Category Archives: science policy

Money and its influence on Canada’s fisheries and oceans

Having neither the research skills nor the resources to investigate the impact the money (and power) have on science in Canada, more specifically, on our fisheries and oceans, I have to thank the Canadian Science Media Centre for the link to a paper on the topic.

As usual, you’ll find a citation and link to the paper at the end of this posting. First, a few reasons why you may want to take a look at the paper in its entirety. From the “Is scientific inquiry still incompatible with government information control? A quarter-century later” paper,

Abstract

Twenty-six years ago, in response to regionally devastating fisheries collapses [collapse of Maritime provinces cod fisheries] in Canada, Hutchings et al. asked “Is scientific inquiry incompatible with government information control?” Now, a quarter-century later, we review how government science advice continues to be influenced by non-science interests, particularly those with a financial stake in the outcome of the advice. We use the example of salmon aquaculture in British Columbia, Canada, to demonstrate how science advice from Fisheries and Oceans Canada (DFO) can fail to be impartial, evidence-based, transparent, and independently reviewed—four widely implemented standards of robust science advice. Consequently, DFO’s policies are not always supported by the best available science. These observations are particularly important in the context of DFO having struggled to sustainably manage Canada’s marine resources, creating socio-economic uncertainty and putting the country’s international reputation at risk as it lags behind its peers. We conclude by reiterating Hutchings et al.’s unheeded recommendation for a truly independent fisheries-science advisory body in Canada to be enshrined in the decision-making process.

Over a quarter of a century later, the cod fisheries and others are in dire conditions, Note: Links have been removed,

… numerous Pacific salmon (Oncorhynchus spp.) populations are at historically low abundances (Peterman and Dorner 2012; Riddell et al. 2013; Bendriem et al. 2019; COSEWIC 2019), and Canada’s Atlantic cod (Gadus morhua) stocks remain in a “critical” state (Fisheries and Oceans Canada 2020).

Much of the paper is written in an academic style and features an alphabet soup. For example, COSEWIC is Committee on the Status of Endangered Wildlife in Canada. That said, there are many valuable comments, from the “Is scientific inquiry still incompatible with government information control? A quarter-century later” paper, Note: Links have been removed,

… Science advice is integral to DFO’s [Department of Fisheries and Oceans] role, but the provision of Canadian fisheries-science advice is challenging, due not only to the diversity and large geographic scale of Canada’s ocean environments, but also to the pitfalls inherent in providing science advice.

Although science can play an important role in the mitigation and reversal of anthropogenic stresses by supplying evidence for policy decisions, competing interests and ideologies can impede the delivery of robust science advice and its integration into government policy decisions. In particular, individuals or groups with vested interests can manipulate the science-policy process through the “disinformation playbook” (Reed et al. 2021)—a collection of strategies that downplay and obscure risk by seeding doubt about scientific consensus (Freudenburg et al. 2008). These tactics can be used to discount the connections between negative health or environmental outcomes and their corporate or industrial causes, at times resulting in regulatory capture, a “process by which regulation… is consistently or repeatedly directed away from the public interest and toward the interests of the regulated industry, by the intent and action of the industry itself” (Carpenter and Moss 2013). Examples of regulatory capture exist in relation to cancers from tobacco use, bird-population declines from dichlorodiphenyltrichloroethane (DDT), ozone-layer depletion from chlorofluorocarbons, and climate change from greenhouse gas emissions (Oreskes and Conway 2010; Anker et al. 2011).

It’s not all bad news, from the “Is scientific inquiry still incompatible with government information control? A quarter-century later” paper, Note: Links have been removed,

Reassuringly, governments commonly seek to incorporate evidence and scientific findings to strengthen policy and better inform decision-making. A flagship example, the Intergovernmental Panel on Climate Change (IPCC), provides policymakers with regular assessments of the scientific basis for climate change, its impacts and future risks, and options for adaptation and mitigation (Masson-Delmotte et al. 2021). The International Union for the Conservation of Nature (IUCN) assesses the global extinction risks for animal, fungal, and plant species (IUCN Red List 2022). In Canada, the Committee on the Status of Endangered Wildlife in Canada (COSEWIC) (Waples et al. 2013) provides species threat-status assessments whose quality and independence are internationally recognized (Waples et al. 2013). Recently, to inform their responses to the COVID-19 pandemic, many national governments drew on science advisory bodies, such as the National Advisory Committee on Immunization (NACI) in Canada (Macdonald and Pickering 2009; Ismail et al. 2010).

The authors make note of how social, political, legal, and economic issues affect decisions and then they call out a few specific problems with the Canadian effort, specifically, Pacific Coast salmon aquaculture, from the “Is scientific inquiry still incompatible with government information control? A quarter-century later” paper, Note: Links have been removed,

Salmon aquaculture has had a turbulent history in Canada, particularly on the Pacific coast, where non-native Atlantic salmon comprises 89% of aquaculture production by quantity and 95% by value (FAO [Food and Agriculture Organization] Fisheries and Aquaculture 2022). The controversy on the Pacific coast—where the industry is regulated federally, by DFO, rather than provincially, as in Atlantic Canada—is largely due to the amplification of disease and its transmission from farmed to wild salmon, a concern for salmon farming globally (Garseth et al. 2013; Krkošek 2017; Kibenge 2019; Mordecai et al. 2021). The Pacific coast of Canada is perhaps the only region in the world where salmon farming was developed alongside abundant, viable wild salmon stocks (FAO Fisheries and Aquaculture 2022). In this context, widespread declines of many wild Pacific salmon populations (Peterman and Dorner 2012; Riddell et al. 2013; Bendriem et al. 2019, 2019), in parallel with growing evidence of the ecological effects of salmon farms, have eroded the social license for the industry to operate (Wiber et al. 2021; Reid et al. 2022). …

The quality of DFO’s science advice on salmon farming in BC is particularly important in the context of growing evidence that⁠ (due to multiple causes⁠) wild salmon are not thriving (Peterman and Dorner 2012; Riddell et al. 2013; Bendriem et al. 2019; COSEWIC 2019), and has repeatedly been a cause for concern among scientists, nongovernmental organisations, Indigenous groups, and even government bodies (Proboszcz 2018; Standing Committee on Fisheries and Oceans 2021a). …

… for some, the close relationships between members of the salmon aquaculture industry and DFO personnel raise concerns that these standards of impartiality are not being met. For example, the former Director of DFO’s Aquaculture, Biotechnology, and Aquatic Animal Health Science Branch was previously the President of the Aquaculture Association of Canada (Supplementary data, pp. 80–82), an organisation with the objective to “promote, support, and encourage… [the] advancement of aquaculture in Canada” (Supplementary data, p. 83). Similarly, the former Director of the Pacific Biological Station and Head of Aquaculture for DFO later served as Chair of the Science Advisory Council for the BC Salmon Farmers Association, by which he was described as “a strong advocate for the aquaculture industry in BC” (Supplementary data, pp. 84–85). These are just two examples among many. …

DFO’s accountability to industry was once again brought to light in 2022 when a prominent DFO research scientist testified in front of a parliamentary committee that DFO’s ability to conduct robust, transparent evidence-based risk assessments on aquaculture–wild interactions was compromised by a lack of independence from industry (Standing Committee on Fisheries and Oceans 2021b). Examples of the Department’s processes for developing salmon-farm regulations, while not examples of science advice, further call industry influence into question. …

In the end, the authors had this to say about all of the fisheries and oceans science advice given to the department, from the “Is scientific inquiry still incompatible with government information control? A quarter-century later” paper, Note: Links have been removed,

The case for improving fisheries-science advice in Canada has never been stronger. DFO’s standard of fisheries-science advice now lags behind international best practice (Hutchings et al. 2012b; Winter and Hutchings 2020) as well as Canada’s own science advisory bodies, such as COSEWIC and the NACI, which strive to offer advice unfiltered and unaffected by political or bureaucratic influences. Yet DFO continues to allow industry lobbying and other non-science influences to interfere with advice processes (see Impartial section) while publicly claiming that the resulting advice is based on science (Supplementary data, pp. 10–15). …

Here’s a link to and a citation for the paper,

Is scientific inquiry still incompatible with government information control? A quarter-century later by Sean C. Godwin, Andrew W. Bateman, Gideon Mordecai, Sean Jones, and Jeffrey A. Hutchings. Canadian Journal of Fisheries and Aquatic Sciences DOI: https://doi.org/10.1139/cjfas-2022-0286 Published: 31 July 2023

This paper is open access and because I don’t ever before recall seeing an ‘Acknowledgements’ section that is sad, humorous, and touching, here it is,

Acknowledgements

We dedicate this paper to Jeffrey Hutchings, who tragically passed away halfway through the writing process. Jeff was a giant of the field who had an immense, positive influence on his friends and colleagues, and on fisheries science and policy in Canada and beyond. JH contributed to the conception and outline of the paper, wrote the first draft of the Introduction, edited as far as the “Background” subsection of the “Salmon Aquaculture Case Study,” discussed the case study examples, and penned a portion of the “Conclusions and Recommendations.” SG, AB, and GM all contributed equally to the manuscript (and reserve the right to list themselves as first author on their CVs). Published order of the co-first authors was determined via haphazard out-of-a-hat selection by AB’s 18-month-old son, Linden; whether this process bears all four hallmarks of robust science advice was not assessed. We are very grateful to 14 colleagues who provided valuable feedback during preparation and review.

