuclear weapons. Similarly, to some, a dam looks like progress, development, and economic prosperity. But to others, it looks like the violent end of a way of life, heralded by the destruction of ecosystems and entire species.

…

Characterizing legitimate concerns about what kinds of technologies enter and help shape our world as “anti-science” is more likely to alienate than inspire “everyday Americans to identify with this vision of what science can do, and to believe in it.”

… perhaps we can make it productive in one way. Understanding the limitations of the process can help us think critically about how decision-making about synthetic biology going forward might be more open to a broader set of concerns and voices much earlier in the innovation process. The way forward is not drawing battle lines between those who are “for” or “against” science and closing down regulatory processes to all but the narrowest risk-based considerations. Rather, we should be forming and expanding spaces for a wide range of participants in creatively considering how to solve society’s biggest challenges. We need new ways of thinking and talking about technological promise and possibility in the world that we live in. [emphasis mine]

While Doersma is appealing to a US audience, her argument could be used internationally.

Final comments

Juma’s “Enemies of Innovation” and Keene’s “Science in Wonderland” are both worthwhile reads but it should be noted that Juma’s is the more ambitious. Keene is looking back and expanding the perspective in an area of previously mined children’s literature which hints at possible implications for our own time period..

For example, I think contemporary audiences might want to consider how much science, technology, and mathematics finds its way into our ‘fairy tales’ or super hero, space adventure, cartoons,, and other popular stories of today. Iron Man and his colleagues in one of the Avengers’ movies faced off with a robot/artificial intelligence entity, Ultron, suggesting potential existential risk; Star Trek’s impact on today’s technologies is widely acknowledged, and The Simpsons , a US animated programme, regularly embeds mathematics in its stories.

Juma examines history while attempting to extrapolate lessons for the future.It’s a courageous and worthwhile effort. While I’m not entirely comfortable with his top-down approach he knits together a comprehensive programme for policy makers and makes two point that I believe are too often overlooked, more agility is needed and these are global issues.

Nanoview report published by Germany’s Federal Institute for Risk Assessment

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According to a Dec. 13, 2016 posting by Lynn L. Bergeson and Carla N. Hutton for the National Law Review blog the German government has released a report on nanotechnology, perceptions of risk, and communication strategies,

On November 15, 2016, Germany’s Federal Institute for Risk Assessment (BfR) published a report, in English, entitled Nanoview — Influencing factors on the perception of nanotechnology and target group-specific risk communication strategies. In 2007, BfR conducted a survey concerning the public perception of nanotechnology. Given the newness of nanotechnology and that large sections of the population did not have any definite opinions or knowledge of it, BfR conducted a follow-up survey, Nanoview, in 2012. Nanoview also included the additional question of which communication measures for conveying risk information regarding nanotechnology are best suited to reach the majority of the population. … The report states that, given the findings from the 2007 representative survey, which confirmed gender-specific differences in the perception of nanotechnology, ideal-typical male and ideal-typical female concepts were developed. Focus groups then reviewed and optimized the conceptual considerations. According to the report, the ideal-typical male concept met the expectations of the male target groups (nano-types “supporters” and “cautious observers”).

… According to the report, the conceptual approach of the ideal-typical female concept met the expectations of the female target groups (nano-types “sceptics” and “cautious observers”), as well as catering to the information needs of some men (“cautious observers”). …

The report concludes that, with regard to the central communication measure, creating an information portal on the Internet appears to be the most meaningful strategy. .. The report states: “The ideal-typical male concept is geared towards the provision of information on scientific, technical and application-related aspects of nanotechnology, for example. The ideal-typical female concept focuses on the provision of information on application-related aspects of nanotechnology and support for everyday (purchase) decisions.”

I have quickly gone through the report and it’s interesting to note that the age range surveyed in 2012 was 16 to 60. Presumably Germany is in a similar position to other European countries, Canada, the US, and others in that the main portion of the population is ageing and that population is living longer; consequently, it seems odd to have excluded people over the age of 60.

