Tag Archives: Canada National Research Council

Gary Goodyear rouses passions: more on Canada’s National Research Council and its new commitment to business

Gary Goodyear’s, Minister of State (Science and Technology), office in attempting to set the record straight has, inadvertently, roused even more passion in Phil Plait’s (Slate.com blogger) bosom and inspired me to examine more commentary about the situation regarding the NRC and its ‘new’ commitment to business.

Phil Plait in a May 22, 2013 followup to one 0f his recent postings (I have the details about Plait’s and other commentaries in my May 13, 2013 posting about the NRC’s recent declarations) responds to an email from Michele-Jamali Paquette, the director of communication for Goodyear (Note: A link has been removed),

I read the transcripts, and assuming they are accurate, let me be very clear: Yes, the literal word-for-word quotation I used was incorrect, and one point I made was technically and superficially in error. But the overall point—that this is a terrible move by the NRC and the conservative Canadian government, short-changing real science—still stands. And, in my opinion, Goodyear’s office is simply trying to spin what has become a PR problem.

I’ll note that in her email to me, Paquette quoted my own statement:

John MacDougal [sic], President of the NRC, literally said, “Scientific discovery is not valuable unless it has commercial value”

Paquette took exception to my use of the word “literally,” emphasizing it in her email. (The link, in both her email and my original post, goes to the Toronto Sun story with the garbled quotation.) Apparently MacDougal did not literally say that. But the objection strikes me as political spin since the meaning of what MacDougal said at the press conference is just as I said it was in my original post.

As I pointed out in my first post: Science can and should be done for its own sake. It pays off in the end, but that’s not why we do it. To wit …

Paquette’s choice of what issues (the 2nd issue was Plait’s original description of the NRC as a funding agency) to dispute seem odd and picayune as they don’t have an impact on Plait’s main argument,

Unfortunately, despite these errors, the overall meaning remains the same: The NRC is moving away from basic science to support business better, and the statements by both Goodyear and MacDougal [sic] are cause for concern.

Plait goes on to restate his argument and provide a roundup of commentaries. It’s well worth reading for the roundup alone.  (One picayune comment from me, I wish Plait would notice that the head of Canada’s National Research Council’s name is spelled this way, John McDougall.)

Happily, Nassif Ghoussoub has also chimed in with a May 22, 2013 posting (on his Piece of Mind blog) regarding the online discussion (Note: Links have been removed),

The Canadian twitter world has been split in the last couple of days. … But then, you have the story of the Tories’ problem with science, be it defunding, muzzling, disbelieving, doubting, preventing, delegitimizing etc. The latter must have restarted with the incredible announcement about the National Research Council (NRC), presented as “Canada sells out science” in Slate, and as “Failure doesn’t come cheap” in Maclean’s. What went unnoticed was the fact that the restructuring turned out to be totally orthogonal to the recommendations of the Jenkins report about the NRC. Then came the latest Science, Technology and Innovation Council (STIC) report, which showed that Canada’s expenditure on research and development has fallen from 16th out of 41 comparable countries in the year Stephen Harper became prime minister, to 23rd in 2011. Paul Wells seems to be racking up hits on his Maclean’s article,  “Stephen Harper and the knowledge economy: perfect strangers.”  But the story of the last 48 hours has been John Dupuis’s chronology of what he calls, “The Canadian war on science” and much more.

Yes, it’s another roundup but it’s complementary (albeit with one or two repetitions) since Plait does not seem all that familiar with the Canadian scene (I find it’s always valuable to have an outside perspective) and Nassif is a longtime insider.

John Dupuis’ May 20, 2013 posting (on his Confessions of a Science Librarian blog), mentioned by both Nassif and Plait, provides an extraordinary listing of stories ranging from 2006 through to 2013 whose headlines alone paint a very bleak picture of the practice of science in Canada,

As is occasionally my habit, I have pulled together a chronology of sorts. It is a chronology of all the various cuts, insults, muzzlings and cancellations that I’ve been able to dig up. Each of them represents a single shot in the Canadian Conservative war on science. It should be noted that not every item in this chronology, if taken in isolation, is necessarily the end of the world. It’s the accumulated evidence that is so damning.

As I’ve noted before, I am no friend of Stephen Harper and his Conservative government and many of their actions have been reprehensible and, at times, seem childishly spiteful but they do occasionally get something right. There was a serious infrastructure problem in Canada. Buildings dedicated to the pursuit of science were sadly aged and no longer appropriate for the use to which they were being put. Harper and his government have poured money into rebuilding infrastructure and for that they should be acknowledged.

As for what the Conservatives are attempting with this shift in direction for the National Research Council (NRC), which has been ongoing for at least two years as I noted in my May 13, 2013 posting, I believe they are attempting to rebalance the Canadian research enterprise.  It’s generally agreed that Canada historically has very poor levels of industrial research and development (R&D) and high levels of industrial R&D are considered, internationally, as key to a successful economy. (Richard Jones, Pro-Vice Chancellor for Research and Innovation at the University of Sheffield, UK, discusses how a falling percentage of industrial R&D, taking place over decades,  is affecting the UK economy in a May 10, 2013 commentary on the University of  Sheffield SPERI [Sheffield Political Economy Research Institute] website.)

This NRC redirection when taken in conjunction with the recent StartUp visa programme (my May 20, 2013 posting discusses Minister of Immigration Jason Kenney’s recent recruitment tour in San Francisco [Silicon Valley]),  is designed to take Canada and Canadians into uncharted territory—the much desired place where we develop a viable industrial R&D sector and an innovative economy in action.

In having reviewed at least some of the commentary, there are a couple of questions left unasked about this international obsession with industrial R&D,

  • is a country’s economic health truly tied to industrial R&D or is this ‘received’ wisdom?
  • if industrial R&D is the key to economic health, what would be the best balance between it and the practice of basic science?

As for the Canadian situation, what might be some of the unintended consequences? It occurs to me that if scientists are rewarded for turning their research into commercially viable products they might be inclined to constrain access to materials. Understandable if the enterprise is purely private but the NRC redirection is aimed at bringing together academics and private enterprise in a scheme that seems a weird amalgam of both.

For example, cellulose nanocrystals (CNC) are not easily accessed if you’re a run-of-the-mill entrepreneur. I’ve had more than one back-channel request about how to purchase the material and it would seem that access is tightly controlled by the academics and publicly funded enterprise, in this case, a private business, who produce the material. (I’m speaking of the FPInnovations and Domtar comingling in CelluForce, a CNC production facility and much more. It would make a fascinating case study on how public monies are used to help finance private enterprises and their R&D efforts; the relationship between nongovernmental agencies (FPInnovations, which I believe was an NRC spinoff), various federal public funding agencies, and Domtar, a private enterprise; and the power dynamics between all the players including the lowly entrepreneur.

Sanofi BioGENEius Challenge Canada awards national prizes to winners

I last wrote about Sanofi BioGENEius Challenge Canada and its awards in my Feb. 20, 2013 posting on the occasion of the organization’s 20th anniversary in Canada. Today, Apr. 9, 2013, there’s an annoucement that the 2013 Sanofi BioGENEius Challenge Canada prizes were awarded today in Ottawa,

Cutting edge research into an experimental therapy that deploys nano-particles of gold to kill cancer cells earned an Alberta high school student, 16, top national honours today in the 2013 “Sanofi BioGENEius Challenge Canada” (SBCC).

India-born Arjun Nair, 16, a Grade 11 student at Webber Academy, Calgary, was awarded the top prize of $5,000 by a panel of eminent Canadian scientists assembled at the Ottawa headquarters of the National Research Council of Canada (NRC).

His research project, mentored at the University of Calgary, advances an experimental cancer “photothermal therapy” which involves injecting a patient with gold nanoparticles.  The particles accumulate in tumours, forming so-called “nano-bullets” that can be heated to kill cancer cells.

Arjun showed how an antibiotic may overcome defences cancer deploys against the therapy and make the promising treatment more effective.  Arjun’s research, which a panel of expert judges led by Dr. Luis Barreto called “world class Masters or PhD-level quality,” also won a special $1,000 prize awarded to the project with the greatest commercial potential.