Machine decision-making (artificial intelligence) in British Columbia’s government (Canada)

Jeremy Hainsworth’s September 19, 2023 article on the Vancouver is Awesome website was like a dash of cold water. I had no idea that plans for using AI (artificial intelligence) in municipal administration were so far advanced (although I did cover this AI development, “Predictive policing in Vancouver—the first jurisdiction in Canada to employ a machine learning system for property theft reduction” in a November 23, 2017 posting). From Hainsworth’s September 19, 2023 article, Note: A link has been removed,

Human discretion and the ability to follow decision-making must remain top of mind employing artificial intelligence (AI) to providing public services, Union of BC Municipalities conference delegates heard Sept. 19 [2023].

And, delegates heard from Office of the Ombudsperson of B.C. representatives, decisions made by machines must be fair and transparent.

“This is the way of the future — using AI systems for delivering municipal services,” Zoë Macmillan, office manager of investigations, health and local services.

The risk in getting it wrong on fairness and privacy issues, said Wendy Byrne, office consultation and training officer, is a loss of trust in government.

It’s an issue the office has addressed itself, due to the impacts automated decision-making could have on British Columbians, in terms of the fairness they receive around public services. The issue has been covered in a June 2021 report, Getting Ahead of the Curve [emphasis mine]. The work was done jointly with B.C.’s Office of the Information and Privacy Commissioner.

And, said office representatives, there also needs to be AI decision-making trails that can be audited when it comes to transparency in decision-making and for people appealing decisions made by machines.

She [Zoë Macmillan] said many B.C. communities are on the verge of implementing AI for providing citizens with services. In Vancouver and Kelowna, AI is already being used [emphasis mine] in some permitting systems.

The public, meanwhile, needs to be aware when an automated decision-making system is assisting them with an issue, she [Wendy Byrne] noted.

It’s not clear from Hainsworth’s article excerpts seen here but the report, “Getting Ahead of the Curve” was a joint Yukon and British Columbia (BC) effort. Here’s a link to the report (PDF) and an excerpt, Note: I’d call this an executive summary,

Message from the Officers

With the proliferation of instantaneous and personalized services increasingly being delivered to people in many areas in the private sector, the public is increasingly expecting the same approach when receiving government services. Artificial intelligence (AI) is touted as an effective, efficient and cost-saving solution to these growing expectations. However, ethical and legal concerns are being raised as governments in Canada and abroad are experimenting with AI technologies in
decision-making under inadequate regulation and, at times, in a less than transparent manner.

As public service oversight officials upholding the privacy and fairness rights of citizens, it is our responsibility to be closely acquainted with emerging issues that threaten those rights. There is no timelier an issue that intersects with our
respective mandates as privacy commissioners and ombudsman, than the increasing use of artificial intelligence by the governments and public bodies we oversee.

The digital era has brought swift and significant change to the delivery of public services. The benefits of providing the public with increasingly convenient and timely service has spurred a range of computer-based platforms, from digital assistants to automated systems of approval for a range of services – building permits, inmate releases, social assistance applications, and car insurance premiums [emphasis mine] to name a few. While this kind of machine-based service delivery was once narrowly applied in the public sector, the use of artificial intelligence by the public sector is gaining a stronger foothold in countries around the world, including here in Canada. As public bodies become larger and more complex, the perceived benefits of efficiency, accessibility and accuracy of algorithms to make decisions once made by humans, can be initially challenging to refute.

Fairness and privacy issues resulting from the use of AI are well documented, with many commercial facial recognition systems and assessment tools demonstrating bias and augmenting the ability to use personal information in ways that infringe
privacy interests. Similar privacy and fairness issues are raised by the use of AI in government. People often have no choice but to interact with government and the decisions of government can have serious, long-lasting impacts on our lives. A failure to consider how AI technologies create tension with the fairness and privacy obligations of democratic institutions poses risks for the public and undermines trust in government.

In examining examples of how these algorithms have been used in practice, this report demonstrates that there are serious legal and ethical concerns for public sector administrators. Key privacy concerns relate to the lack of transparency of closed proprietary systems that prove challenging to review, test and monitor. Current privacy laws do not contemplate the use of AI and as such lack obligations for key
imperatives around the collection and use of personal information in machine-based
systems. From a fairness perspective, the use of AI in the public sector challenges key pillars of administrative fairness. For example, how algorithmic decisions are made, explained, reviewed or appealed, and how bias is prevented all present challenging questions.

As the application of AI in public administration continues to gain momentum, the intent of this report is to provide both important context regarding the challenges AI presents in public sector decision-making, as well as practical recommendations that aim to set consistent parameters for transparency, accountability, legality and procedural fairness for AI’s use by public bodies. The critically important values of
privacy protection and administrative fairness cannot be left behind as the field of AI continues to evolve and these principles must be more expressly articulated in legislation, policy and applicable procedural applications moving forward.

This joint report urges governments to respect and fulfill fairness and privacy principles in their adoption of AI technologies. It builds on extensive literature on public sector AI by providing concrete, technology-sensitive, implementable guidance on building fairness and privacy into public sector AI. The report also recommends capacity-building, co-operation and public engagement initiatives government should undertake to promote the public’s trust and buy-in of AI.

This report pinpoints the persistent challenges with AI that merit attention from a fairness and privacy perspective; identifies where existing regulatory measures and instruments for administrative fairness and privacy protection in the age of AI fall short and where they need to be enhanced; and sets out detailed, implementable guidance on incorporating administrative fairness and privacy principles across the various stages of the AI lifecycle, from inception and design, to testing, implementation and mainstreaming.

The final chapter contains our recommendations for the development of a framework to facilitate the responsible use of AI systems by governments. Our recommendations include:

– The need for public authorities to make a public commitment to guiding principles for the use of AI that incorporate transparency, accountability, legality, procedural fairness and the protection of privacy. These principles should apply to all existing and new programs or activities, be included in any tendering documents by public authorities for third-party contracts or AI systems delivered by service providers, and be used to assess legacy projects so they are brought into compliance within a reasonable timeframe.

– The need for public authorities to notify an individual when an AI system is used to make a decision about them and describe to the individual in a way that is understandable how that system operates.

– Government promote capacity building, co-operation, and public engagement on AI.
This should be carried out through public education initiatives, building subject-matter knowledge and expertise on AI across government ministries, developing capacity to support knowledge sharing and expertise between government and AI developers and vendors, and establishing or growing the capacity to develop open-source, high-quality data sets for training and testing Automated Decision Systems (ADS).

– Requiring all public authorities to complete and submit an Artificial Intelligence Fairness and Privacy Impact Assessment (AIFPIA) for all existing and future AI programs for review by the relevant oversight body.

– Special rules or restrictions for the use of highly sensitive information by AI.

… [pp. 1-3]

These are the contributors to the report: Alexander Agnello: Policy Analyst, B.C. Office of the Ombudsperson; Ethan Plato: Policy Analyst, B.C. Office of the Information and Privacy Commissioner; and Sebastian Paauwe: Investigator and Compliance Review Officer, Office of the Yukon Ombudsman and Information and Privacy Commissioner.

A bit startling to see how pervasive ” … automated systems of approval for a range of services – building permits, inmate releases, social assistance applications, and car insurance premiums …” are already. Not sure I’d call this 60 pp. report “Getting Ahead of the Curve” (PDF). It seems more like it was catching up—even in 2021.

Finally, there’s my October 27, 2023 post about the 2023 Canadian Science Policy Conference highlighting a few of the sessions. Scroll down to the second session, “901 – The new challenges of information in parliaments“, where you’ll find this,

… This panel proposes an overview … including a discussion on emerging issues impacting them, such as the integration of artificial intelligence and the risks of digital interference in democratic processes.

Interesting, eh?

Last call for Science and Innovation in a Time of Transformation—the Canadian Science Policy Conference (November 13 – 15, 2023)

Unless something really exciting happens, this will be my last post about the upcoming 2023 (and 15th annual) Canadian Science Policy Conference. I will be highlighting a few of the sessions but, first, there’s this from an October 26, 2023 Canadian Science Policy Centre announcement (received via email),

Only Two Weeks Left to Register for CSPC [Canadian Science Policy Conference] 2023!

