Tag Archives: 7th Framework Programme

NanoValid invites you to a Sept. 2013 workshop on the Advanced Characterization of Nanomaterial

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I received (Aug. 5, 2013) an announcement, which I’m passing on here, about a workshop taking place in Spain this coming September (2013),

The EC-funded NanoValid Project (www.nanovalid.eu) invites you to register for the last remaining places at the “Advanced Characterization of Nanomaterials” workshop organised by the University of Zaragoza and the Institute of Nanoscience of Aragon (INA).

When: September 16th – 20th 2013

Where: University of Zaragoza, Institute of Nanoscience of Aragon

BACKGROUND:

The characterization of nanomaterials is a challenging topic that requires in-depth knowledge of physicochemical techniques and state-of-the-art devices. This workshop contributes to continuous training of analytical procedures at the nanoscale for enhancing current knowledge and developing novel materials and procedures in nanotechnology.

FEATURES AND BENEFITS:

•             Addresses both PhD students and Post-Doc researchers

•             Access to advanced techniques of nanotechnology

•             Fully qualified scientific and technical personnel

•             Open poster and oral communication sessions

FEE:

€ 525:    This includes workshop fees, a welcome reception, lunches, coffee-breaks & booklet.

Optional banquet in a traditional Aragonese cuisine venue (€50)

PROGRAMME:

The full programme includes theory sessions, practical demonstrations and training sessions, as well as oral and poster presentations (…).

REGISTER HERE:

http://www.nanovalid.eu/events/ws/registration.htm

FURTHER INFORMATION:

infogroup@unizar.es

M. Pilar Lobera, PhD (plobera@unizar.es); Francisco Balas, PhD (fbalas@unizar.es)

http://ina.unizar.es

Not having previously investigated the NanoValid project, I checked out the homepage,

The EU FP7 large-scale integrating project NanoValid (contract: 263147) has been launched on the 1st of November 2011, as one of the “flagship” nanosafety projects. The project consists of 24 European partners from 14 different countries and 6 partners from Brazil, Canada, India and the US and will run from 2011 to 2015, with a total budget of more than 13 mio EUR (EC contribution 9.6 mio EUR). [emphasis mine] Main objective of NanoValid is to develop a set of reliable reference methods and materials for the fabrication, physicochemical (pc) characterization, hazard identification and exposure assessment of engineered nanomaterials (EN), including methods for dispersion control and labelling of ENs. Based on newly established reference methods, current approaches and strategies for risk and life cycle assessment will be improved, modified and further developed, and their feasibility assessed by means of practical case studies.

In cooperation with other relevant projects, such as MARINA and QNano, and relevant standardization bodies, such as the OECD [Organization for Economic Cooperation and Development] WPMN [Working Party on Manufactured Nanomaterials], existing industrial or newly designed ENs will be subjected to a rigid and comprehensive inter-laboratory validation campaign that includes the currently most advanced methods and instruments for measuring and characterizing of ENs, to generate accurate and reproducible material data and standardized method protocols, also for tracing and quantifying nanoparticles (NP) in complex matrices. The stability and behaviour of selected NP will be monitored and tested in a variety of relevant environmental samples and test media to derive optimum and reproducible fabrication, measurement and test conditions.

The validated characterization methods will be used to design well-defined certified reference materials, which in turn will help to validate, adapt, modify and further develop current biological approaches (in vitro, in vivo and in silico) for assessing hazard and exposure of ENs, and associated risks to human health and the environment. Effects of chronic and accumulative exposure and of exposure under real-life conditions, where ENPs [engineered nanoparticles] are likely to act as components of complex mixtures, will be duly taken into account.

It was a little surprising to find Canada listed as one of the project partners. I also found this map of the consortium participants which lists McGill University specifically as the Canadian participant.

I briefly mentioned NanoValid in a June 19, 2012 posting which featured a listing of Environmental, Health and Safety projects being funded by the European Union’s 7th Framework Programme.