There were other winners too,

Eleven brilliant students from nine Canadian regions, all just 16 to 18 years old, took part in the national finals.  They had placed 1st at earlier regional SBCC competitions, conducted between March 21 and April 4.

Celebrating 20 years of inspiring young scientists in Canada, this year’s SBCC involved a total of 208 high school and CEGEP students collaborating on 123 projects, all mentored in professional labs over several months and submitted via the regional competitions.  Since its beginning in Toronto in 1994, some 4,500 young Canadians have competed in the SBCC, an event that has inspired sister BioGENEius competitions in the USA and Australia.

2nd place, $4,000 — British Columbia: Selin Jessa, 17, Grade 12, Dr. Charles Best Secondary School, Coquitlam, won the $4,000 2nd place prize with research into how genetic mutations naturally help some HIV patients escape symptoms.

Arjun and Selin will compete for Canada April 22-23 at the International BioGENEius Challenge, conducted at the annual BIO conference, this year in Chicago.

3rd place, $3,000 — Quebec: Eunice Linh You, 17, Grade 11, Laval Liberty High School, Laval, who investigated how to tailor stem cell treatments for Parkinson’s disease

4th place, $2,000 — Greater Toronto: Lauren Chan, 17, Grade 12, University of Toronto Schools, who described a potential new therapy to reduce the severity of diabetes

5th place, $1,000 — Manitoba: Daniel Huang, 16, Grade 11, St. John’s Ravenscourt School, Winnipeg, who discovered a potential new tactic to fight the world’s deadliest brain cancer

Honorable mention, $500:

Newfoundland, Jared Trask, 18, Kaitlyn Stockley, 17, Grade 12, Holy Spirit High School, Conception Bay West, who, for the second consecutive year, won the Atlantic region competition by proving novel ideas for creating biofuels;

Eastern Ontario, Adamo Young, 16, Grade 11, Lisgar Collegiate Institute, Ottawa, who found that altering its nitrogen supply appears to tame a toxic fungus that ruins billions worth of grain worldwide;

Southwestern Ontario, Melanie Grondin, 17, Shawn Liu, 18, Vincent Massey Secondary School, Windsor, who found a marker in medicine’s quest for the holy grail of leukaemia treatments: limitless supplies of healthy stem cells.

Saskatchewan, Saruul Uuganbayar, 17, Grade 12, Centennial Collegiate, Saskatoon, who invented a molecular therapy for mutated cells with the dream of curing cancer.

Given my interest in nanotechnology, Nair’s project is particularly intriguing,

Aiming to create an effective cancer-killing nano-bullet made of gold

Helping science develop a nano-bullet to defeat cancer is the futuristic vision of Arjun Nair, a 16-year-old Calgary high school student.

These “bullets” are formed by gold nanoparticles that, when injected into a patient, accumulate in cancerous tumours. Using light, the gold nanoparticles rapidly heat up in the tumours, killing only the cancer cells. Known as photothermal therapy (PTT), the idea has shown promise but isn’t that effective because cancer cells fight back, producing heat-shock proteins to protect themselves.

Arjun looked into the use of an antibiotic (17-AAG) to defeat cancer’s defence.

Nanoparticles are less than millionth of the size of grain of sand, making them pretty difficult to make and work with, says Arjun. He spent the last two years working on his idea, including the past year between Simon Trudel’s and David Cramb’s Nanoscience Labs at the University of Calgary [see my interview with Dr. Cramb in my Mar. 8, 2010 posting and he is mentioned here in other postings should you care to search his name].

It’s rare for a high-tech lab to allow a high school student to work with its expensive equipment but Dr. Cramb, Dr. Simon Trudel and Lab Manager, Amy Tekrony provided access and all important mentorship, he says.

“Proof-of-concepts were developed and tested in order to demonstrate the viability of PTT,” says Arjun.  “Moreover, after analyzing the literature a mathematical model was developed to evaluate a theoretical synergetic treatment.”

“I’ve entered science competitions since Grade 5. I really enjoy taking my ideas and making them happen in real life,” says Arjun, who also enjoys debating, sports and volunteer work.

He dreams of doing science in university, perhaps pursuing a career in medical research. One of the best parts of the competition was the great friendships Arjun has made. “I’m part of community of students who love sharing ideas and talking science.”

They make quite a big deal of these awards,

Following the presentation ceremony at the NRC, the students were received by Governor-General David Johnston at Rideau Hall, a distinguished educator prior to his vice-regal appointment.

Dr. Kellie Leitch, Parliamentary Secretary to the Minister of Human Resources Skills Development, keynote speaker at the awards ceremony, said: “It is so important that we have all of our skills and talent at work in Canada and the SBCC offers students a fantastic opportunity to experience science and technology in new ways, hopefully encouraging them toward exciting careers. I want to congratulate the winners, and all of the participants, of this year’s competition and I thank the organizers for all of the work that they have done in supporting young people in science.”

Sanofi Canada President and CEO Jon Fairest, who presented the top national prize, said: “The Sanofi Group is very proud to be founding sponsors of the Sanofi BioGENEIus Challenge Canada (SBCC) and participate in this milestone competition. With its 20-year heritage, the SBCC shows how critical partnerships are to advance science and talent in Canada. From the mentoring provided by dedicated academics, to the support of government and the private sector, the SBCC truly stands out as a model for collaboration. The SBCC and the incredible students who participate inspire us to all think differently about our future and ensure we have a strong foundation in place to create a sustainable healthcare system in Canada.”

The SBCC gives young scientists access to professional labs and academic mentors, encouraging the pursuit of future studies and careers in the country’s fast-growing biotechnology sector.

Each of the students worked for months conducting research and collaborating with university mentors.

It’s not just public officials and Sanofi officials who are paying attention,

The nine final national projects were presented at NRC headquarters Monday April 8 to a panel of eminent Canadian scientists:

  • Dr. Luis Barreto, MD, Chief Judge, Bioscience Education Canada
  • Dr. Roman Szumski, Vice President Research, National Research Council Canada
  • Dr. Paul Lasko, Scientific Director, Institute of Genetics, Canadian Institutes of Health Research
  • Dr. Robert Tsushima, Associate Dean of Research, Faculty of Science, York University
  • Dr. Pierre Meulien, President, Genome Canada
  • Dr. Ron Pearlman, Associate Scientific Director, Gairdner Foundation
  • Dr. Jerome Konecsni, President, Innovation Saskatchewan

On the panel as well: Ms. Janelle Tam, 18, of Waterloo, Ontario, SBCC’s national first-place winner in 2012.

National Awards Presenters, National Research Council Canada, April 9, 2013:

Commercialization Award – Dr. Ron Pearlman, Associate Scientific Director, Gairdner Foundation

5th Place – Dr. Alison Symington, VP, Corporate Development, Ontario Genomics Institute / Genome Canada

4th Place — Dr. Spriros Pagiatakis, Associate Dean, Research & Partnerships, York University

3rd Place – Dr. Alain Beaudet, President, Canadian Institutes of Health Research

2nd Place – John McDougall, President, National Research Council of Canada

1st Place – Jon Fairest, President and CEO, Sanofi Canada

The Canadian competition does not stand alone,

The Sanofi BioGENEius Challenge Canada (SBCC) is a national, biotechnology research competition that encourages high school and CEGEP students to pursue future studies and careers in the exciting field of biotechnology. The initiative is sponsored by Sanofi Pasteur Limited, Sanofi Canada, the National Research Council Canada/ Conseil national de recherches Canada (NRC-CNRC), Canadian Institutes of Health Research/Instituts de recherche en santé du Canada (CIHR-IRSC), York University, Genome Canada and the Government of Canada’s Youth Awareness Program. Canada’s respected Sanofi BioGENEius Challenge Canada has inspired counterpart competitions in the USA and Australia.