I found more details about the gender differences expressed regarding nanotechnology, from Nanoview — Influencing factors on the perception of nanotechnology and target group-specific risk communication strategies,

For the following findings, there were numerous significant differences for the variables gender and age:
 Women are on the whole more sceptical towards nanotechnology than men; i.e.
– men tend to be more in favour of nano applications than women
– men take a more positive view than women of the risk-benefit ratio in general and in connection with specific applications
– men have a far better feeling about nanotechnology than women
– when it comes to information about nanotechnology, men have more faith in the government than women; women have more faith than men in environmental organisations as well as health and work safety authorities
– in some areas, men have a far more positive attitude towards nanotechnology than women
 Younger people are on the whole more open-minded about nanotechnology than older people; i.e.
-younger people tend to be more in favour of nano applications than older people. The cohort of 16 to 30-year-olds is in some cases far more open-minded than the population overall
– younger people take a (slightly) more positive view than older people of the risk-benefit ratio in general and in connection with specific applications
– in some areas, younger people have a far more positive attitude towards nanotechnology than older people

In contrast, there are few to hardly any significant differences for the variables “education”, “size of household”, “income” and “migration background”. [p. 77]

I also found this to be of interest,

In recent years, there has been little or no change in awareness levels among the general population with regard to nanotechnology. This is shown by a comparison of the representative Germany-wide surveys on the risk perception of nanotechnology among the population conducted in 2007 and 2012 (cf. Chapter 0). In response to the open question regarding nanotechnology, around 40% of respondents in the 2012 survey say they had not previously heard of nanotechnology or nanomaterials (cf. Chapter 4.2.2). At the same time, however, those respondents who did know about the topic were able to make fairly differentiated statements on individual issues and applications. The risk-benefit ratio of nanotechnology is seen slightly more critically than five years previously, and the general attitude towards nanotechnology has become less favourable. The subjective feeling of being informed about the issue is also still less pronounced than is the case with other innovative technologies. From the point of view of consumers, therefore, this means that an information deficit still exists when it comes to nanotechnology. (p. 83)

It seems to be true everywhere. Awareness of nanotechnology does not seem to change much.

This is a 162 pp. report, which recommends risk communication strategies for nanotechnology,

The findings of the representative survey underline the need to inform the public at the earliest possible date about scientific knowledge as well as the potential and possible risks of nanotechnology. For this reason, the challenge was to develop two alternative target group-specific risk communication concepts. The drafting of these concepts was a two-phase process and took account not only of the prior work done in the research project but also of the insights gained from two group discussions with consumers (focus groups). Against the backdrop of the findings from the representative survey, which confirmed the gender-specific differences in the perception of nanotechnology, it was decided in consultation with the client to develop an ideal-typical male and an ideal-typical female concept. … (p. 100)

This returns us to the beginning with the Bergeson/Hutton post. For more details you do need to read the report. By the way, the literature survey is quite broad and interesting bringing together more than 20 surveys to provide an international (largely Eurocentric) perspective.

The Center for Nanotechnology in Society at the University of California at Santa Barbara offers a ‘swan song’ in three parts

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I gather the University of California at Santa Barbara’s (UCSB) Center for Nanotechnology in Society is ‘sunsetting’ as its funding runs out. A Nov. 9, 2016 UCSB news release by Brandon Fastman describes the center’s ‘swan song’,

After more than a decade, the UCSB Center for Nanotechnology in Society research has provided new and deep knowledge of how technological innovation and social change impact one another. Now, as the national center reaches the end of its term, its three primary research groups have published synthesis reports that bring together important findings from their 11 years of activity.

The reports, which include policy recommendations, are available for free download at the CNS web site at

http://www.cns.ucsb.edu/irg-synthesis-reports.

The ever-increasing ability of scientists to manipulate matter on the molecular level brings with it the potential for science fiction-like technologies such as nanoelectronic sensors that would entail “merging tissue with electronics in a way that it becomes difficult to determine where the tissue ends and the electronics begin,” according to a Harvard chemist in a recent CQ Researcher report. While the life-altering ramifications of such technologies are clear, it is less clear how they might impact the larger society to which they are introduced.

CNS research, as detailed the reports, addresses such gaps in knowledge. For instance, when anthropologist Barbara Herr Harthorn and her collaborators at the UCSB Center for Nanotechnology in Society (CNS-UCSB), convened public deliberations to discuss the promises and perils of health and human enhancement nanotechnologies, they thought that participants might be concerned about medical risks. However, that is not exactly what they found.

Participants were less worried about medical or technological mishaps than about the equitable distribution of the risks and benefits of new technologies and fair procedures for addressing potential problems. That is, they were unconvinced that citizens across the socioeconomic spectrum would share equal access to the benefits of therapies or equal exposure to their pitfalls.