NanoCelluComp; a European Commission-funded nanocellulose project

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It was a bit of a surprise to find out there’s yet another nanocellulose fibre project but here it is in a Mar. 7, 2013 news item on Nanowerk,

The overall aim of the NanoCelluComp project is to develop a technology to utilise the high mechanical performance of cellulose nanofibres, obtained from food processing waste streams, combined with bioderived matrix materials, for the manufacture of 100% bio-derived high performance composite materials that will replace randomly oriented and unidirectional glass and carbon fibre reinforced plastics in a range of applications including transportation, wind turbines, biomedical, sport and consumer goods. More specifically, the project aims to develop a manufacturing process to form a 100% bio-composites with controlled alignment of the native modified cellulose nanofibres and evaluate these process with regard to the physical and mechanical performance of produced materials and suitability for use by industry via existing composite processing technologies. The project will also study the sustainability of the process and materials (nanocellulose bio-composites) in terms of environmental impacts and cost compared to existing materials, namely, carbon fibre reinforced plastics and glass fibre reinforced plastics.

It’s a project funded by the European Commission’s 7th Framework Programme whose funding runs out in Feb. 2014. Their fourth newsletter (PDF) is available for viewing. The most interesting bit of news in the publication (for me) is the announcement of a fifth meeting. From the 4th newsletter,

The consortium will next meet on the 14th and 15th of March at the facilities of KTH in Stockholm for its fifth meeting. The Project Technical Adviser, Prof Maria Tomoaia-Cotisel will also be in attendance. (p. 1)

The NanoCelluComp consortium is an amalgam of academic, government, and business agencies, from the NanoCelluComp website’s Consortium page,

Institute of Nanotechnology

The Institute of Nanotechnology (IoN) is one of the global leaders in providing nanotechnology information. It supplies industry and governments with intelligence on nanotechnology and its applications and has produced several important milestone publications. …

CelluComp

CelluComp is a composite materials technology company founded in 2004 by two expert materials scientists, Dr David Hepworth and Dr Eric Whale. …

University of Strathclyde

The University of Strathclyde (USTRATH) will be represented by the research group of Dr Simon Shilton. Dr Shilton’s group at Strathclyde has pioneered the use of rheological factors in hollow fibre membrane spinning. …

University of Copenhagen

The University of Copenhagen team (UCPH) comprises of research groups from the Department of Plant Biology and Biotechnology, the Department of Agriculture and Ecology and the Department of Food science at the Faculty of Life Sciences representing the complete repertoire of expertise and analytical methods required for the project. Prof. Peter Ulvskov will lead the team. …

Royal Institute of Technology (Sweden)

The Royal Institute of Technology (KTH) team is represented in the project by the cellulose-based nanomaterials group of the Division of Glycoscience led by Prof. Qi Zhou. The current research program of the group is centred on the construction of self-assembled composite materials with multi-functionalities and well-defined architectures using cellulose nanofibers, native and modified carbohydrate polymers.  …

University of Reading

The University of Reading team (UREAD) is represented by researchers from the department of Chemistry led by Dr Fred Davis. …

SweTree Technologies

SweTree Technologies (STT) is a plant and forest biotechnology company providing products and technologies to improve the productivity and performance properties of plants, wood and fibre for forestry, pulp & paper, packaging, hygiene, textile and other fibre related industries. …

AL.P.A.S. S.r.l.