For more information, please see Wikipedia (http://bit.ly/11MtXX9), visit sanofibiogeneiuschallenge.ca, and follow us on Facebook or Twitter @BioscienceEdCan

About Sanofi

Sanofi, a global and diversified healthcare leader, discovers, develops and distributes therapeutic solutions focused on patients’ needs. Sanofi has core strengths in the field of healthcare with seven growth platforms: diabetes solutions, human vaccines, innovative drugs, rare diseases, consumer healthcare, emerging markets and animal health. Sanofi is listed in Paris (EURONEXT: SAN) and in New York (NYSE: SNY).

Sanofi Pasteur, the vaccines division of Sanofi, provides more than 1 billion doses of vaccine each year, making it possible to immunize more than 500 million people across the globe. A world leader in the vaccine industry, Sanofi Pasteur offers the broadest range of vaccines protecting against 20 infectious diseases. The company’s heritage, to create vaccines that protect life, dates back more than a century. Sanofi Pasteur is the largest company entirely dedicated to vaccines. Every day, the company invests more than EUR 1 million in research and development. For more information, please visit: www.sanofipasteur.com  or www.sanofipasteur.us

Good luck to Arjun Nair and Selin Jessa when they compete for Canada April 22-23, 2013 at the International BioGENEius Challenge, conducted at the annual BIO conference, in Chicago, Illinois.

Canadian government withdraws from UN treaty, recycles old news, and undergoes a ‘muzzled’ science probe

Every once in a while, there’s a slew of announcements that seem to reveal a pattern of sorts with regard to political doings. In this case, I’m looking at three announcements about recent moves by the  Canadian Conservative government and which seem, to me, curiously interlinked.

First there was the announcement (CBC Mar. 27, 2013 news item) that Canada is withdrawing from the United Nations Convention to Combat Desertification, in those Countries Experiencing Severe Drought and/or Desertification (to become the only country in the world not party to it) and its annual commitment of $350,000. The CBC Mar. 28, 2013 news item provided more detail,

Prime Minister Stephen Harper said less than one-fifth of the $350,000 Canada contributes to the UN Convention to Combat Desertification goes to programming.

“This particular organization spends less than 20 per cent — 18 per cent — of the funds that we send it are actually spent on programming, the rest goes to various bureaucratic measures.That’s not an effective way to spend taxpayers’ money,” Harper told MPs during question period Thursday.

The Canadian Press reported Wednesday [Mar. 27, 2013?] the UN secretariat that administers the program was unaware of Canada’s decision until contacted by its reporter.

A spokesperson for the Canadian International Development Agency (CIDA) [emphasis mine] told CBC News the head of the secretariat was informed of the decision on Monday [Mar. 25, 2013?], and written confirmation was delivered to the UN Secretary General’s office in New York the same day.

But a UN official in Bonn told CBC News that Canada notified the UN about its withdrawal “informally last week by telephone” and “this is not considered proper notification… or protocol.”

The proper protocol is to formally write to the UN Secretary General Ban Ki-moon in New York and formally provide a notice that Canada is withdrawing from the treaty.

Paul Heinbecker, a former Canadian ambassador to the UN and chief foreign policy advisor to Prime Minister Brian Mulroney, wrote an Apr. 1, 2013 essay for the Globe and Mail about some recent history between Canada and the UN, this latest withdrawal, and its implications (Note: A link has been removed),

Following the Harper government’s failure in 2010 to win a Canadian seat on the UN Security Council, its disregard of the UN gave way to disdain. Ottawa’s rare appearances at the UN have tended to stress what it regards as Canada’s uniquely “principled” foreign policy, bringing to mind U.S. Secretary of State Dean Acheson’s characterization of Canadian foreign policy in the fifties as “the stern voice of the daughter of God,” and cementing Canada’s long-standing reputation as global mother-in-law.

Because of the links between drought, land degradation, desertification and climate change, withdrawal from the Desertification Convention comes with potentially significant costs. …

Heinbecker develops this line of thought by noting that the withdrawal makes it seem that Canada does not care about climate change (let’s not forget the withdrawal from Kyoto protocol, the UN Convention on Climate Change, a UN initiative from which the Canadian Conservative government withdrew in 2011) and noting this,

Given that the government of Alberta as well as ministers and departments in Ottawa have been going to considerable effort and expense to argue in the U.S. that Canada does care, it is self-harming to hand America’s Keystone opponents a stick to beat the pipeline with.

Also, because the locus of most of the devastation arising from desertification is in Africa, walking away from a treaty whose creation was led by the Mulroney and Chrétien governments reinforces the impression that Ottawa no longer cares about Africa. It is an impression that this government also went to some trouble and expense to try to reverse. Further, because the worst destruction from desertification is happening in the Sahara region, abandoning the treaty sends a mixed signal about the security issues at stake in Mali and the Sahel, and about Canadian mining interests there as well.

Thankfully, Prime Minister Stephen Harper and the conservative government are ensuring that our annual $350,000 contribution, after 2014, will no be longer wasted on what they termed a ‘talkfest’. To combat this negative impression being made on the rest of the world, there’s been an announcement (Azonano Apr. 6, 2013 news item) recycling some old government news about monies for the second phase of the Canadian International Food Security Research Fund (CIFSRF),

 “The Harper Government is committed to increasing food security to those most in need as part of Canada’s effective international assistance through investing in scientific research and innovation,” said Parliamentary Secretary Brown [Lois Brown]. “Canadian universities, businesses, and NGOs [nongovernmental organizations]  have expertise that they can share with the world. Together, we can use innovation to put an end to global hunger.”

The Canadian International Food Security Research Fund is a joint initiative between the Canadian International Development Agency (CIDA) and the International Development Research Centre (IDRC). [emphases mine] It supports innovative research partnerships between Canadian and developing-country researchers to respond to immediate food needs while increasing access to quality, nutritious food over the long term. Phase 2 will focus on connecting promising research results to public and private sector organizations that can get them to end users on a larger scale.

“IDRC and CIDA have a long history of supporting Canada’s leadership in agricultural research and innovation for development,” said Jean Lebel, Acting President of IDRC. “CIFSRF demonstrates our mutual commitment to achieving sustainable results that put Canada’s considerable experience in agricultural and nutrition science to work globally to ensure farmers have access to new technologies and specialized expertise to keep pace with the growing demand for food.  Through CIFSRF, we are also expanding Canada’s scientific base and contributing to the country’s science and technology strategy.”

The Canadian International Food Security Research Fund, first launched in 2009, currently supports 19 projects, bringing together some of the best researchers from 11 Canadian and 26 developing-country organizations, as well as partners from scientific, private sector and civil society organizations, to develop innovative solutions to improve global food security.

The part where it got really interesting for me was the April 4, 2013 article by Rick Westhead for  star.com about the funds some of which are bound for the University of Guelph as per its Apr. 5, 2013 news release about the matter. Not to be too confusing but the following excerpt is from the April 4, 2013 Westhead article,

Manish Raizada, a University of Guelph agriculture professor, is changing lives in India, Nepal and Sri Lanka by showing farmers how to boost crop yields with weeding and planting techniques and by adding new crops.

Other Canadian researchers are bolstering Ethiopia’s agriculture sector, introducing farmers to rhizobia, a bacteria that naturally adds nitrogen to the soil and helped Saskatchewan, nearly a century ago, become a leading soybean exporter.

Then there are Canadian-led efforts in India that use nanotechnology to improve the lifespan of mangoes, efforts that should help improve livelihoods in a country where half of children under five are malnourished. [In fact, this an India, Sri Lanka, and Canada effort which I mentioned in a June 21, 2012 posting and again in a Nov. 1, 2012 posting.]

For instance, McGurk [Dr. Stephen McGurk, IDRC director of agriculture programmes] said one government-funded project is helping lengthen the shelf life of mangoes by as much as two weeks by introducing a nanoparticle-based coating that prevents them from ripening as fast.

“That way they’re attractive when they get to market, not looking like pulp,” McGurk said. “That science, once it has been tried in India can be equally applied to fruits here like plums or raspberries.”

Interestingly, McGurk gives this quote to Westhead,

“In no way would Canadian scientists in the agriculture sector say they are muzzled,” said Stephen McGurk, director of IDRC’s agriculture programs. [emphasis mine] “We’re engaged outside our borders and doing research now that’s valuable to Canadians but has to prove its salt somewhere else first.”