Only two weeks left to register for CSPC 2023! The deadline to register is Friday, November 10th! With the overarching theme of ‘Science and Innovation in a Time of Transformation’ CSPC 2023 expects more than 1000 participants, 300+ speakers in 50+ panel sessions, and will include a spectacular Gala Dinner featuring its award ceremony which has become a signature annual event to celebrate Canadian science and innovation policy achievements. 

CSPC 2023 will feature more than 300 amazing speakers. To view the list of speakers, click here, and here are some of the international speakers: 

Multiple ticket discounts are also available. CSPC offers a 5% discount on groups of 5-9 registrations and a 10% discount for 10 registrations or more. Please note GROUP REGISTRATION DISCOUNTS are available until Friday, November 10th. Please contact conference@sciencepolicy.ca for more information.

Register now by clicking the button below!
Register Now

View the CSPC 2023 Program and Speakers List!

The biggest and most comprehensive annual Science and Innovation Policy Conference, CSPC 2023, is fast approaching! Explore more than 60 concurrent and plenary panel sessions. Navigate the CSPC 2023 Program: the Interactive Agenda is available here, and the Agenda at a Glance can be viewed here.

There are four sessions that seem particularly interesting to me. First, from the session webpage,

804 – Discussion between Dr. Mona Nemer and Dr. Sethuraman Panchanathan, moderated by Dr. Alejandro Adem

Monday, November 13, 20231:00 PM – 2:00 PM

This year’s CSPC opening panel will bring together two of North America’s most recognized science leaders for a discussion about their experience in the Canadian and U.S research landscape. Panelists will discuss the importance of societally-relevant science, broadening participation in science, the increasing need for open science, and science & technology in green economic development, as well as their vision for the role of science in international relations.

Organized by: Canada Research Coordinating Committee

Speakers

Dr. Alejandro Adem
President of the Natural Sciences and Engineering Research Council of Canada (NSERC)

Dr. Mona Nemer
Canada’s Chief Science Advisor, Government of Canada

Dr. Sethuraman Panchanathan
Computer Scientist and Engineer
15th Director of the U.S. National Science Foundation (NSF)

Second, from the session webpage,

901 – The new challenges of information in parliaments

Monday, November 13, 20232:30 PM – 4:00 PM

In a democratic environment, members of parliament work with information gathered from parliamentary staff, media, lobbies and experts. With the aim of maintaining a strong democracy, parliaments around the world have developed mechanisms to facilitate access to high-quality information for elected representatives, with variations according to continent, language and culture. This panel proposes an overview of these mechanisms including a discussion on emerging issues impacting them, such as the integration of artificial intelligence and the risks of digital interference in democratic processes.

Organized by: Fonds de recherche du Quebec

Speakers

Interestingly, the Canadian Science Policy Centre recently published a research report titled “Survey of Parliamentarians; Impact of the COVID-19 Pandemic on the Use of Science in Policy Making,” you can my comments about it in my October 13, 2023 posting.

Third, from the session webpage,

277 – Science for Social Justice: Advancing the agenda set by the 2022 Cape Town World Science Forum

Tuesday, November 14, 202310:30 AM – 12:00 PM

South Africa had hosted the 10th World Science Forum (WSF), a platform for global science policy dialogue, in Cape Town in December 2022. The WSF is co-organised by a partnership involving global science organisations including UNESCO, the AAAS and the International Science Council, and Hungarian Academy of Science. The theme of the 2022 WSF was “Science for Social Justice.” During a week of intense debate more than 3000 participants from across the world debated the role of science in advancing social justice. This session will review the outcomes of the Forum, including the WSF Declaration on Science for Social Justice.

Organized by: South African Department of Science and Innovation

Speakers

The fourth and final session to be mentioned here, from the session webpage,

910 – Canada’s Quantum potential : critical partnerships and public policy to advance Canada’s leadership in Quantum science and technology.

Tuesday, November 14, 202310:30 AM – 12:00 PM

Canada’s early commitment to invest in Quantum research and technology has made our nation one of the global leaders in that field, and the $360 million earmarked over a seven-year period to foster the National Quantum Strategy (NQS) is a testament to Canada’s leadership ambition in the future. This panel discussion will address the ever-evolving field of quantum science and technology and offer a unique opportunity to explore its policy dimensions including the current state of the field, its advancements and potential applications, and the overall impact of quantum innovations across various sectors. It will explore the transformative impact of quantum science and technologies, and the quantum revolution 2.0 on society, from diverse expert perspectives, using examples such as the impact of quantum computing on drug discovery or financial modelling, as well as discussing the ethical considerations and potential for misuse in surveillance or disinformation campaigns. This panel will examine a variety of policy and social implications of Quantum technologies, including the impact of foundational research and training, approaches to support Quantum industries at their development stages, risks, obstacles to commercialization, and opportunities for better inclusion.

Organized by: University of Ottawa

Speakers

Dr. Khabat Heshami
Research Officer at the National Research Council Canada [NRC]

Jeff Kinder
Project Director
Council of Canadian Academies

Professor Ebrahim Karimi
Co-Director the Nexus for Quantum Technologies Research Institute
University of Ottawa

Professor Ghassan Jabbour
Canada Research Chair in Engineered Advanced Materials and Devices
University of Ottawa – Faculty of Engineering

Rafal Janik
Chief Operating Officer
Xanadu

Tina Dekker
Research Fellow of the University of Ottawa Research Chair in Technology and Society

A few comments

I have highlighted speakers from two of the sessions as I’m going to make a few comments. Dr. Mona Nemer who’s part of the opening panel discussion and Canada’s Chief Science Advisor and Dr. Mehrdad Hariri, the founder and current Chief Executive Officer (CEO) for Canadian Science Policy Centre, which organizes the conference, are both from a region that is experiencing war.

I imagine this is a particularly difficult time for many people in Canada whose family and friends are from the various communities in that region. Along with many others, I hope one day there is peace for everyone. For anyone who might want a little insight into the issues, there’s an October 15, 2023 CBC (Canadian Broadcasting Corporation) radio programme segement on ‘The Sunday Magazine with Piya Chattopadhyay’,

How to maintain solidarity in Canadian Jewish and Palestinian communities

The events in Israel and Gaza in the last week have sparked high levels of grief, pain and outrage, deepening long-simmering divides in the region and closer to home. For years, Raja Khouri and Jeffrey Wilkinson have embarked on a joint project to bring North American Palestinian and Jewish communities together. They join Piya Chattopadhyay to discuss how the events of the last week are challenging that ongoing mission in Canada… and how to strive for solidarity in a time of grief and trauma.

You can find the almost 22 mins. programme here. Khouri’s and Wilkinson’s book, “The Wall Between: What Jews and Palestinians Don’t Want to Know about Each Other” was published on October 3, 2023 just days before the initial Hamas attacks,

The Wall Between is a book about the wall that exists between Jewish and Palestinian communities in the Diaspora. Distrust, enmity, and hate are common currencies. They manifest at university campuses, schools and school boards, at political events, on social media, and in academic circles. For Jews, Israel must exist; for Palestinians, the historic injustice being committed since 1948 must be reversed. Neither wants to know why the Other cannot budge on these issues. The wall is up.

These responses emanate, primarily, from the two “metanarratives” of Jews and Palestinians: the Holocaust and the Nakba. Virtually every response to the struggle, from a member of either community, can be traced back to issues of identity, trauma, and victimhood as they relate to their respective metanarrative. This book examines the role that propaganda and disinformation play in cementing trauma-induced fears for the purpose of making the task of humanizing and acknowledging the Other not just difficult, but almost inconceivable. The authors utilize recent cognitive research on the psychological and social barriers that keep Jews and Palestinians in their camps, walled off from each other. They present a clear way through, one that is justice-centered, rather than trauma-and propaganda-driven.

The authors have lived these principles and traveled this journey, away from their tribal traumas, through embracing the principles of justice. They insist that commitment to the Other means grappling with seemingly incompatible narratives until shared values are decided and acted upon. This book is a call to justice that challenges the status quo of Zionism while at the same time dealing directly with the complex histories that have created the situation today. The book is both realistic and hopeful—a guide for anyone who is open to new possibilities within the Israel-Palestine discourse in the West.

From the publisher’s author descriptions, “Jeffrey J. Wilkinson, PhD, is an American Jew who lives in Canada.” From his Wikipedia entry, “Raja G. Khouri is a Lebanese born Arab-Canadian..”

Also, thank you to Dr. Nemer and Dr. Hariri for the science policy work they’ve done here in Canada and their efforts to expand our discussions.

On a much lighter note, the ‘quantum session’ panel is dominated by academics from the University of Ottawa, a policy wonk from Ottawa, and a representative from a company based in Toronto (approximately 450 km from Ottawa by road). Couldn’t the panel organizers have made some effort to widen geographical representation? This seems particularly odd since the policy wonk (Jeff Kinder) is currently working with the Canadian Council of Academies’ Expert Panel on the Responsible Adoption of Quantum Technologies, which does have wider geographical representation.