In describing her work, Harthorn explained, “Intuitive assumptions of experts and practitioners about public perceptions and concerns are insufficient to understanding the societal contexts of technologies. Relying on intuition often leads to misunderstandings of social and institutional realities. CNS-UCSB has attempted to fill in the knowledge gaps through methodologically sophisticated empirical and theoretical research.”

In her role as Director of CNS-UCSB, Harthorn has overseen a larger effort to promote the responsible development of sophisticated materials and technologies seen as central to the nation’s economic future. By pursuing this goal, researchers at CNS-UCSB, which closed its doors at the end of the summer, have advanced the role for the social, economic, and behavioral sciences in understanding technological innovation.

Harthorn has spent the past 11 years trying to understand public expectations, values, beliefs, and perceptions regarding nanotechnologies. Along with conducting deliberations, she has worked with toxicologists and engineers to examine the environmental and occupational risks of nanotechnologies, determine gaps in the U.S. regulatory system, and survey nanotechnology experts. Work has also expanded to comparative studies of other emerging technologies such as shale oil and gas extraction (fracking).

Along with Harthorn’s research group on risk perception and social response, CNS-UCSB housed two other main research groups. One, led by sociologist Richard Appelbaum, studied the impacts of nanotechnology on the global economy. The other, led by historian Patrick McCray, studied the technologies, communities, and individuals that have shaped the direction of nanotechnology research.

Appelbaum’s research program included studying how state policies regarding nanotechnology – especially in China and Latin America – has impacted commercialization. Research trips to China elicited a great understanding of that nation’s research culture and its capacity to produce original intellectual property. He also studied the role of international collaboration in spurring technological innovation. As part of this research, his collaborators surveyed and interviewed international STEM graduate students in the United States in order to understand the factors that influence their choice whether to remain abroad or return home.

In examining the history of nanotechnology, McCray’s group explained how the microelectronics industry provided a template for what became known as nanotechnology, examined educational policies aimed at training a nano-workforce, and produced a history of the scanning tunneling microscope. They also penned award-winning monographs including McCray’s book, The Visioneers: How a Group of Elite Scientists Pursued Space Colonies, Nanotechnologies, and Limitless Future.

Reaching the Real World

Funded as a National Center by the US National Science Foundation in 2005, CNS-UCSB was explicitly intended to enhance the understanding of the relationship between new technologies and their societal context. After more than a decade of funding, CNS-UCSB research has provided a deep understanding of the relationship between technological innovation and social change.

New developments in nanotechnology, an area of research that has garnered $24 billion in funding from the U.S. federal government since 2001, impact sectors as far ranging as agriculture, medicine, energy, defense, and construction, posing great challenges for policymakers and regulators who must consider questions of equity, sustainability, occupational and environmental health and safety, economic and educational policy, disruptions to privacy, security and even what it means to be human. (A nanometer is roughly 10,000 times smaller than the diameter of a human hair.) Nanoscale materials are already integrated into food packaging, electronics, solar cells, cosmetics, and pharmaceuticals. They are far in development for drugs that can target specific cells, microscopic spying devices, and quantum computers.

Given such real-world applications, it was important to CNS researchers that the results of their work not remain confined within the halls of academia. Therefore, they have delivered testimony to Congress, federal and state agencies (including the National Academies of Science, the Centers for Disease Control and Prevention, the Presidential Council of Advisors on Science and Technology, the U.S. Presidential Bioethics Commission and the National Nanotechnology Initiative), policy outfits (including the Washington Center for Equitable Growth), and international agencies (including the World Bank, European Commission, and World Economic Forum). They’ve collaborated with nongovernmental organizations. They’ve composed policy briefs and op eds, and their work has been covered by numerous news organizations including, recently, NPR, The New Yorker, and Forbes. They have also given many hundreds of lectures to audiences in community groups, schools, and museums.

Policy Options

Most notably, in their final act before the center closed, each of the three primary research groups published synthesis reports that bring together important findings from their 11 years of activity. Their titles are:

Exploring Nanotechnology’s Origins, Institutions, and Communities: A Ten Year Experiment in Large Scale Collaborative STS Research

Globalization and Nanotechnology: The Role of State Policy and International Collaboration

Understanding Nanotechnologies’ Risks and Benefits: Emergence, Expertise and Upstream Participation.