What makes McGurk an interesting spokesperson regarding ‘muzzles and Canadian scientists’ is that he  is an economist and a sinologist who prior to his latest appointment as IDRC director of agriculture programmes seems to have lived in Asia for the last 12 years and given this career description is likely from the US originally (from the Oct. 9, 2012 IDRC announcement of McGurk’s appointment),

Stephen McGurk is a Sinologist and economist who has spent more than two decades studying Asia’s rural development.Since 2006, he has been Director of IDRC’s Regional Office for South Asia and China in New Delhi (now the Asia Regional Office). From 2000 to 2006, he led IDRC’s office in Singapore.

Before joining IDRC, McGurk worked with the Ford Foundation in Beijing, where he was responsible for its economic security program in China. He has also taught at the University of California and worked with the World Bank on investments in China’s rural development. McGurk has a PhD from Stanford University’s [California] Food Research Institute.

I am curious as to how Dr. McGurk comes by his information about Canadian government agricultural scientists and their views on muzzles or lack thereof.

In looking at all of these bits of information, the desertification treaty withdrawal seems odd, almost as if it were designed to divert attention from something else the Conservative government is doing. Or, perhaps it’s an example of meanspirited shortsightedness something this government has been accused of before.

The recycled news item seems like it might not be as helpful as one would hope, although governments of all stripes are known to announce monies for projects that have been previously announced making it seem that a great deal more money is being dispersed than is the case. These announcements are always excellent for distraction but one would think the government would be eager to emphasize funding for projects in African countries rather than Asian countries given the conservatives’ current public relations problems in that region, as noted by Heinbecker.

As for McGurk’s quote about muzzles and agricultural scientists, while it does seem a bit ‘facey’ of him, he, at least, is not afraid to say something (although it’s not clear why he was asked about the muzzle since the news release was strictly about funding). For more about the ‘muzzles’,  there’s this excerpt from the Apr. 2, 2013 Canadian Press news item found at macleans.ca on campus,

Federal policies that restrict what government scientists can say publicly about their work are about to be put under the microscope.

Federal Information Commissioner Suzanne Legault has agreed to investigate how government communications rules on taxpayer-funded science impact public access to information.

Legault is responding to a detailed complaint lodged by the Environmental Law Centre at the University of Victoria and the ethics advocacy group Democracy Watch.

Their lengthy report — “Muzzling Civil Servants: A Threat to Democracy?” — laid out repeated examples of taxpayer-funded science being suppressed or limited to pre-packaged media lines across six different government departments and agencies.

Chris Tollefson, the executive director of UVic’s law centre, said their research into suppressed science revealed both the wide scope of the practice and that it “represents a significant departure” in government practice over the last five to seven years.

…Gary Goodyear, the minister of state for science and technology, was not available Monday to defend Conservative practices. His office provided an email stating government scientists “are readily available to share their research with the media and the public.”

“Last year, Environment Canada participated in more than 1,300 media interviews, Agriculture and Agri-Food Canada issued nearly 1,000 scientific publications, and Natural Resources Canada published nearly 500 studies,” said the statement.

It came the same day that the Globe and Mail reported that the National Research Council declined to make available its lead engineer for a front page story on research into truck safety. [emphases mine]

“Great spin — but missing the point,” Democracy Watch’s Duff Conacher said of the government response.

“It’s not the number of documents, it’s what percentage of documents are being released.”

Truck safety? That seems an odd topic for which to suppress or restrict any discussion with the lead engineer. But then, why withdraw from a treaty to save $350,000? As for the recycled announcement about funding for food and agriculture projects in Asia when you have substantive perception issues regarding  Africa and having someone who hasn’t lived in the country for 12 years defending your policies, the whole thing seems rather inept.

Pretty decent directory of Cdn. nanotech companies, organizations, and education programmes

The folks at the Nanowerk website have dug into their database of nanotechnology companies, education programmes, and more to create an overview of the Canadian nanotechnology scene, from the Jan. 29, 2013 news item (Note: A link has been removed),

Canada offers world-class R&D infrastructure, a highly skilled and educated workforce, a wide array of government funding programs in support of nanotechnologies, a growing number of companies involved in nanotechnologies, and government commitment to the responsible development and application of nanotechnologies.

In 2001, the National Institute for Nanotechnology (NINT) was established as Canada’s flagship nanotechnology institute; it is operated as a partnership between the National Research Council and the University of Alberta.

Currently, there are 90 companies in Canada involved in nanotechnology-related business activities.

In addition, there are 64 nanotechnology and nanoscience-related research and community organizations in Canada.

There are 15 academic nanotechnology degree programs in Canada.

The item proceeds to list a number of companies according to these classifications,

Nanomaterial Suppliers
Nanobiotechnology and Nanomedicine Companies
Nanotechnology Products, Applications & Instruments Companies
Nanotechnology Services & Intermediaries

Based on my information (and memory), this listing is in pretty good shape given that it’ s not managed, i.e., people submit information voluntarily and may or may not remember to update it. For example, the company now known as Vive Crop is listed as Vive Nano.  In the listing for ‘initiatives and networks in Canada with a nanotechnology focus’, the defunct NanoTech BC is listed but the currently active Nano Ontario is not.  Also, anyone who wants to locate a business or service in their province will have difficulty as the listings are alphabetical and the short description of the organization does not include location information.

All things considered, they’ve done a remarkably good job of gathering and presenting this information. Thank you to the folks at Nanowerk for this resource.

Speaking of resources, the item does mention Canada’s National Institute of Nanotechnology (NINT) which has undergone some big changes in the last few months. Their previous website  as part of the larger National Research Council (NRC) website has been archived and the new NINT website suggests a serious downsizing effort of some sort has occurred.  The ‘lean and mean’ NRC NINT website contrasts strongly with the more informative and alternative NINT website located on the larger University of Alberta website. As both NINTs boast the same executive director, Dr. Marie D’Iorio, it would seem to be the same organization albeit with two different sites that are not linked to each other. Perhaps this is a new version of Canada’s two solitudes, this time starring the University of Alberta and the National Research Council of Canada. On second thought, the situation may more closely echo that old song title, Torn between two lovers.

Canada’s National Research Council wins in national science reshuffle while fumbling with employee relations

Hats off to Nassif Ghoussoub at his Piece of Mind blog for the latest information on the institutional science scene and the government’s response to last year’s (2011) Jenkins report (Review of Federal Support to R&D, aka, Innovation Canada: A Call to Action).

Nassif’s Sept. 11, 2012 posting highlights an unusually high number of recent announcements about federal funding for R&D (research and development). From the posting,

As always, politicians were crowding the Monday morning issue of the Hill Times newspaper. But today’s was different from any other day. No less than four politicians were either making “major” statements about federal plans for funding R&D, or taking the time to write about it. One wonders why we are witnessing this unusual surge of science-related interest in Ottawa’s political discourse.

Nassif makes some very provocative comments (Note: I have removed some links),

Gary Goodyear, the minister responsible for science and technology, seemed to be announcing that the National Research Council (NRC) has already won the battle of who is going to lead the federal effort of coordinating research partnerships with the industrial sector. “The NRC will be ‘transformed’ to respond to private sector demand”. How did they convince the PMO? Where are the universities? The Tri-Council [funding agencies: Social Sciences and Humanities Research Council {SSHRC}; Natural Sciences and Engineering Research Council {NSERC}; and Canadian Institutes of Health Research {CIHR}]? And so much for the recommendations of the Jenkins panel, which in spite of the carefully chosen words, go quite far in the direction of suggesting the dismantlement of this venerable institution. Yet, the NRC is emerging as the ultimate winner in this sweepstakes of federal funding for industrial R&D. We can now kiss goodbye the “Industrial Research and Innovation Council” (IRIC), as recommended by the Jenkins panel and as vigorously defended by UT [University of Toronto] President, David Naylor.