This CSPC 2023 panel also seems to be another example of what appears to be a kind of rivalry between D-Wave Systems (based in the Vancouver area) and Xanadu Quantum Technologies (Toronto-based) or perhaps another east-west Canada rivalry. See my May 4, 2021 posting (scroll down to the ‘National Quantum Strategy’ subhead) for an overview of sorts of the seeming rivalry; there’s my July 26, 2022 posting for speculation about Canada’s quantum scene and what appears to be an east/west divide; and for a very brief comment in my April 17, 2023 posting (scroll down to the ‘The quantum crew’ subhead.)

As for the conference itself, there’s been a significant increase in conference registration fees this year (see my July 28, 203 posting) and, for the insatiable, there’s my March 29, 2023 posting featuring the call for submissions and topic streams.

Canadian Science Policy Centre does some funky research, hosts October 2023 events, and more

I’m going to start with the ‘more’.

Deadline extended

From an October 12, 2023 Canadian Science Policy Centre (CSPC) announcement received via email,

Science Meets Parliament 2024
Application Deadline is Nov 9th!

You still have some time, the deadline to submit your applications for Science Meets Parliament 2024, is Thursday, Nov 9th [2023]! To apply, click here..

Science Meets Parliament (SMP) is a program that works to strengthen the connections between the science and policy communities. This program is open to Tier II Canada Research Chairs, Indigenous Principal Investigators, and Banting Postdoctoral Fellows.

Two events: October 13, 2023 and October 24, 2023

From an October 12, 2023 Canadian Science Policy Centre (CSPC) announcement,

Upcoming Virtual Panel [Canada-Brazil Cooperation and Collaboration in STI [Science, Technology, and Innovation]]

This virtual panel aims to discuss the ongoing Science, Technology, and Innovation (STI) cooperation between Brazil and Canada, along with the potential for furthering this relationship. The focus will encompass strategic areas of contact, ongoing projects, and scholarship opportunities. It is pertinent to reflect on the science diplomacy efforts of each country and their reciprocal influence. Additionally, the panel aims to explore how Canada engages with developing countries in terms of STI.

Please note the panel date has been changed to October 13th at 12pm EST. Click the button below to register for the upcoming virtual panel!
Register Here

An event to mark a CSPC research report,

Report Launch on The Hill!
CSPC Survey of Parlimentarians!

CSPC has organized a panel discussion on Oct 24th [2023] at 8 AM [EST] on Parliament Hill to launch the results of the project: “Survey of Parliamentarians on the Impact of the Pandemic on the Use of Science in Policy Making”.

This project was conducted by the CSPC’s Evaluation and Reports Committee, which began the dissemination of the survey to parliamentarians in 2021. The objective was to gather information on the impact of the pandemic on the use of science in policy-making. Survey responses were analyzed and a full report is going to be presented and publicized.

More information about the survey and the Final Report on the Survey of Parliamentarians can be found HERE.

To attend this in-person event, please click the button below.
Register Here


Funky or not? Final Report on the Survey of Parliamentarians

[downloaded from https://sciencepolicy.ca/survey-of-parliamentarians/]

Wouldn’t it have been surprising if the survey results had shown that parliamentarians weren’t interested in getting science information when developing science policies? Especially surprising given that the survey was developed, conducted, and written up by the Canadian Science Policy Centre.

While there is a lot of interesting material, I really wish the authors had addressed the self-serving nature of this survey in their report. To their credit they do acknowledge some of the shortcomings, from the report (PDF), here’s the conclusion, Note: All emphases are mine,

There was near unanimous agreement by parliamentarians that there is a need for scientific knowledge in an accessible and policy-ready format. Building upon that, and taking into account the difficulties that parliamentarians identified in acquiring scientific knowledge to support policy- making, there were two main facilitators suggested by participants that may improve timely and understandable scientific knowledge in parliamentarian work. Firstly, the provision of scientific knowledge in a policy-ready format through a non-partisan science advice mechanism such as a non-partisan science advisor for the House of Commons and Senate. Secondly, research
summaries in an accessible format and/or briefing of hot scientific topics provided by experts. As parliamentarians revealed in this survey, there is a clear desire to use scientific knowledge more frequently as a result of the COVID-19 pandemic. Therefore, the scientific community has an opportunity to support parliamentarians in this regard through mechanisms such as those indicated here.

Notwithstanding, the findings above come with some limitations within this study. First, the committee acknowledges that due to the small sample size of survey participants – particularly for MPs – the results presented in this report may not be representative of the parliamentarians of the 43rd Canadian Parliament. The committee also acknowledges that this limitation is further compounded by incomplete demographic representation. Although the committee made great efforts to achieve a survey demographic across gender, party affiliation, geographical location, and language that was representative of the 43rd Canadian Parliament, there were certain demographics that were ultimately under-represented. For these reasons, trends highlighted in this report and comparisons between MPs and senators should be interpreted with these limitations in mind. Finally, the committee acknowledged the possibility that the data presented in this report may be biased towards more positive perceptions of scientific knowledge, since this survey was more likely to have been completed by parliamentarians who have an interest in science. Even with these limitations, this study provides a critical step forward in understanding parliamentarians’ needs regarding acquisition of scientific knowledge in their work and proposing possible mechanisms to support these needs.

In conclusion, the current report reveals that parliamentarians’ inclination to use science in policy-making has increased in light of the COVID-19 pandemic. Moreover, parliamentarians are more aware than ever of the necessity for accurate and accessible scientific knowledge in their work. There are clear challenges facing the use of scientific knowledge in policy-making, namely misinformation and disinformation, but participants highlighted different key proposed mechanisms that can better integrate science and research into the framework of public policy. [p. 34]

Self-selection (“more likely to have been completed by parliamentarians who have an interest in science”) is always a problem. As for geographical representation, no one from BC, Saskatchewan, the Yukon, Nunavut, or the Northwest Territories responded.

Intriguingly, there were 18 Senators and 8 MP (members of Parliament) for a total of 26 respondents (see pp. 15-16 in the report [PDF] for more about the demographics).

As the authors note, it’s a small number of respondents. which seems even smaller when you realize there are supposed to be 338 MPs (House of Commons of Canada Wikipedia entry) and 105 Senators (List of current senators of Canada Wikipedia entry).

I wish they had asked how long someone had served in Parliament. (Yes, a bit tricky when an MP is concerned but perhaps asking for a combined total would solve the problem.)

While I was concerned about the focus on COVID-19 and the generic sounding references to ‘scientific knowledge’, my concerns were somewhat appeased with this, from the report (PDF),

Need for different types of scientific knowledge

The committee found that across all participants, there was an increased need for all listed types of scientific knowledge by the majority of participants. One parliamentarian elaborated on this, highlighting that several Bills have touched on these areas over the course of the COVID-19 pandemic and that in their research work, parliamentarians have had to refer to these areas of scientific knowledge regularly.

Unsurprisingly, the type of scientific knowledge reported to have the largest increase in need was health sciences (85%). Notably, 4% or less of participants indicated a lesser need for all types of scientific knowledge, with health science, social science and humanities, and natural sciences and engineering seeing no decline in need by participants. Both MP and senator participants reported a greater need for research and evidence in health sciences (e.g., public health, vaccine research , cancer treatment etc.), social sciences and humanities (e.g., psychology, sociology, law, ethics), and environmental sciences (e.g., climate, environment, earth studies) as a result of the COVID-19 pandemic. Particularly, one parliamentarian reflected that there is an increased need among policy- makers to be objective and listen to scientists, as well as scientific data and evidence in areas such as public health and climate change. However, the relative increase in need for each subject between groups was different. For instance, senator participants reported the largest increase in need for health sciences (89%), followed by environmental science (78%) and social sciences and humanities (73%); whereas MP participants reported the largest increase in need for social sciences and humanities (88%), followed by health sciences (75%) and environmental science (63%).

Economics, Indigenous Knowledge, and natural sciences and engineering (e.g., biology, chemistry, physics, mathematics, engineering) had smaller increases in need for both MPs and senators. For both groups, natural sciences and engineering saw 50% of participants indicate an increase in need. In the case of economics and Indigenous Knowledge, senators noted a larger increase in need for these fields compared to MPs. In particular, in the case of Indigenous Knowledge only 37% of MPs
reported an increased need for this type of scientific knowledge compared to 61% of senators.