A sampling of key policy recommendations follows:

1.     Public acceptability of nanotechnologies is driven by: benefit perception, the type of application, and the risk messages transmitted from trusted sources and their stability over time; therefore transparent and responsible risk communication is a critical aspect of acceptability.

2.     Social risks, particularly issues of equity and politics, are primary, not secondary, drivers of perception and need to be fully addressed in any new technology development. We have devoted particular attention to studying how gender and race/ethnicity affect both public and expert risk judgments.

3.     State policies aimed at fostering science and technology development should clearly continue to emphasize basic research, but not to the exclusion of supporting promising innovative payoffs. The National Nanotechnology Initiative, with its overwhelming emphasis on basic research, would likely achieve greater success in spawning thriving businesses and commercialization by investing more in capital programs such as the Small Business Innovation Research (SBIR) and Small Business Technology Transfer (STTR) programs, self-described as “America’s seed fund.”

4.     While nearly half of all international STEM graduate students would like to stay in the U.S. upon graduation, fully 40 percent are undecided — and a main barrier is current U.S. immigration policy.

5.     Although representatives from the nanomaterials industry demonstrate relatively high perceived risk regarding engineered nanomaterials, they likewise demonstrate low sensitivity to variance in risks across type of engineered nanomaterials, and a strong disinclination to regulation. This situation puts workers at significant risk and probably requires regulatory action now (beyond the currently favored voluntary or ‘soft law’ approaches).

6.     The complex nature of technological ecosystems translates into a variety of actors essential for successful innovation. One species is the Visioneer, a person who blends engineering experience with a transformative vision of the technological future and a willingness to promote this vision to the public and policy makers.

Leaving a Legacy

Along with successful outreach efforts, CNS-UCSB also flourished when measured by typical academic metrics, including nearly 400 publications and 1,200 talks.

In addition to producing groundbreaking interdisciplinary research, CNS-UCSB also produced innovative educational programs, reaching 200 professionals-in-training from the undergraduate to postdoctoral levels. The Center’s educational centerpiece was a graduate fellowship program, referred to as “magical” by an NSF reviewer, that integrated doctoral students from disciplines across the UCSB campus into ongoing social science research projects.

For social scientists, working side-by-side with science and engineering students gave them an appreciation for the methods, culture, and ethics of their colleagues in different disciplines. It also led to methodological innovation. For their part, scientists and engineers were able to understand the larger context of their work at the bench.

UCSB graduates who participated in CNS’s educational programs have gone on to work as postdocs and professors at universities (including MIT, Stanford, U Penn), policy experts (at organizations like the Science Technology and Policy Institute and the Canadian Institute for Advanced Research), researchers at government agencies (like the National Institute for Standards and Technology), nonprofits (like the Kauffman Foundation), and NGOs. Others work in industry, and some have become entrepreneurs, starting their own businesses.

CNS has spawned lines of research that will continue at UCSB and the institutions of collaborators around the world, but its most enduring legacy will be the students it trained. They bring a true understanding of the complex interconnections between technology and society — along with an intellectual toolkit for examining them — to every sector of the economy, and they will continue to pursue a world that is as just as it technologically advanced.

I found the policy recommendations interesting especially this one:

5. Although representatives from the nanomaterials industry demonstrate relatively high perceived risk regarding engineered nanomaterials, they likewise demonstrate low sensitivity to variance in risks across type of engineered nanomaterials, and a strong disinclination to regulation. This situation puts workers at significant risk and probably requires regulatory action now (beyond the currently favored voluntary or ‘soft law’ approaches).

Without having read the documents, I’m not sure how to respond but I do have a question. Just how much regulation are they suggesting?

I offer all of the people associated with the center my thanks for all their hard work and my gratitude for the support I received from the center when I presented at the Society for the Study of Nanotechnologies and Other Emerging Technology (S.Net) in 2012. I’m glad to see they’re going out with a bang.

IMPACT: a ‘futures’ game by Idea Couture

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Liz Alexander in an Oct. 20, 2016 article for Fast Company describes a ‘futures’ game designed by Toronto, Canada-based Idea Couture,

Other than a brief chat with a college career counselor, or that time a family member asked what you wanted to be when you grew up, has anyone encouraged you to look into the future? Were you ever formally taught how to develop your capacity for foresight? Me neither.