I didn’t view the panel’s recommendations regarding the NRC in quite the same way in my Oct. 21, 2011 posting (which features my review of the Jenkins report). I start by commenting on the recommendation for ‘a single innovation voice’ in government and then mention the NRC,

This one seems like one of those recommendations that are impossible to implement,

  • ·Establish a clear federal voice for innovation and work with the provinces to improve coordination.
  • Currently, there is a lack of government-wide clarity when it comes to innovation. Responsibility is spread across a number of cabinet portfolios. The Prime Minister should assign responsibility for innovation to a single minister, supported by a whole-of-government Innovation Advisory Committee, evolved from the current Science Technology and Innovation Council (STIC), composed of external stakeholders, who would then work with the provincial and territorial governments to initiate a collaborative dialogue to improve coordination and impact.

I base my comment about the last recommendation on my experience with the gnashing of teeth I’ve observed when someone is going to lose an area of responsibility that is associated with power and other good things. Who do you imagine will want to give up innovation and what will they want in return?  Another question which springs to mind is this one: How are they going to develop a single voice for discussion of innovation across several federal bureaucracies with thousands of people and miles between them when even a small office of 20 people experiences difficulty doing this (again, this is based on my personal experience).

As for the suggested changes to the NRC? Well, those should provide some fodder for lively discussion. I’m sure the other items will provide conversational fodder too but it seems to me that the two I’ve highlighted in these comments are likely to be the among the most contentious.

For anyone who doesn’t recall the NRC recommendation offhand (from my Oct. 21, 2011 posting),

However, there are some major recommendations being made, notably this one about the National Research Council (from the Review of Federal Support to R&D home page),

  • Transform the institutes of the National Research Council [NRC] into a series of large-scale, collaborative centres involving business, universities and the provinces.
  • The NRC was created during World War I to kick-start Canada’s research capacity. It has a long and storied history of discoveries and innovation, including numerous commercial spin-offs. While the NRC continues to do good work, research and commercialization activity in Canada has grown immensely.  In this new context, the NRC can play a unique role, linking its large-scale, long-term research activity with the academic and business communities. The panel recommends evolving NRC institutes, consistent with the current strategic direction, into not-for-profit centres run with stakeholders, and incorporating its public policy research into other departments.

My current interpretation (based on the information in Nassif’s posting) of  the status of the NRC recommendation is that the government has conflated a couple of recommendations and instead of creating an Industrial Research and Innovation Council (IRIC; continued after), here’s the IRIC recommendation (from my Oct. 21,2011 posting),

The panel also suggests cutting down on the number of funding agencies and creating a portal or ‘concierge’ to help businesses find the right funding solution for their needs,

  • The creation of an Industrial Research and Innovation Council (IRIC) to deliver the federal government’s business innovation programs.
    • There are currently more than 60 programs across 17 different government departments. The creation of an arm’s-length funding and delivery agency – the Industrial Research and Innovation Council – would begin to streamline the process as the development of a common application portal and service to help businesses find the right programs for their needs (a “concierge”).

Back to where I was going, instead of creating an IRIC the federal government is shifting at least part of that proposed mandate over to the NRC. As for establishing “a clear federal voice,” I suspect that too is becoming part of the NRC’s mandate.

I find it interesting to note that the NRC’s president (John McDougall) is from Alberta. Any guesses as to which province is home to the riding Canada’s Prime Minister represents as a member of Parliament?

This looks like  some very astute political manuevering on McDougall’s part. Oddly, he doesn’t seem to be as good at understanding employee relations. Mia Rabson’s July 5, 2012 article for the Winnipeg Free Press highlights a remarkably block-headed attempt at recognition,

Have a doughnut on your way out the door. That is the message several dozen employees of the National Research Council took away June 29 as the president of the agency issued gift cards for a coffee and a doughnut to all employees, including 65 who are being laid off this month.

“Thank you for the contribution you have made in helping NRC successfully work through our massive transformation,” read the letter from NRC president John McDougall. “To celebrate our success in gaining government support, here is a token of appreciation: have a coffee and a doughnut on me.”

A $3 gift card to Tim Hortons accompanied each letter to more than 4,000 NRC employees. It cost taxpayers more than $12,000.

It appears the ineptitude extends from the president’s office to the media relations office,

Charles Drouin, chief media relations officer for the NRC, said the letters and gift cards were a way to say thank you to employees for their work during a difficult year at the agency. He said not all employees were scheduled to leave on June 29.

“It just coincided. We wanted to try and include everyone. The president thought the note would be a good way to thank our employees.”

He added not all employees reacted badly to the gift. The president received one official complaint, said Drouin. [emphasis mine]

In the public relations business it’s generally believed that  one letter/official complaint = 100. Just because most people won’t write a letter doesn’t mean they didn’t ‘react badly’. One would expect the chief media relations officer to know that, especially since the rest of us do.

I recommend reading Nassif’s post for more about this science shuffle’s  impact on the Tri-Council funding agencies and Mia Rabson’s article for more about the NRC’s cost-cutting efforts and future plans.

Social Sciences and Humanities Research Council {SSHRC}; Natural Sciences and Engineering Research Council {NSERC}; and Canadian Institutes of Health Research {CIHR}

Changing of the guard at Canada’s National Institute of Nanotechnology

The executive director (Nils Petersen) has passed on (to the University of Alberta’s science faculty), l9ng live the executive director (Marie D’Iorio) of Canada’s National Institute of Nanotechnology (NINT), long may she reign. (I think Queen Elizabeth II’s Diamond Jubilee may be getting to me.) From the May 31, 2012 news release on Market Wire,

An expert in nano-electronics will lead Canada’s National Institute for Nanotechnology (NINT) into its second decade. The NINT governing council has named Dr. Marie D’Iorio as its new Executive Director. Trained as a physicist, Dr. D’Iorio’s expertise is in nano-electronics. She had been acting as NINT’s interim Director General since last year.

NINT is one of the National Research Council Institutes,

During her time as acting Director General of NINT, Dr. D’Iorio led the strategic planning process for NINT’s second decade. The resulting plan aims to increase industrial collaboration and re-organize the Institute’s research and development activities into four application areas, including energy generation storage and hybrid nano-scale electronics.

“Nanotechnology can help Canadian companies be more competitive and NINT is key to them finding the right applications for their sector,” said John R McDougall, President of the National Research Council of Canada. “Marie D’Iorio’s mission is to expand NINT’s engagement with Canadian industry and help them benefit from the potential of small tech.”

McDougall’s comments come on the heels of the recommendations by the panel reviewing  Canada’s R&D (research and development) funding (mentioned in my May 29, 2012 posting),

Recommendation 4: Transform the institutes of the National Research Council (NRC) into a constellation of large-scale, sectoral collaboration R&D centres involving business, the university sector and the provinces while transferring public policy-related research activity to the appropriate federal agencies. (p. E12 print version, p. 26 PDF, Innovation Canada: A Call to Action)

I wonder if the panel was looking at the NINT as a model for the National Research Council’s other institutes (from the May 31, 2012 news release),

The National Institute for Nanotechnology is Canada’s leading research and technology development organization working at the nano-scale. Founded in 2001, it is a joint initiative of the National Research Council of Canada, the University of Alberta, the Government of Alberta and the Government of Canada. Its mission is to transform nanoscience ideas into novel, sustainable nanotechnology solutions with socioeconomic benefits for Canada and Alberta.

Interestingly, the National Research Council’s (NRC) president, John McDougall, is from Alberta, as is Prime Minister Stephen Harper,  (from the NRC’s McDougall biography webpage),

Mr. John R. McDougall, a leader in Canadian science and technology policy and innovation, was appointed as NRC’s President in April 2010.

Born and raised in Edmonton, Alberta and honoured as one of the province’s 50 most influential citizens, Mr. McDougall’s career spans many sectors, with a broad and far reaching range of accomplishments and roles to his credit.

Until recently, Mr. McDougall served as President and Chief Executive Officer of the Alberta Research Council (ARC), a position he has held for the past 12 years.

You can also find this  May 31, 2012 announcement on Nanowerk but it’s not yet (as of June 1, 2012 11:30 am PST) in the NINT’s News Section.

Opening up Open Access: European Union, UK, Argentina, US, and Vancouver (Canada)

There is a furor growing internationally and it’s all about open access. It ranges from a petition in the US to a comprehensive ‘open access’ project from the European Union to a decision in the Argentinian Legislature to a speech from David Willetts, UK Minister of State for Universities and Science to an upcoming meeting in June 2012 being held in Vancouver (Canada).