Finally, one parliamentarian noted that climate change and Indigenous issues have gained a greater prominence since the pandemic, but not necessarily as a result of it. Therefore, in addition to putting these responses in the context of the COVID-19 pandemic, these responses should also be considered in the context of other global and Canadian issues that arose over the course of this survey (Question 4, Annex A [Cannot find any annexes]). [pp. 21-22]

Interesting to read (although I seem to have stumbled onto the report early as it’s no longer available as of October 13, 2023 at 10:10 am PT) from the “Survey of Parliamentarians: Impact of the COVID-19 pandemic on the use of science in policymaking” CSPC webpage.

As for funky, I think you need to be really clear that you’re aware your report can readily be seen as self-serving and note what steps you’ve taken to address the issue.

Symposium on “Enabling the Nanotechnology Revolution” on October 10, 2023, in-person in Washington, DC or virtual

It’s the 20th anniversary of the US National Nanotechnology Initiative (NNI) and, now, scientists and policymakers will be celebrating and analyzing the results on October 10, 2023 according to a September 18, 2023 post on the JD Supra Nano and Other Emerging Chemical Technologies blog, Note: A link has been removed,

On October 10, 2023, the National Nanotechnology Coordination Office (NNCO) will host a symposium entitled “Enabling the Nanotechnology Revolution: Celebrating the 20th Anniversary of the 21st Century Nanotechnology Research and Development Act” at the National Academies of Sciences, Engineering, and Medicine. Experts will address the importance of nanotechnology in microelectronics, optics, advanced polymers, quantum engineering, medicine, education, manufacturing, and more. Discussions will also focus on the environmental, health, and safety implications of nanomaterials, as well as the National Nanotechnology Initiative (NNI) community’s efforts around inclusion, diversity, equity, and access.

You can register and find more information on the National Nanotechnology Initiative (NNI) anniversary symposium webpage, Note: A link has been removed,

Scientists and engineers across many fields and disciplines are united by their work at the nanoscale. Their diverse efforts have helped produce everything from faster microchips to powerful mRNA vaccines. The transformative impact of this work has been spurred by the coordination and focus on U.S. nanotechnology established by the 21st Century Nanotechnology Research and Development Act in 2003. Celebrating such a broad impact and envisioning the future can be quite challenging, but this event will bring together voices from across the emerging technology landscape. There will be experts who can speak on the importance of nanotechnology in quantum engineering, optics, EHS, plastics, DEIA, microelectronics, medicine, education, manufacturing, and more. We can’t predict what will emerge from this lively discussion between researchers, policymakers, members of industry, educators, and the public, but the conversation can only benefit from including more diverse perspectives – especially yours.

You have the option of registering in-person attendance or for virtual attendance.

Here’s the:

AGENDA

9:00-9:05   Welcome and Introduction

9:05-9:30   Opening Remarks on the NNI

9:30-10:15  Morning Keynote

10:15-10:30  Coffee Break

10:30-11:15  Panel: Responsible Development

11:15-12:00  Panel: Fundamental Research

12:00-1:00  Lunch and Networking

1:00-1:45  Keynote Panel: The Future of Nanotechnology

1:45-2:30  Panel: Workforce Development

2:30-2:45  Break

2:45-3:30  Panel: Infrastructure

3:30-4:15  Panel: Commercialization

4:15-5:00  Closing Keynote

Reception to follow

If you’re curious about the panelists and speakers, you will find a list with pictures and links to profile pages on the NNI’s anniversary symposium webpage.

Comments on today’s (September 20, 2023) media briefing for the US National Science Foundation’s (NSF) inaugural Global Centers Competition awards

I almost missed the briefing but the folks at the US National Science Foundation (NSF) kindly allowed me to join the meeting despite being 10 minutes late. Before launching into my comments, here’s what we were discussing,

From a September 20, 2023 NSF media briefing (received via email),

U. S. National Science Foundation Media Briefing on the Inaugural Global Centers Awards  

Please join the U.S. National Science Foundation this Wednesday September 20th from 12:30 – 1:30 p.m. EST for a discussion and Q&A on the inaugural Global Centers Competition awards. Earlier this week, NSF along with partner funding agencies from Australia, Canada, and the United Kingdom — announced awards totaling $76.4 million for the inaugural Global Centers Competition. These international, interdisciplinary collaborative research centers will apply best practices of broadening participation and community engagement to develop use-inspired research on climate change and clean energy. The centers will also create and promote opportunities for students and early-career researchers to gain education and training in world-class research while enhancing diversity, equity, inclusion, and accessibility.

NSF will have a panel of experts on hand to discuss and answer questions about these new Global Centers and how they will sync talent across the globe to generate the discoveries and solutions needed to empower resilient communities everywhere.

What: Panel discussion and Q&A on NSF’s Global Centers

When: 12:30 – 1:30 p.m. EST, Wednesday, September 20th, 2023

Where: This briefing [is over.]

Who: Scheduled panelists include…

Anne Emig is the Section Chief for the Programs and Analysis Section in the National Science Foundation Office of International Science and Engineering

Dr. Tanya Berger-Wolf is the Principal Investigator for the Global Centers Track 1 project on AI and Biodiversity Change as well as the Director of the Translational Data Analytics Institute and a Professor of Computer Science Engineering, Electrical and Computer Engineering, as well as Evolution, Ecology, and Organismal Biology at the Ohio State University

Dr. Meng Tao is the Principal Investigator for the Global Centers Track 1 project Global Hydrogen Production Technologies Center as well as a Professor, School of Electrical, Computer and Energy Engineering at Arizona State University

Dr. Ashish Sharma is the Principal Investigator for the Global Centers Track 1 project Clean Energy and Equitable Transportation Solutions as well as the Climate and Urban Sustainability Lead at the Discovery Partners Institute, University of Illinois System

Note: This briefing is only open to members of the media

I’m glad to have learned about this effort and applaud the NSF for its outreach efforts. By comparison, Canadian agencies (I’m looking at you, Natural Sciences and Engineering Council of Canada [NSERC] and Social Science and Humanities Research Council of Canada [SSHRC]) have a lot to learn.

There’s a little more about the Global Centers Competition awards in a September 18, 2023 NSF news release,

Today [September 18, 2023], the U.S. National Science Foundation — along with partner funding agencies from Australia, Canada, and the United Kingdom — announced awards totaling $76.4 million for the inaugural Global Centers Competition. These international, interdisciplinary collaborative research centers will apply best practices of broadening participation and community engagement to develop use-inspired research on climate change and clean energy. The centers will also create and promote opportunities for students and early-career researchers to gain education and training in world-class research while enhancing diversity, equity, inclusion, and accessibility.

“NSF builds capacity and advances its priorities through these centers of research excellence by uniting diverse teams from around the world,” said NSF Director Sethuraman Panchanathan. “Global Centers will sync talent across the globe to generate the discoveries and solutions needed to empower resilient communities everywhere.”

Global Centers are sponsored in part by a multilateral funding activity led by NSF and four partner funding organizations: Australia’s Commonwealth Scientific and Industrial Research Organization (CSIRO), Canada’s Natural Sciences and Engineering Research Council (NSERC) and Social Science and Humanities Research Council (SSHRC), and the United Kingdom’s UK Research and Innovation (UKRI).

Both collectively and independently, the centers will support convergent interdisciplinary research collaborations focused on assessing and mitigating the impacts of climate change on society, people, and communities. Outcomes from Global Centers’ activities will inform and catalyze the development of innovative solutions and technologies to address climate change. Examples include: enhancing awareness of critical information; advancing and advocating for decarbonization efforts; creating climate change adaptation plans tailored to specific localities and groups; using artificial intelligence to study responses of nature to climate change; transboundary water issues; and scaling the production of next-generation technologies aimed at achieving net zero. Several projects include partnerships with tribal groups or historically Black colleges and universities that will broaden participation.

“The National Science Foundation Global Centres initiative provides students and researchers a platform to advance innovative and interdisciplinary research and gain education and training opportunities in world-class research while also enhancing diversity, equity, inclusion and accessibility,” said NSERC President Alejandro Adem. “We at NSERC look forward to seeing the outcomes of the work being done by some of Canada and the world’s best and brightest minds to tackle one of the biggest issues of our time.”

The awards are divided into two tracks. Track 1 are Implementation grants with co-funding from international partners. Track 2 are Design grants meant to provide seed funding to develop the teams and the science for future competitions. Many additional countries are involved in Track 2 and will increase global engagement.

There are seven Track 1 Global Centers that involve research partnerships with Australia, Canada, and the U.K. Each Track 1 Global Center will be implemented by internationally dispersed teams consisting of U.S. and foreign researchers. U.S. researchers will be supported by NSF up to $5 million over four to five years, while foreign researchers will be supported by their respective country’s funding agency (CSIRO, NSERC, SSHRC and UKRI) with a comparable amount of funds.

There are 14 Track 2 Global Centers that are at the community-driven design stage. These centers’ teams involve U.S. researchers in partnerships with foreign researchers from any country. NSF will provide the U.S. researchers up to $250,000 of seed funding over a two-year period. These multidisciplinary, international teams will coordinate the research and education efforts needed to become competitive for Track-1 funding in the future.