A new game called IMPACT, by the innovation and design firm Idea Couture, wants to change that. Given how rapidly the workforce is evolving—not to mention life’s inherent uncertainty—IMPACT’s creators felt it might be useful to help people sharpen their ability to anticipate and respond to unexpected change, especially when it comes to their careers.

It’s designed for groups of three to five players (though up to six can play), and it’s arguably best suited to people ages 16 and older.

To begin, each player chooses a card that outlines their persona for the duration of the game. All are meant to represent a knowledge worker from the future workforce—someone who helps customize prescriptions for patients; uses social-media mining and systems thinking to assemble distributed teams; or develops living spaces, transportation solutions, and health innovations to make space travel more feasible for humans. And each persona card includes a set of optimal conditions for exercising their skill sets.

In each round, a player draws an “impact card” describing a technological breakthrough that may shake up their career prospects—for good or ill. Every player then has to react to its impact by adding or subtracting “influence cubes” to the game board, which covers 10 “domains” (agriculture, energy, transportation, etc.), only three of which are relevant to each character’s “preferred future.”

…

As Elaine Cameron, resident futurist and senior director of the FUTURE Perspective Group at the public relations firm Burson-Marsteler, explains, “One of the things futurists learn to be comfortable with is a degree of uncertainty. What we are equipped to do is to track signals of change, anticipate the direction of travel, and imagine possible scenarios that could evolve”—all skills that IMPACT is meant to sharpen in players. “That way you have some kind of plan in place should any of those possibilities become reality.”

Cameron recently contributed to IMPACT’s Kickstarter campaign, which exceeded its target of $15,000 CAD earlier this month. It’s now fully funded and entering production, with Idea Couture taking preorders (at $65 USD) and pledging to donate 25 free copies to educators.

…

I [Liz Alexander] recently asked some volunteers to give IMPACT a spin. One was Debra France, a corporate educator at a global innovation company. In one round, France was faced with four cards describing real-life technological breakthroughs in green jet fuel, cheap spray-on solar cells, fuel-producing plants, and biomedical implants that can bond with human cells. While only some of these eco-friendly innovations worked to her persona’s strengths, and she won bonus round at the end of the game by coming up with the “era” headline: “It’s now easy being green.”

Afterward, France said she had a strong sense of the game’s real-world applications, including “for young people in STEM programs,” because it pushes players to consider “a broad range of possible future jobs that could help them decide which science or technology to pursue.”

If you have the time, it’s an interesting article.

Here’s a video Idea Couture produced touting their game,

Were you just as surprised to find out the Government of Canada has an innovation lab (Policy Horizons Canada)?

Here’s a little more about the government’s innovation lab from a Sept. 19, 2016 Idea Couture news release announcing their IMPACT Kickstarter campaign (closed on Oct. 1, 2016) on PRWeb (Note: A link has been removed),

The game was originally designed in collaboration with Policy Horizons Canada, an innovation lab within the Government of Canada, whose work explores how disruptive technologies may shape the economy and society. Players learn about developments in fields like nanotechnology, artificial intelligence, Internet of Things, biotechnology, and robotics; and are prompted to consider their industry, environment, and policy implications.

IMPACT is currently used by public servants within the Government of Canada to introduce and teach the discipline of strategic foresight. Now, through the launch of a Kickstarter campaign, Idea Couture is on a mission to make it available to anyone who wants to get better at futures thinking.

Robert Bolton, Head of Foresight Studio at Idea Couture, says, “When people play IMPACT, they practice the creative and critical thinking skills that foresight strategists like us use in our work with Fortune 500 companies and governments. We want to make those skills broadly accessible, so a more diverse population of citizens is empowered to participate in determining the shape of the future.”

I’m glad to see this game as it seems designed to raise awareness about science and future applications. It’s especially good to see the Canadian government and its policy makers using these tools. However, after watching the video, it seems that this game is not for everybody. You may have noticed the players are aged 20 – 40 (at the most). What about those of us who don’t fit into the demographics (employed 20 – 40 year olds) as shown in the video? Plus, I have a strong suspicion that this game is oriented to urbanites in the Canadian south.

If the game is intended to have a broader appeal than what is seen in the video, Idea Couture needs to do a better job of telling the story.

FrogHeart

Commentary about nanotech, science policy and communication, society, and the arts

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IMPACT: a ‘futures’ game by Idea Couture