As this goes forward, I’ll try to be clear as to which kind of open access I’m discussing,  open access publication (access to published research papers), open access data (access to research data), and/or both.

The European Commission has adopted a comprehensive approach to giving easy, open access to research funded through the European Union under the auspices of the current 7th Framework Programme and the upcoming Horizon 2020 (or what would have been called the 8th Framework Pr0gramme under the old system), according to the May 9, 2012 news item on Nanowerk,

To make it easier for EU-funded projects to make their findings public and more readily accessible, the Commission is funding, through FP7, the project ‘Open access infrastructure for research in Europe’ ( OpenAIRE). This ambitious project will provide a single access point to all the open access publications produced by FP7 projects during the course of the Seventh Framework Programme.

OpenAIRE is a repository network and is based on a technology developed in an earlier project called Driver. The Driver engine trawled through existing open access repositories of universities, research institutions and a growing number of open access publishers. It would index all these publications and provide a single point of entry for individuals, businesses or other scientists to search a comprehensive collection of open access resources. Today Driver boasts an impressive catalogue of almost six million taken from 327 open access repositories from across Europe and beyond.

OpenAIRE uses the same underlying technology to index FP7 publications and results. FP7 project participants are encouraged to publish their papers, reports and conference presentations to their institutional open access repositories. The OpenAIRE engine constantly trawls these repositories to identify and index any publications related to FP7-funded projects. Working closely with the European Commission’s own databases, OpenAIRE matches publications to their respective FP7 grants and projects providing a seamless link between these previously separate data sets.

OpenAIRE is also linked to CERN’s open access repository for ‘orphan’ publications. Any FP7 participants that do not have access to an own institutional repository can still submit open access publications by placing them in the CERN repository.

Here’s why I described this project as comprehensive, from the May 9, 2012 news item,

‘OpenAIRE is not just about developing new technologies,’ notes Ms Manola [Natalia Manola, the project’s manager], ‘because a significant part of the project focuses on promoting open access in the FP7 community. We are committed to promotional and policy-related activities, advocating open access publishing so projects can fully contribute to Europe’s knowledge infrastructure.’

The project is collecting usage statistics of the portal and the volume of open access publications. It will provide this information to the Commission and use this data to inform European policy in this domain.

OpenAIRE is working closely to integrate its information with the CORDA database, the master database of all EU-funded research projects. Soon it should be possible to click on a project in CORDIS (the EU’s portal for research funding), for example, and access all the open access papers published by that project. Project websites will also be able to provide links to the project’s peer reviewed publications and make dissemination of papers virtually effortless.

The project participants are also working with EU Members to develop a European-wide ‘open access helpdesk’ which will answer researchers’ questions about open access publishing and coordinate the open access initiatives currently taking place in different countries. The helpdesk will build up relationships and identify additional open access repositories to add to the OpenAIRE network.

Meanwhile, there’s been a discussion on the UK’s Guardian newspaper website about an ‘open access’ issue, money,  in a May 9, 2012 posting by John Bynner,

The present academic publishing system obstructs the free communication of research findings. By erecting paywalls, commercial publishers prevent scientists from downloading research papers unless they pay substantial fees. Libraries similarly pay huge amounts (up to £1m or more per annum) to give their readers access to online journals.

There is general agreement that free and open access to scientific knowledge is desirable. The way this might be achieved has come to the fore in recent debates about the future of scientific and scholarly journals.

Our concern lies with the major proposed alternative to the current system. Under this arrangement, authors are expected to pay when they submit papers for publication in online journals: the so called “article processing cost” (APC). The fee can amount to anything between £1,000 and £2,000 per article, depending on the reputation of the journal. Although the fees may sometimes be waived, eligibility for exemption is decided by the publisher and such concessions have no permanent status and can always be withdrawn or modified.

A major problem with the APC model is that it effectively shifts the costs of academic publishing from the reader to the author and therefore discriminates against those without access to the funds needed to meet these costs. [emphasis mine] Among those excluded are academics in, for example, the humanities and the social sciences whose research funding typically does not include publication charges, and independent researchers whose only means of paying the APC is from their own pockets. Academics in developing countries in particular face discrimination under APC because of their often very limited access to research funds.

There is another approach that could be implemented for a fraction of the cost of commercial publishers’ current journal subscriptions. “Access for all” (AFA) journals, which charge neither author nor reader, are committed to meeting publishing costs in other ways.

Bynner offers a practical solution, get the libraries to pay their subscription fees to an AFA journal, thereby funding ‘access for all’.

The open access discussion in the UK hasn’t stopped with a few posts in the Guardian, there’s also support from the government. David Willetts, in a May 2, 2012 speech to the UK Publishers Association Annual General Meeting had this to say, from the UK’s Dept. for Business Innovation and Skills website,

I realise this move to open access presents a challenge and opportunity for your industry, as you have historically received funding by charging for access to a publication. Nevertheless that funding model is surely going to have to change even beyond the positive transition to open access and hybrid journals that’s already underway. To try to preserve the old model is the wrong battle to fight. Look at how the music industry lost out by trying to criminalise a generation of young people for file sharing. [emphasis mine] It was companies outside the music business such as Spotify and Apple, with iTunes, that worked out a viable business model for access to music over the web. None of us want to see that fate overtake the publishing industry.

Wider access is the way forward. I understand the publishing industry is currently considering offering free public access to scholarly journals at all UK public libraries. This is a very useful way of extending access: it would be good for our libraries too, and I welcome it.

It would be deeply irresponsible to get rid of one business model and not put anything in its place. That is why I hosted a roundtable at BIS in March last year when all the key players discussed these issues. There was a genuine willingness to work together. As a result I commissioned Dame Janet Finch to chair an independent group of experts to investigate the issues and report back. We are grateful to the Publishers Association for playing a constructive role in her exercise, and we look forward to receiving her report in the next few weeks. No decisions will be taken until we have had the opportunity to consider it. But perhaps today I can share with you some provisional thoughts about where we are heading.

The crucial options are, as you know, called green and gold. Green means publishers are required to make research openly accessible within an agreed embargo period. This prompts a simple question: if an author’s manuscript is publicly available immediately, why should any library pay for a subscription to the version of record of any publisher’s journal? If you do not believe there is any added value in academic publishing you may view this with equanimity. But I believe that academic publishing does add value. So, in determining the embargo period, it’s necessary to strike a suitable balance between enabling revenue generation for publishers via subscriptions and providing public access to publicly funded information. In contrast, gold means that research funding includes the costs of immediate open publication, thereby allowing for full and immediate open access while still providing revenue to publishers.

In a May 22, 2012 posting at the Guardian website, Mike Taylor offers some astonishing figures (I had no idea academic publishing has been quite so lucrative) and notes that the funders have been a driving force in this ‘open access’ movement (Note: I have removed links from the excerpt),

The situation again, in short: governments and charities fund research; academics do the work, write and illustrate the papers, peer-review and edit each others’ manuscripts; then they sign copyright over to profiteering corporations who put it behind paywalls and sell research back to the public who funded it and the researchers who created it. In doing so, these corporations make grotesque profits of 32%-42% of revenue – far more than, say, Apple’s 24% or Penguin Books’ 10%. [emphasis mine]

… But what makes this story different from hundreds of other cases of commercial exploitation is that it seems to be headed for a happy ending. That’s taken some of us by surprise, because we thought the publishers held all the cards. Academics tend to be conservative, and often favour publishing their work in established paywalled journals rather than newer open access venues.

The missing factor in this equation is the funders. Governments and charitable trusts that pay academics to carry out research naturally want the results to have the greatest possible effect. That means publishing those results openly, free for anyone to use.

Taylor also goes on to mention the ongoing ‘open access’ petition in the US,

There is a feeling that the [US] administration fully understands the value of open access, and that a strong demonstration of public concern could be all it takes now to goad it into action before the November election. To that end a Whitehouse.gov petition has been set up urging Obama to “act now to implement open access policies for all federal agencies that fund scientific research”. Such policies would bring the US in line with the UK and Europe.