AL.P.A.S. S.r.l. (ALPAS) is a manufacturer of Epoxy Resin, Polyurethane, PVC and other adhesive systems based in Northern Italy. The company has over 30 years experience in supplying these products to the Automotive, Electric/Electronics, Marble, Building and other industries. …

Swiss Federal Laboratories for Materials Science and Technology (EMPA)

Swiss Federal Laboratories for Materials Science and Technology (EMPA) is a materials science and technology research institution. …

Novozymes

Novozymes (NZ) is a world leader in bioinnovation and the world’s largest producer of industrial enzymes, with a market share of approximately 45%. …

Biovelop

Biovelop (BV) is an innovative Life Science company with production facilites in Kimstad, Sweden. The company specializes in the development and scaling up of cornerstone technologies in the area of extraction of functional ingredients from cereal grains and brans. …

I wish there was a bit more information in the fourth newsletter about what has been accomplished, from  the newsletter,

Work packages 1 and 2 are now completed (with feasibility studies on alternative vegetable waste streams performed, and methods for liberating and stabilizing nanocellulose achieved).

Work package 3 will conclude shortly with a better understanding of how to improve the mechanical properties of the liberated nanocelulose.

Activities in work package 4 are also nearing completion, with novel production processes achieved and resultant fibres now being tested.

Work package 5 activities to integrate all project research results have been slightly delayed, however initial test composites have been made. Following successful testing of these, the process will be scaled up to industrially relevant amounts.

Work package 6 has produced a report describing environment, health and safety (EHS) aspects and initial findings on end- user acceptability criteria for the developed composites. (p. 3)

Perhaps there’ll be something more in their mid-term report, assuming it gets published.

Summary of EHS studies on nanotechnology funded through Europe’s 7th Framework Programme

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I was a little shocked to see how many EHS (environment, health, and safety) projects focussed on nanotechnology that the European Union (EU) funded as part of its overarching science funding efforts, the 7th Framework Program, due to be superseded in the near future (2013)) by the Horizon 2020 program. The June 18, 2012 Nanowerk Spotlight article submitted by NanoTrust, Austrian Academy of Sciences provides the reasoning for the EU  effort (Note: I have removed footnotes.),

The Action Plan, presented by the EU Commission in 2004, envisioned integrating “the social dimension into a responsible technology development” and strengthening efforts related to “health, safety, environmental aspects and consumer protection“.

This encompassed (1) the systematic study of safety-relevant aspects at the earliest possible date, (2) integrating health- and environment-relevant aspect in research and development, (3) conducting targeted studies on toxicology and ecotoxicology and, finally, (4) adapting risk assessment approaches to nano-specific aspects in all phases of product life-cycles.

The primary goal was to improve the competitiveness of European industry. The draft presented in mid-2011 for the planned research priorities continues this strategic focus.

The EU Parliament had already discussed the Nano Action Plan developed by the Commission before the start of the current Framework Program. From the onset, the relevant parliamentary resolution called for an improved coordination with the Member States and more risk research, consideration of the precautionary principle and a deepened dialogue with citizens.

The EU Parliament clearly felt that the rules require urgent adaptations in order to adequately consider nano-risks: In the resolution of April 2009 the parliamentarians underlined the existence of a considerable “lack of information about the use and safety of nanomaterials that are already on the market”.

The overall scope of the projects on nanotechnology, materials and production (NMP) funded by the 7th RP is listed at about 3.475 mill. €. According to EU sources, about 102 mill. € were earmarked for safety aspects (nanosafety research).The comparison with the much more modest Nano-EHS-budget in the past clearly shows the change here (5th RP: about 2.5 mill. €, 6th RP 6 about 30 mill. €).

The publication from where this information was drawn is no.30 in the NanoTrust Dossier series. It was published in May 2012 (from pp. 2-6),

ENNSATOX

Title: Engineered Nanoparticle Impact on Aquatic Environments: Structure, Activity and Toxicology

Coordinator: Andrew Nelson,
Centre for Molecular Nanosciences (CMNS), School of Chemistry, University of Leeds, UK
Duration: July 2009 to July 2012
Project costs: 3,655 mill. €
EU funding: 2,816 mill. €
Homepage: www.ennsatox.eu

The goal of ENNSATOX is to investigate the environmental effects of various synthetic nanoparticles from the time of their release to their potential uptake by organisms, particularly in rivers and lakes. …