“Our combined investment in Global Centers enables exciting researcher and innovation-led international and interdisciplinary collaboration to drive the energy transition,” said UKRI CEO, Dame Ottoline Leyser. “I look forward to seeing the creative solutions developed through these global collaborations.”

Kirsten Rose, Acting Chief Executive of CSIRO, said as Australia’s national science agency, CSIRO is proud to be part of a strong national contribution to solving this critical global challenge. “Partnering with the NSF’s Global Centers means Australia remains at the global forefront of work to build a clean hydrogen industry, build integrated and equitable energy systems, and partnering with regions and industries for a low emissions future.”

Track 1 (Implementation)

  • Global Hydrogen Production Technologies (HyPT) Center
    Grant number: 2330525
    Arizona State University and U.S. partner institutions: University of Michigan, Stanford University and Navajo Technical University.
    Quadrilateral research partnership with Australia, Canada, and the U.K.
    Critical and Emerging Tech: green hydrogen (renewable energy generation).
     
  • Electric Power Innovation for a Carbon-free Society (EPICS)
    Grant number: 2330450
    The Johns Hopkins University and U.S. partner institutions: Georgia Institute of Technology, University of California, Davis, and Resources for the Future.
    Trilateral research partnership with Australia and the U.K.
    Critical and Emerging Tech: renewable energy storage.
     
  • Global Nitrogen Innovation Center for Clean Energy and Environment (NICCEE)
    Grant number: 2330502
    University of Maryland Center for Environmental Sciences and U.S. partner institutions: New York University and University of Massachusetts Amherst.
    Trilateral research partnership with Canada and the U.K.
    Critical & Emerging Tech: green ammonia (bioeconomy + agriculture).
     
  • Understanding Climate Change Impacts on Transboundary Waters
    Grant number: 2330317
    University of Michigan and U.S. partner institutions: Cornell University, College of the Menominee Nation, Red Lake Nation and University of Wisconsin–Madison.
    Bilateral research partnership with Canada.
    Critical and Emerging Tech: N/A.
     
  • AI and Biodiversity Change (ABC)
    Grant number: 2330423 
    The Ohio State University and U.S. partner institutions: University of Pittsburgh and Massachusetts Institute of Technology.
    Bilateral Research partnership with Canada.
    Critical and Emerging Tech: AI.
     
  • U.S.-Canada Center on Climate-Resilient Western Interconnected Grid
    Grant number: 2330582                
    The University of Utah and U.S. partner institutions: University of California San Diego, The University of New Mexico, and The Nevada System of Higher Education.     
    Bilateral Research partnership with Canada.
    Critical and Emerging Tech: AI.
     
  • Clean Energy and Equitable Transportation Solutions
    Grant number: 2330565
    University of Illinois at Urbana-Champaign and U.S. partner institutions: University Corporation for Atmospheric Research and Arizona State University.
    Bilateral Research partnership with the U.K.
    Critical and Emerging Tech: N/A
     

Track 2 (Design)

  • Developing Solutions to Decarbonize Emissions and Fuels
    Grant number: 2330509              
    University of Maryland, College Park.
    International collaboration with Japan, Israel, and Ghana.             
     
  • Enhanced Wind Turbine Blade Durability
    Grant number: 2329911              
    Cornell University.
    International collaboration with Canada, the UK, Norway, Denmark, and Spain.
     
  • Building the Global Center for Forecasting Freshwater Futures
    Grant number: 2330211
    Virginia Tech.
    International collaboration with Australia.
     
  • Climate Risk and Resilience: Southeast Asia as a Living Lab (SEALL)
    Grant number: 2330308
    University of Illinois at Urbana-Champaign.
    International collaboration with Vietnam, Thailand, Singapore, and India.
     
  • Climate-Smart Food-Energy-Water Nexus in Small Farms
    Grant number: 2330505              
    The University of Tennessee Institute of Agriculture.        
    International collaboration with Argentina, Brazil, Guatemala, Panama, Cambodia, and Uganda.
     
  • Center for Household Energy and Thermal Resilience (HEaTR)
    Grant number: 2330533              
    Cornell University.
    International collaboration with India, the U.K, Ghana, and Singapore.
     
  • Enabling interdisciplinary wildfire research for community resilience
    Grant number: 2330343              
    Oregon State University.
    International collaborations with Australia and the U.K.
     
  • SuReMin: Sustainable, resilient, responsible global minerals supply chain
    Grant number: 2330041              
    Northwestern University.
    International collaboration with Chile.
     
  • Nature-based Urban Hydrology Center
    Grant number: 2330413              
    Villanova University.
    International collaboration with Canada, the U.K, Switzerland, Ireland, Australia, Chile, and Turkey.
     
  • A multi-disciplinary framework to combat climate-induced desert locust upsurges, outbreaks, and plagues in East Africa
    Grand number: 2330452
    Georgia State University.
    International collaboration with Ethiopia.
     
  • US-Africa Research Center for Clean Energy
    Grant number: 2330437
    Georgia Institute of Technology.
    International collaborations with Rwanda.
     
  • Equitable and User-Centric Energy Market for Resilient Grid-interactive Communities
    Grant number: 2330504
    Santa Clara University.
    International collaboration with Canada.
     
  • Energy Sovereignty for Indigenous Peoples (ESIP)
    Grant number: 2330387
    University of North Dakota.
    International collaboration with Canada.
     
  • Blue Climate Solutions
    Grant number: 2330518              
    University of Rhode Island.
    International collaboration with Indonesia.

For Canadian researchers who are interested, there’s a National Science Foundation Global Centres webpage on the NSERC website, which answers a lot of questions about the programme from a Canadian perspective. The application deadline for both tracks was May 10, 2023 and there’s no information (as of September 20, 2023) about future competitions. Nice to see the social science and humanities included in the form of a funding agency. (I think this might be the one compliment I deliver to a Canadian funding initiative this year. 🙂

For American researchers, there’s the NSF’s Global Centers webpage; for UK researchers, there’s the United Kingdom’s Research and Innovation’s Global Centres in clean energy and climate change webpage; and for Australian researchers, there’s the CSIRO’s National Science Foundation Global Centers webpage. Application deadlines have passed for all of these competitions and there’s no information (as of September 20, 2023) about future competitions.

A few comments

News about local and international affairs (see Seth Borenstein’s September 20, 2023 Associated Press article “UN chief warns of ‘gates of hell’ in climate summit, but carbon polluting nations stay silent”) and one’s own personal experience with climate issues can be discouraging at times so it’s heartening to see these efforts. Kudos to the organizers of the Global Centers programme and I wish all the researchers success.

Given how new these centers are, it’s understandable that the panelists would be a little fuzzy about specific although they’ve clearly considered and are attempting to address issues such as sharing data, trust, and outreach to various stakeholders and communities.

I wish I’d asked about cybersecurity when they were talking about data. Ah well, there was my question about outreach to people over the age of 50 or 55 as so much of their planning was focused on youth. The panelists who responded (Dr. Tanya Berger-Wolf, Dr. Meng Tao, and Dr. Ashish Sharma) did not seem to have done much thinking about seniors/elders/older people.

I believe bird watching (as mentioned by one of the panelists) does tend to attract older people but citizen science or other hobbies/programmes mentioned may or may not be a good source for seniors outreach. Almost all science outreach tilts to youth including citizen science.

With the planet is not doing so well and with the aging populations in Canada, the US, many European countries, China, Japan, and I’m sure many others perhaps some new thinking about ‘inclusivity’ might be in order. One suggestion, start thinking about age groups. In the same way that 20 is not 30, is not 40, so 55 is not 65, is not 75. One more thing, perhaps take into account life experience. Something that gets forgotten is that a lot of the programmes that people take for granted and a lot of the technology people use today was developed in the 1960s (e.g. Internet). That old person? Maybe it’s someone who founded the UN’s Environment Program (I was teaching a nanotechnology course in a seniors programme and asked students about themselves; I was intimidated by her credentials).

In the end, this Global Center initiative is heartening news.

Register for Science Meets (Canadian) Parliament by October 11, 2023—Virtual information session on September 19, 2023

A September 14, 2023 announcement (received via email) from the Canadian Science Policy Centre includes an invitation to sign up for the 2024 edition of their Science Meets Parliament (SMP) programme, here’s more about the programme from the announcement,

Science Meets Parliament (SMP) is a program that works to strengthen the connections between the science and policy communities. This program is open to Tier II Canada Research Chairs, Indigenous Principal Investigators, and Banting Postdoctoral Fellows. …

This seems a little underwhelming as a description; thankfully, there’s a little more on the Canadian Science Policy Centre’s SMP webpage,

The Canadian Science Policy Centre (CSPC) and the Office of the Chief Science Advisor (OCSA) are pleased to announce that registration is open for the 2024 edition of Science Meets Parliament!