The people behind the US campaign have produced a video,

Anyone wondering about the reference to Elsevier may want to check out Thomas Lin’s Feb. 13, 2012 article for the New York Times,

More than 5,700 researchers have joined a boycott of Elsevier, a leading publisher of science journals, in a growing furor over open access to the fruits of scientific research.

You can find out more about the boycott and the White House petition at the Cost of Knowledge website.

Meanwhile, Canadians are being encouraged to sign the petition (by June 19, 2012), according to the folks over at ScienceOnline Vancouver in a description o f their June 12, 2012 event, Naked Science; Excuse: me your science is showing (a cheap, cheesy, and attention-getting  title—why didn’t I think of it first?),

Exposed. Transparent. Nude. All adjectives that should describe access to scientific journal articles, but currently, that’s not the case. The research paid by our Canadian taxpayer dollars is locked behind doors. The only way to access these articles is money, and lots of it!

Right now research articles costs more than a book! About $30. Only people with university affiliations have access and only journals their libraries subscribe to. Moms, dads, sisters, brothers, journalists, students, scientists, all pay for research, yet they can’t read the articles about their research without paying for it again. Now that doesn’t make sense.

….

There is also petition going around that states that research paid for by US taxpayer dollars should be available for free to US taxpayers (and others!) on the internet. Don’t worry if you are Canadian citizen, by signing this petition, Canadians would get access to the US research too and it would help convince the Canadian government to adopt similar rules. [emphasis mine]

Here’s where you can go to sign the petition. As for the notion that this will encourage the Canadian government to adopt an open access philosophy, I do not know. On the one hand, the government has opened up access to data, notably Statistics Canada data, mentioned by Frances Woolley in her March 22, 2012 posting about that and other open access data initiatives by the Canadian government on the Globe and Mail blog,

The federal government is taking steps to build the country’s data infrastructure. Last year saw the launch of the open data pilot project, data.gc.ca. Earlier this year the paywall in front of Statistics Canada’s enormous CANSIM database was taken down. The National Research Council, together with University of Guelph and Carleton University, has a new data registration service, DataCite, which allows Canadian researches to give their data permanent names in the form of digital object identifiers. In the long run, these projects should, as the press releases claim, “support innovation”, “add value-for-money for Canadians,” and promote “the reuse of existing data in commercial applications.”

That seems promising but there is a countervailing force. The Canadian government has also begun to charge subscription fees for journals that were formerly free. From the March 8, 2011 posting by Emily Chung on the CBC’s (Canadian Broadcasting Corporation) Quirks and Quarks blog,

The public has lost free online access to more than a dozen Canadian science journals as a result of the privatization of the National Research Council’s government-owned publishing arm.

Scientists, businesses, consultants, political aides and other people who want to read about new scientific discoveries in the 17 journals published by National Research Council Research Press now either have to pay $10 per article or get access through an institution that has an annual subscription.

It caused no great concern at the time,

Victoria Arbour, a University of Alberta graduate student, published her research in the Canadian Journal of Earth Sciences, one of the Canadian Science Publishing journals, both before and after it was privatized. She said it “definitely is too bad” that her new articles won’t be available to Canadians free online.

“It would have been really nice,” she said. But she said most journals aren’t open access, and the quality of the journal is a bigger concern than open access when choosing where to publish.

Then, there’s this from the new publisher, Canadian Science Publishing,

Cameron Macdonald, executive director of Canadian Science Publishing, said the impact of the change in access is “very little” on the average scientist across Canada because subscriptions have been purchased by many universities, federal science departments and scientific societies.

“I think the vast majority of researchers weren’t all that concerned,” he said. “So long as the journals continued with the same mission and mandate, they were fine with that.”

Macdonald said the journals were never strictly open access, as online access was free only inside Canadian borders and only since 2002.

So, journals that offered open access to research funded by Canadian taxpapers (to Canadians only) are now behind paywalls. Chung’s posting notes the problem already mentioned in the UK Guardian postings, money,

“It’s pretty prohibitively expensive to make things open access, I find,” she {Victoria Arbour] said.

Weir [Leslie Weir, chief librarian at the University of Ottawa] said more and more open-access journals need to impose author fees to stay afloat nowadays.

Meanwhile, the cost of electronic subscriptions to research journals has been ballooning as library budgets remain frozen, she said.

So far, no one has come up with a solution to the problem. [emphasis mine]

It seems they have designed a solution in the UK, as noted in John Bynner’s posting; perhaps we could try it out here.

Before I finish up, I should get to the situation in Argentina, from the May 27, 2012 posting on the Pasco Phronesis (David Bruggeman) blog (Note: I have removed a link in the following),

The lower house of the Argentinian legislature has approved a bill (en Español) that would require research results funded by the government be placed in institutional repositories once published.  There would be exceptions for studies involving confidential information and the law is not intended to undercut intellectual property or patent rights connected to research.  Additionally, primary research data must be published within 5 years of their collection.  This last point would, as far as I can tell, would be new ground for national open access policies, depending on how quickly the U.S. and U.K. may act on this issue.

Argentina steals a march on everyone by offering open access publication and open access data, within certain, reasonable constraints.

Getting back to David’s May 27, 2012 posting, he offers also some information on the European Union situation and some thoughts  on science policy in Egypt.

I have long been interested in open access publication as I feel it’s infuriating to be denied access to research that one has paid for in tax dollars. I have written on the topic before in my Beethoven inspires Open Research (Nov. 18, 2011 posting) and Princeton goes Open Access; arXiv is 10 years old (Sept. 30, 2011 posting) and elsewhere.

ETA May 28, 2012: I found this NRC Research Press website for the NRC journals and it states,

We are pleased to announce that Canadians can enjoy free access to over 100 000 back files of NRC Research Press journals, dating back to 1951. Access to material in these journals published after December 31, 2010, is available to Canadians through subscribing universities across Canada as well as the major federal science departments.

Concerned readers and authors whose institutes have not subscribed for the 2012 volume year can speak to their university librarians or can contact us to subscribe directly.

It’s good to see Canadians still have some access, although personally, I do prefer to read recent research.

ETA May 29, 2012: Yikes, I think this is one of the longest posts ever and I’m going to add this info. about libre redistribution and data mining as they relate to open access in this attempt to cover the topic as fully as possible in one posting.

First here’s an excerpt  from  Ross Mounce’s May 28, 2012 posting on the Palaeophylophenomics blog about ‘Libre redistribution’ (Note: I have removed a link),

I predict that the rights to electronically redistribute, and machine-read research will be vital for 21st century research – yet currently we academics often wittingly or otherwise relinquish these rights to publishers. This has got to stop. The world is networked, thus scholarly literature should move with the times and be openly networked too.

To better understand the notion of ‘libre redistribution’ you’ll want to read more of Mounce’s comments but you might also  want to check out Cameron Neylon’s comments in his March 6, 2012 posting on the Science in the Open blog,

Centralised control, failure to appreciate scale, and failure to understand the necessity of distribution and distributed systems. I have with me a device capable of holding the text of perhaps 100,000 papers It also has the processor power to mine that text. It is my phone. In 2-3 years our phones, hell our watches, will have the capacity to not only hold the world’s literature but also to mine it, in context for what I want right now. Is Bob Campbell ready for every researcher, indeed every interested person in the world, to come into his office and discuss an agreement for text mining? Because the mining I want to do and the mining that Peter Murray-Rust wants to do will be different, and what I will want to do tomorrow is different to what I want to do today. This kind of personalised mining is going to be the accepted norm of handling information online very soon and will be at the very centre of how we discover the information we need.

This moves the discussion past access (taxpayers not seeing the research they’ve funded, researchers who don’t have subscriptions, libraries not have subscriptions, etc.)  to what happens when you can get access freely. It opens up new ways of doing research by means of text mining and data mining redistribution of them both.