ENPRA

Title: Risk Assessment of Engineered Nanoparticles

Coordinator: Lang Tran,
Institute of Occupational Medicine (IOM), Edinburg, UK
Duration: July 2009 to July 2012
Project costs: 5,13 mill. €
EU funding: 3,7 mill. €
Homepage: www.enpra.eu

ENPRA is examining the impacts of selected and commercially used nanomaterials, whereby the different target organs (lungs, cardiovascular system, kidneys etc.) and different mechanisms of damage (see Nano Trust-Dossier 012en) are being determined. …

HINAMOX

Title: Health Impact of Engineered Metal and Metal Oxide Nanoparticles Response, Bioimaging and Distribution at Cellular and Body Level

Coordinator: Sergio E. Moya,
Centro de Investigación Cooperativa en Biomateriales (Spanien)
Duration: October 2009 to October 2012
Project costs: 2.93 mill. €
EU funding: 2.3 mill. €
Homepage: www.hinamox.eu

HINAMOX deals with the impacts of several metal-oxide nanoparticles – TiO2, ZnO, Al2O3, CeO2 etc. – on human health and on biological systems. …

InLiveTox

Title: Intestinal, Liver and Endothelial Nanoparticle Toxicity – development and evaluation of a novel tool for high-throughput data generation

Coordinator: Martha Liley,
CSEM (Centre Suisse d’Electronique et de Microtechnique SA)
Duration: May 2009 to July 2012
Project costs: 3.42 mill. €
EU funding: 2.4 mill. €
Homepage: www.inlivetox.eu

In InLiveTox, an improved in-vitro model is being developed to describe the effects of nanoparticles taken up via food, especially effects on the gastrointestinal tract and the liver.  …

MARINA

Title: Managing Risks of Nanomaterials

Coordinator: Lang Tran,
IOM (Institute of Occupational Medicine) Edinburgh, UK
Duration: November 2011 to November 2015
Project costs: 12.48 Mio. €
EU funding: 9.0 mill. €
Homepage: www.marina-fp7.eu and http://www.iom-world.org

A total of almost 50 industrial companies (including BASF) and scientific facilities are combined in the very large joint project MARINA, coordinated by the Institute of Occupational Medicine of the University of Edinburgh; other organizations that are involved in employee protection and occupational safety are also participating (FIOH/Finland, IST/Switzerland, RIVM/The Netherlands). …

ModNanoTox

Title: Modelling nanoparticle toxicity: principles, methods, novel approaches Toxicology

Coordinator: Eugenia Valsami-Jones,
Natural History Museum, London, UK
Duration: November 2011 to November 2013
Project costs: 1.28 mill. €
EU funding: 1.0 mill. €
Homepage: (under construction) lib.bioinfo.pl/projects/view/32734

The goal of ModNanoTox is to develop welldocumented models on the long-term behavior of synthetic nanoparticles in organisms and in the environment. …

NanEx

Title: Development of Exposure Scenarios for Manufactured Nanomaterials

Coordinator: Martie van Tongeren,
Institute of Occupational Medicine (IOM), Edinburgh UK
Duration: December 2009 to November 2010
Project costs: 1.01 mill. €
EU funding: 0.95 mill. €
Homepage: www.nanex-project.eu, lib.bioinfo.pl/projects/view/12016

In NanEx, a catalog of realistic scenarios is being developed for potential impacts of synthetic nanoparticles at industrial workplaces, of various uses by consumers as well as of delayed releases into the environment. …

NANODEVICE

Title: Modelling Novel Concepts, Methods and Technologies for the Production of Portable, Easy-to-Use Devices for the Measurement and Analysis of Airborne Nanoparticles in Workplace Air

Coordinator: Kai Savolainen,
Finnish Institute for Occupational Health (FIOH), Finland
Duration: April 2009 to April 2013
Project costs: 12.28 mill. €
EU funding: 9.49 mill. €
Homepage: www.nano-device.eu