This program is scheduled to take place in Ottawa on May 6th and 7th 2024, subject to Parliament being in session and in person.

The objective of this initiative is to strengthen the connections between Canada’s scientific and political communities, enable a two-way dialogue, and promote mutual understanding. This initiative aims to help scientists become familiar with policy making at the political level, and for parliamentarians to explore using scientific evidence in policy making. This initiative is not meant to be an advocacy exercise, and will not include any discussion of science funding or other forms of advocacy.

The Science Meets Parliament model is adapted from the successful Australian program held annually since 1999. Similar initiatives exist in the EU, the UK and Spain.

CSPC’s program aims to benefit the parliamentarians, the scientific community and, indirectly, the Canadian public.

For anyone who likes to ‘kick the tires before buying’, there’s an information session (from the announcement),

A virtual information session will be held for all interested parties on September 19th [2023], from 11:30-12:30 pm ET [8:30 – 9:30 am PT]. To register for the SMP 2024 Virtual Information Session, click here. 

Finally (from the announcement),

The deadline to apply for this program is October 11, 2023. To apply, click here.

Good luck!

Synthetic human embryos—what now? (2 of 2)

The term they’re using in the Weizmann Institute of Science’s (Israel) announcement is “a generally accurate human embryo model.” This is in contrast to previous announcements including the one from the University of Cambridge team highlighted in Part 1.

From a September 6, 2023 news item on phys.org, Note: A link has been removed,

A research team headed by Prof. Jacob Hanna at the Weizmann Institute of Science has created complete models of human embryos from stem cells cultured in the lab—and managed to grow them outside the womb up to day 14. As reported today [September 6, 2023] in Nature, these synthetic embryo models had all the structures and compartments characteristic of this stage, including the placenta, yolk sac, chorionic sac and other external tissues that ensure the models’ dynamic and adequate growth.

Cellular aggregates derived from human stem cells in previous studies could not be considered genuinely accurate human embryo models, because they lacked nearly all the defining hallmarks of a post-implantation embryo. In particular, they failed to contain several cell types that are essential to the embryo’s development, such as those that form the placenta and the chorionic sac. In addition, they did not have the structural organization characteristic of the embryo and revealed no dynamic ability to progress to the next developmental stage.

Given their authentic complexity, the human embryo models obtained by Hanna’s group may provide an unprecedented opportunity to shed new light on the embryo’s mysterious beginnings. Little is known about the early embryo because it is so difficult to study, for both ethical and technical reasons, yet its initial stages are crucial to its future development. During these stages, the clump of cells that implants itself in the womb on the seventh day of its existence becomes, within three to four weeks, a well-structured embryo that already contains all the body organs.

“The drama is in the first month, the remaining eight months of pregnancy are mainly lots of growth,” Hanna says. “But that first month is still largely a black box. Our stem cell–derived human embryo model offers an ethical and accessible way of peering into this box. It closely mimics the development of a real human embryo, particularly the emergence of its exquisitely fine architecture.”

A stem cell–derived human embryo model at a developmental stage equivalent to that of a day 14 embryo. The model has all the compartments that define this stage: the yolk sac (yellow) and the part that will become the embryo itself, topped by the amnion (blue) – all enveloped by cells that will become the placenta (pink) Courtesy: Weizmann Institute of Science

A September 6, 2023 Weizmann Institute of Science press release, which originated the news item, offers a wealth of detail, Note: Links have been removed,

Letting the embryo model say “Go!”

Hanna’s team built on their previous experience in creating synthetic stem cell–based models of mouse embryos. As in that research, the scientists made no use of fertilized eggs or a womb. Rather, they started out with human cells known as pluripotent stem cells, which have the potential to differentiate into many, though not all, cell types. Some were derived from adult skin cells that had been reverted to “stemness.” Others were the progeny of human stem cell lines that had been cultured for years in the lab.

The researchers then used Hanna’s recently developed method to reprogram pluripotent stem cells so as to turn the clock further back: to revert these cells to an even earlier state – known as the naïve state – in which they are capable of becoming anything, that is, specializing into any type of cell. This stage corresponds to day 7 of the natural human embryo, around the time it implants itself in the womb. Hanna’s team had in fact been the first to start describing methods to generate human naïve stem cells, back in 2013; they continued to improve these methods, which stand at the heart of the current project, over the years.

The scientists divided the cells into three groups. The cells intended to develop into the embryo were left as is. The cells in each of the other groups were treated only with chemicals, without any need for genetic modification, so as to turn on certain genes, which was intended to cause these cells to differentiate toward one of three tissue types needed to sustain the embryo: placenta, yolk sac or the extraembryonic mesoderm membrane that ultimately creates the chorionic sac.

Soon after being mixed together under optimized, specifically developed conditions, the cells formed clumps, about 1 percent of which self-organized into complete embryo-like structures. “An embryo is self-driven by definition; we don’t need to tell it what to do – we must only unleash its internally encoded potential,” Hanna says. “It’s critical to mix in the right kinds of cells at the beginning, which can only be derived from naïve stem cells that have no developmental restrictions. Once you do that, the embryo-like model itself says, ‘Go!’”

The stem cell–based embryo-like structures (termed SEMs) developed normally outside the womb for 8 days, reaching a developmental stage equivalent to day 14 in human embryonic development. That’s the point at which natural embryos acquire the internal structures that enable them to proceed to the next stage: developing the progenitors of body organs.

Complete human embryo models match classic diagrams in terms of structure and cell identity

When the researchers compared the inner organization of their stem cell–derived embryo models with illustrations and microscopic anatomy sections in classical embryology atlases from the 1960s, they found an uncanny structural resemblance between the models and the natural human embryos at the corresponding stage. Every compartment and supporting structure was not only there, but in the right place, size and shape. Even the cells that make the hormone used in pregnancy testing were there and active: When the scientists applied secretions from these cells to a commercial pregnancy test, it came out positive.

In fact, the study has already produced a finding that may open a new direction of research into early pregnancy failure. The researchers discovered that if the embryo is not enveloped by placenta-forming cells in the right manner at day 3 of the protocol (corresponding to day 10 in natural embryonic development), its internal structures, such as the yolk sac, fail to properly develop.

“An embryo is not static. It must have the right cells in the right organization, and it must be able to progress – it’s about being and becoming,” Hanna says. “Our complete embryo models will help researchers address the most basic questions about what determines its proper growth.”

This ethical approach to unlocking the mysteries of the very first stages of embryonic development could open numerous research paths. It might help reveal the causes of many birth defects and types of infertility. It could also lead to new technologies for growing transplant tissues and organs. And it could offer a way around experiments that cannot be performed on live embryos – for example, determining the effects of exposure to drugs or other substances on fetal development.

For people who are visually inclined, there are two videos embedded in the September 6, 2023 Weizmann Institute of Science press release.

Here’s a link to and a citation for the paper,

Complete human day 14 post-implantation embryo models from naïve ES cells by Bernardo Oldak, Emilie Wildschutz, Vladyslav Bondarenko, Mehmet-Yunus Comar, Cheng Zhao, Alejandro Aguilera-Castrejon, Shadi Tarazi, Sergey Viukov, Thi Xuan Ai Pham, Shahd Ashouokhi, Dmitry Lokshtanov, Francesco Roncato, Eitan Ariel, Max Rose, Nir Livnat, Tom Shani, Carine Joubran, Roni Cohen, Yoseph Addadi, Muriel Chemla, Merav Kedmi, Hadas Keren-Shaul, Vincent Pasque, Sophie Petropoulos, Fredrik Lanner, Noa Novershtern & Jacob H. Hanna. Nature (2023) DOI: https://doi.org/10.1038/s41586-023-06604-5 Published: 06 September 2023

This paper is behind a paywall.

As for the question I asked in the head “what now?” I have absolutely no idea.

Synthetic human embryos—what now? (1 of 2)

Usually, there’s a rough chronological order to how I introduce the research, but this time I’m looking at the term used to describe it, following up with the various news releases and commentaries about the research, and finishing with a Canadian perspective.

After writing this post (but before it was published), the Weizmann Institute of Science (Israel) made their September 6, 2023 announcement and things changed a bit. That’s in Part two.

Say what you really mean (a terminology issue)

First, it might be useful to investigate the term, ‘synthetic human embryos’ as Julian Hitchcock does in his June 29, 2023 article on Bristows website (h/t Mondaq’s July 5, 2023 news item), Note: Links have been removed,

Synthetic Embryos” are neither Synthetic nor Embryos. So why are editors giving that name to stem cell-based models of human development?

One of the less convincing aspects of the last fortnight’s flurry of announcements about advances in simulating early human development (see here) concerned their name. Headlines galore (in newspapers and scientific journals) referred to “synthetic embryos“.