DRUPA and 3-D printing

The world’s biggest trade fair for the printing industry, DRUPA; International Trade Fair for prepress, premedia, printing, book binding, print finishing and paper converting,  is being held May 3 – 16th, 2012 in Düsseldorf, Germany. This year’s presentations include one about paper loudspeakers (from the May 2, 2012 news item on Nanowerk),

At drupa print media fair, … , the Institute for Print and Media Technology of Chemnitz University of Technology (pmTUC) presents new research results, which truly make you prick up your ears: Loudspeakers that have been printed with flexography on standard paper. The R&D group of Prof. Dr. Arved Hübler, head of pmTUC, is co-exhibitor of press manufacturer Windmöller & Hölscher KG (Lengerich) …

I’m always curious as to just how practical these things might be and, oddly, they don’t offer an audio file or video file demonstrating the loudspeaker’s effectiveness although there is this video about pmTUC’s participation in DRUPA 2012,

Here’s what they have to say about the paper loudspeakers (from the news item),

The printed paper loudspeaker is connected to an audio amplifier like a conventional loudspeaker. “Frequency response and hence sound quality are very good and the paper is surprisingly loud. Just the bass of the paper-based loudspeaker is a bit weak”, explains Dr. Georg Schmidt, senior researcher at pmTUC. The thin loudspeakers, which are printed in the laboratories of pmTUC, contain several layers of a conductive organic polymer and a piezoactive layer. According to project assistant Maxi Bellmann the loudspeakers are astonishingly robust and can be produced in a very cheap way as mass printing methods are used. The bottom side of the paper loudspeaker provides unused space on which coloured messages can be printed.

Prof. Hübler expects a broad range of new applications: The paper loudspeakers could, for instance, be integrated into common print products. As such, they offer an enormous potential for the advertising segment. “In addition, sound wallpapers and purely technical applications, e.g., distance sensors, are possible, because the papers are also active in the ultrasound range”, says Hübler and adds: “As printing allows for different formats and forms, there is the possibility to influence the generated sound waves.”

As I understand it, Hübler is predicting that the graphic arts/printing industry is going to change from adding ink to paper to something entirely different, printed electronics. There’s more about that in the May 2, 2012 news item.

This reminded me that in 2008, Xerox announced a major investment in Canada’s National Institute of Nanotechnology (NINT). Details were pretty fuzzy (from the Xerox June [?] 2008  press release),

In Canada’s first major public-private nanotechnology research partnership, the Xerox Research Centre of Canada (XRCC), NRC National Institute for Nanotechnology (NINT) and Government of Alberta will provide approximately $4.5 million for research and development of materials-based nanotechnology over the next three years.

The three partners will invest funds, human resources, and available infrastructures to create a research program and teams focused on developing commercially successful nanotechnology-based discoveries. Personnel from NINT and XRCC will collaborate on research projects at NINT in Edmonton, Alberta, and at XRCC in Mississauga, Ontario.

The funds will contribute to the hiring of eight to 10 scientists who will investigate materials-based nanotechnologies, including document- and display-related technologies. The research program, co-managed by XRCC and NINT, will allow access to Xerox’s experience in successfully commercializing technology to facilitate the market application of resulting inventions.

“This level of public and private sector partnership helps fuel the type of innovation that will keep Alberta, and Canada as a whole, strong and competitive in an increasingly global, knowledge-based economy,” said Doug Horner, minister for Advanced Education and Technology, Government of Alberta. “The investments from the Government of Alberta, Xerox and NINT will build a world-class nanotechnology research program that embraces the spirit of innovation, but also that of commercialization.”

XRCC was established in 1974 to develop the materials used by Xerox Corp. globally, and began nanotechnology-enabled research efforts several years ago. It has already developed successfully commercial materials, including ‘EA Toner’, a unique technology for making more cost-effective and environmentally efficient toner for printers. XRCC will now be able to expand its nanotechnology efforts.

While  a toner is mentioned, it’s not clear what inventions and materials they are trying to create either in the Xerox press release or Canada’s National Research Council (NINT is an NRC institute) June 8, 2018 news release. In any event, I cannot find any other announcements about this Xexox/NINT research project, which has now ended.

Gold in them thar fuel cells

There’s a lot of interest in fuel cells where I live due primarily to the existence of Ballard Power Systems, which was founded here in the province of British Columbia, Canada. Here’s what it says on the About Ballard page,

Ballard Power Systems, Inc. is a global leader in PEM (proton exchange membrane) fuel cell technology. We provide clean energy fuel cell products enabling optimized power systems for a range of applications. Ballard offers smarter solutions for a clean energy future.

We are actively putting fuel cells to work in high-value commercial uses every day. In fact, Ballard has designed and shipped close to 150 MW of hydrogen fuel cell technology to date.

In addition to Ballard, Canada’s National Research Council located its Institute for Fuel Cell Innovation in Vancouver, British Columbia (after much lobbying from the province).

Despite all the excitement over the years (especially in the beginning), the fuel cell industry in British Columbia has yet to become the revenue producer that was promised.

According to some observers, one of the keys issues has been the metals used as catalysts and once the situation is resolved, fuel cells will come into their own. Researchers at Brown University have developed a nanoparticle that outperforms other metallic catalysts. From the March 12, 2012 news item on Nanowerk,

Advances in fuel-cell technology have been stymied by the inadequacy of metals studied as catalysts. The drawback to platinum, other than cost, is that it absorbs carbon monoxide in reactions involving fuel cells powered by organic materials like formic acid. A more recently tested metal, palladium, breaks down over time.

Now chemists at Brown University have created a triple-headed metallic nanoparticle that they say outperforms and outlasts all others at the anode end in formic-acid fuel-cell reactions. In a paper published in the Journal of the American Chemical Society (“Structure-Induced Enhancement in Electrooxidation of Trimetallic FePtAu Nanoparticles”), the researchers report a 4-nanometer iron-platinum-gold nanoparticle (FePtAu), with a tetragonal crystal structure, generates higher current per unit of mass than any other nanoparticle catalyst tested. Moreover, the trimetallic nanoparticle at Brown performs nearly as well after 13 hours as it did at the start. By contrast, another nanoparticle assembly tested under identical conditions lost nearly 90 percent of its performance in just one-quarter of the time.

The March 12, 2012 news release from Brown University describes how gold improves performance,

Gold plays key roles in the reaction. First, it acts as a community organizer of sorts, leading the iron and platinum atoms into neat, uniform layers within the nanoparticle. The gold atoms then exit the stage, binding to the outer surface of the nanoparticle assembly. Gold is effective at ordering the iron and platinum atoms because the gold atoms create extra space within the nanoparticle sphere at the outset. When the gold atoms diffuse from the space upon heating, they create more room for the iron and platinum atoms to assemble themselves. Gold creates the crystallization chemists want in the nanoparticle assembly at lower temperature.

Gold atoms create orderly places for iron and platinum atoms, then retreat to the periphery of the fuel cell, where they scrub carbon monoxide from fuel reactions. The tighter organization and cleaner reactions extend the cell's performance life. Credit: Sun Lab/Brown University

The researchers note that other metals may be substituted for gold as the best combinations are tested for combination and durability. (You can find more technical details in either the news item on Nanowerk or the news release at Brown University.)

Dexter Johnson at his Nanoclast blog (on the Institute of Electrical and Electronics Engineers [IEEE] website) provides a contrasting opinion as to why fuel cells have not become popular in his March 9, 2012 posting,

One of the fundamental problems with fuel cells has been the cost of producing hydrogen. While hydrogen is, of course, the most abundant element, it attaches itself to other elements like nitrogen or fluorine, and perhaps most ubiquitously to oxygen to create the water molecule. The process used to separate hydrogen out into hydrogen gas for powering fuel cells now relies on electricity produced from fossil fuels, negating some of the potential environmental benefits. So in the last few years, a new line of research has emerged that uses nanomaterials to imitate photosynthesis and break water down into hydrogen and oxygen thereby creating a more cost-effective and environmentally-friendly method for producing hydrogen.

If you’re interested, Dexter goes on to describe some promising areas of research that mimic photosynthesis.

In that odd area where coincidences meet, the latest work that Dexter discusses is taking place in California, a major centre for the gold rush of the 1800s. As it turns out, British Columbia was also a major destination in the days of the gold rush.