Due to the lack of robust and inexpensive instruments, the nanoparticle concentrations in the air at the workplace cannot be measured at the present time. NANODEVICE is devoted to studying innovative concepts and practicable methods for identifying synthetic nanomaterials, methods that can also be used at the workplace. …

NanoFATE

Title: Nanoparticle Fate Assessment and Toxicity in the Environment

Coordinator: Klaus Svendsen,
NERC (Centre for Ecology and Hydrology),
Wallingford, UK
Duration: April 2010 to April 2014
Project costs: 3.25 mill. €
EU funding: 2.50 mill. €
Homepage: www.nanofate.eu

NanoFATE is devoted to systematically deepening our knowledge about the behavior and the fate of synthetic nanoparticles that enter the environment. …

Nanogenotox

Title: Towards a method for detecting the potential genotoxicity of nanomaterials

Coordinator: Anses – French Agency for Food, Environmental and Occupational Health Safety
Duration: March 2010 to March 2014
Project costs: 6.0 mill. € EU funding: 2.90 mill. € (as co-funding though the program
EU-Health & Consumers)
Homepage: www.nanogenotox.eu/

Nanogenotox is not directly a part of the 7th RP but rather a Joint Action, about half of which is funded by the participating European states. The task of this project is to study the gene toxicity (i.e. the damaging effect on the genetic material of organisms) of selected nanomaterials. …

NanoHouse

Title: Cycle of Nanoparticle-Based Products used in House-Coating

Coordinator: Francois Tardif,
CEA (Commissariat à l’Énergie Atomique et aux Energies Alternatives), Grenoble, Frankreich
Duration: January 2010 to July 2013
Project costs: 3.1 mill. €
EU funding: 2.4 mill. €
Homepage: www-nanohouse.cea.fr

The task of NanoHouse is to comprehensively evaluate environmentally relevant and health-related effects of nanoproducts used in house construction; the focus is on paints and coatings with TiO2- and nanosilver components, whose impacts and fates are being more closely examined. …

NanoImpactNet

Title: The European Network on the Health and Environmental Impact of Nanomaterials

Coordinator: Michael Riediker,
Institut universitaire romand der Santé au Travail, Schweiz (IST)
Duration: April 2008 to April 2012
Project costs: 3.19 mill. €
EU funding: 2.0 mill. €
Homepage: www.nanoimpactnet.eu

This large network of partner institutes from numerous countries is designed mainly to exchange information about new knowledge as well as knowledge gaps in the health- and environment-related impacts of nanoparticles. …

NanoLyse

Title: Nanoparticles in Food: Analytical Methods for Detection and Characterisation

Coordinator: Stefan Weigel,
RIKILT – Institute of Food Safety, Niederlande
Duration: January 2010 to October 2013
Project costs: 4.05 mill. €
EU funding: 2.95 mill. €
Homepage: www.nanolyse.eu

The goal of NanoLyse is to develop approved methods for analyzing synthetic nanomaterials in food and drinks. …

NANOMMUNE

Title: Comprehensive Assessment of Hazardous Effects of Engineered Nanomaterials on the Immune System Toxicology

Coordinator: Bengt Fadeel,
Karolinsk  Institutet, Stockholm
Duration: September 2008 to September 2011 (completed)
Project costs: 4.31 mill. €
EU funding: 3.36 mill. €
Homepage: www.nanommune.eu

NANOMMUNE examined the influence of synthetic nanomaterials on the immune system and their potential negative health effects. …

NanoPolyTox

Title: Toxicological impact of nanomaterials derived from processing, weathering and recycling of polymer nanocomposites used in various industrial applications

Coordinator: Socorro Vázquez-Campos,
LEITAT Technological Centre, Barcelona, Spain
Duration: May 2010 to May 2013
Project costs: 3.30 mill. €
EU funding: 2.43 mill. €
Homepage: www.nanopolytox.eu

NanoPolyTox is tasked with determining the changes in the physical and toxic properties of three different nanomaterials (nanotubes, nano-clay minerals, metal-oxide nanoparticles) that are used in combination with polymers as filling materials.  …

NanoReTox

Title: The reactivity and toxicity of engineered nanoparticles: risks to the environment and human health

Coordinator: Eugenia Valsami-Jones,
Natural History Museum, London, UK
Duration: December 2008 to December 2012
Project costs: 5.19 mill. €
EU funding: 3.19 mill. €
Homepage: www.nanoretox.eu

NanoReTox is designed to better describe the EHS-risks of synthetic nanomaterials based on new research results. …

NanoSustain

Title: Development of sustainable solutions for nanotechnology-based products based on hazard characterization and LCA

Coordinator: Rudolf Reuther,
NordMilijö AB, Sweden
Duration: May 2010 to May 2013
Project costs: 3.2 mill. €
EU funding: 2.5 mill. €
Homepage: www.nanosustain.eu

NanoSustain is designed to develop innovative solutions for all phases in dealing with nanotechnology products – up until the landfill or recycling stage. Four nanomaterials are being examined in greater detail: nano-cellulose, CNT, nano-TiO2, as well as nano-ZnO. …

NanoTransKinetics

Title: Modelling basis and kinetics of nanoparticle interaction with membranes, uptake into cells, and sub-cellular and inter-compartmental transport

Coordinator: Kenneth Dawson,
University College, Dublin, Ireland
Duration: November 2011 to November 2014
Project costs: 1.3 mill. €
EU funding: 0.99 mill. €
Homepage: www.nanotranskinetics.eu

The aim of NanoTransKinetics is to substantially improve the models used to describe biological (and therefore also toxic) interrelationships between nanoparticles and living organisms.  …

NanoValid

Title: Development of reference methods for hazard identification, risk assessment and LCA of engineered nanomaterials

Coordinator: Rudolf Reuther,
NordMiljö AB, Sweden
Duration: November 2011 to November 2015
Project costs: 13.4 mill. €
EU funding: 9.6 mill. €
Homepage: www.nanovalid.eu

The aim of NanoValid is to develop reference methods and materials to identify and assess the risks of synthetic nanomaterials in close cooperation with the similarly oriented project MARINA (see above). …

NEPHH

Title: Nanomaterials-related environmental pollution and health hazards throughout their life-cycle

Coordinator: EKOTEK S.L. (Spanien)
Duration: September 2009 to September 2012
Project costs: 3.1 mill. €
EU funding: 2.5 mill. €
Homepage: www.nephh-fp7.eu

NEPHH seeks to better estimate the environmental and health-related risks of nanostructures over the course of their use. …

NeuroNano

Title: Do nanoparticles induce neurodegenerative diseases? Understanding the origin of reactive oxidative species and protein aggregation and mis-folding phenomena in the presence of nanoparticles

Coordinator: Kenneth Dawson,
University College, Dublin, Ireland
Duration: February 2009 toFebruary 2012
Project costs: 4.8 mill. €
EU funding: 2.5 mill. €
Homepage: www.neuronano.eu

To date, the full details on the factors that allow nanoparticles to pass the blood-brain barrier are unknown15. NeuroNano examines the effect of nanoparticle size, shape and composition, along with the role of the adsorbed corona of biomolecules (see above). …

QNano

Title: A pan-european infrastructure for quality in nanomaterials safety testing

Coordinator: Kenneth Dawson,
University College, Dublin, Ireland
Duration: February 2011 to February 2015
Project costs: 9.2 mill. €
EU funding: 7.0 mill. €
Homepage: www.qnano-ri.eu

Rather than being devoted to a separate research topic, QNano is designed to interlink and support facilities that provide the necessary infrastructure for investigating and characterizing nanosubstances. …

That’s quite the list, eh?

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

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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.