But embryo models, however impressive, are not embryos. To claim that the fundamental stages of embryo development that we learnt at school – fertilisation, cleavage and compaction – could now be bypassed to achieve the same result would be wrong. Nor are these objects “synthesised”: indeed, their interest to us lies in the ways in which they organise themselves. The researchers merely place the stem cells in a matrix in appropriate conditions, then stand back and watch them do it. Scientists were therefore unhappy about this use of the term in news media, and relieved when the International Society for Stem Cell Research (ISSCR) stepped in with a press release:

“Unlike some recent media reports describing this research, the ISSCR advises against using the term “synthetic embryo” to describe embryo models, because it is inaccurate and can create confusion. Integrated embryo models are neither synthetic nor embryos. While these models can replicate aspects of the early-stage development of human embryos, they cannot and will not develop to the equivalent of postnatal stage humans. Further, the ISSCR Guidelines prohibit the transfer of any embryo model to the uterus of a human or an animal.”

Although this was the ISSCR’s first attempt to put that position to the public, it had already made that recommendation to the research community two years previously. Its 2021 Guidelines for Stem Cell Research and Clinical Translation had recommended researchers to “promote accurate, current, balanced, and responsive public representations of stem cell research”. In particular:

“While organoids, chimeras, embryo models, and other stem cell-based models are useful research tools offering possibilities for further scientific progress, limitations on the current state of scientific knowledge and regulatory constraints must be clearly explained in any communications with the public or media. Suggestions that any of the current in vitro models can recapitulate an intact embryo, human sentience or integrated brain function are unfounded overstatements that should be avoided and contradicted with more precise characterizations of current understanding.”

Here’s a little bit about Hitchcock from his Bristows profile page,

  • Diploma Medical School, University of Birmingham (1975-78)
  • LLB, University of Wolverhampton
  • Diploma in Intellectual Property Law & Practice, University of Bristol
  • Qualified 1998

Following an education in medicine at the University of Birmingham and a career as a BBC science producer, Julian has focused on the law and regulation of life science technologies since 1997, practising in England and Australia. He joined Bristows with Alex Denoon in 2018.

Hitchcock’s June 29, 2023 article comments on why this term is being used,

I have a lot of sympathy with the position of the science writers and editors incurring the scientists’ ire. First, why should journalists have known of the ISSCR’s recommendations on the use of the term “synthetic embryo”? A journalist who found Recommendation 4.1 of the ISSCR Guidelines would probably not have found them specific enough to address the point, and the academic introduction containing the missing detail is hard to find. …

My second reason for being sympathetic to the use of the terrible term is that no suitable alternative has been provided, other than in the Stem Cell Reports paper, which recommends the umbrella terms “embryo models” or “stem cell based embryo models”. …

When asked why she had used the term “synthetic embryo”, the journalist I contacted remarked that, “We’re still working out the right language and it’s something we’re discussing and will no doubt evolve along with the science”.

It is absolutely in the public’s interest (and in the interest of science), that scientific research is explained in terms that the public understands. There is, therefore, a need, I think, for the scientific community to supply a name to the media or endure the penalties of misinformation …

In such an intensely competitive field of research, disagreement among researchers, even as to names, is inevitable. In consequence, however, journalists and their audiences are confronted by a slew of terms which may or may not be synonymous or overlapping, with no agreed term [emphasis mine] for the overall class of stem cell based embryo models. We cannot blame them if they make up snappy titles of their own [emphasis mine]. …

The announcement

The earliest date for the announcement at the International Society for Stem Cell Researh meeting that I can find is Hannah Devlin’s June 14, 2023 article in The Guardian newspaper, Note: A link has been removed,

Scientists have created synthetic human embryos using stem cells, in a groundbreaking advance that sidesteps the need for eggs or sperm.

Scientists say these model embryos, which resemble those in the earliest stages of human development, could provide a crucial window on the impact of genetic disorders and the biological causes of recurrent miscarriage.

However, the work also raises serious ethical and legal issues as the lab-grown entities fall outside current legislation in the UK and most other countries.

The structures do not have a beating heart or the beginnings of a brain, but include cells that would typically go on to form the placenta, yolk sac and the embryo itself.

Prof Magdalena Żernicka-Goetz, of the University of Cambridge and the California Institute of Technology, described the work in a plenary address on Wednesday [June 14, 2023] at the International Society for Stem Cell Research’s annual meeting in Boston.

The (UK) Science Media Centre made expert comments available in a June 14, 2023 posting “expert reaction to Guardian reporting news of creation of synthetic embryos using stem cells.”

Two days later, this June 16, 2023 essay by Kathryn MacKay, Senior Lecturer in Bioethics, University of Sydney (Australia), appeared on The Conversation (h/t June 16, 2023 news item on phys.org), Note: Links have been removed,

Researchers have created synthetic human embryos using stem cells, according to media reports. Remarkably, these embryos have reportedly been created from embryonic stem cells, meaning they do not require sperm and ova.

This development, widely described as a breakthrough that could help scientists learn more about human development and genetic disorders, was revealed this week in Boston at the annual meeting of the International Society for Stem Cell Research.

The research, announced by Professor Magdalena Żernicka-Goetz of the University of Cambridge and the California Institute of Technology, has not yet been published in a peer-reviewed journal. But Żernicka-Goetz told the meeting these human-like embryos had been made by reprogramming human embryonic stem cells.

So what does all this mean for science, and what ethical issues does it present?

MacKay goes on to answer her own questions, from the June 16, 2023 essay, Note: A link has been removed,

One of these quandaries arises around whether their creation really gets us away from the use of human embryos.

Robin Lovell-Badge, the head of stem cell biology and developmental genetics at the Francis Crick Institute in London UK, reportedly said that if these human-like embryos can really model human development in the early stages of pregnancy, then we will not have to use human embryos for research.

At the moment, it is unclear if this is the case for two reasons.

First, the embryos were created from human embryonic stem cells, so it seems they do still need human embryos for their creation. Perhaps more light will be shed on this when Żernicka-Goetz’s research is published.

Second, there are questions about the extent to which these human-like embryos really can model human development.

Professor Magdalena Żernicka-Goetz’s research is published

Almost two weeks later the research from the Cambridge team (there are other teams and countries also racing; see Part two for the news from Sept. 6, 2023) was published, from a June 27, 2023 news item on ScienceDaily,

Cambridge scientists have created a stem cell-derived model of the human embryo in the lab by reprogramming human stem cells. The breakthrough could help research into genetic disorders and in understanding why and how pregnancies fail.

Published today [Tuesday, June 27, 2023] in the journal Nature, this embryo model is an organised three-dimensional structure derived from pluripotent stem cells that replicate some developmental processes that occur in early human embryos.

Use of such models allows experimental modelling of embryonic development during the second week of pregnancy. They can help researchers gain basic knowledge of the developmental origins of organs and specialised cells such as sperm and eggs, and facilitate understanding of early pregnancy loss.

A June 27, 2023 University of Cambridge press release (also on EurekAlert), which originated the news item, provides more detail about the work,

“Our human embryo-like model, created entirely from human stem cells, gives us access to the developing structure at a stage that is normally hidden from us due to the implantation of the tiny embryo into the mother’s womb,” said Professor Magdalena Zernicka-Goetz in the University of Cambridge’s Department of Physiology, Development and Neuroscience, who led the work.

She added: “This exciting development allows us to manipulate genes to understand their developmental roles in a model system. This will let us test the function of specific factors, which is difficult to do in the natural embryo.”

In natural human development, the second week of development is an important time when the embryo implants into the uterus. This is the time when many pregnancies are lost.

The new advance enables scientists to peer into the mysterious ‘black box’ period of human development – usually following implantation of the embryo in the uterus – to observe processes never directly observed before.

Understanding these early developmental processes holds the potential to reveal some of the causes of human birth defects and diseases, and to develop tests for these in pregnant women.

Until now, the processes could only be observed in animal models, using cells from zebrafish and mice, for example.

Legal restrictions in the UK currently prevent the culture of natural human embryos in the lab beyond day 14 of development: this time limit was set to correspond to the stage where the embryo can no longer form a twin. [emphasis mine]

Until now, scientists have only been able to study this period of human development using donated human embryos. This advance could reduce the need for donated human embryos in research.

Zernicka-Goetz says the while these models can mimic aspects of the development of human embryos, they cannot and will not develop to the equivalent of postnatal stage humans.

Over the past decade, Zernicka-Goetz’s group in Cambridge has been studying the earliest stages of pregnancy, in order to understand why some pregnancies fail and some succeed.

In 2021 and then in 2022 her team announced in Developmental Cell, Nature and Cell Stem Cell journals that they had finally created model embryos from mouse stem cells that can develop to form a brain-like structure, a beating heart, and the foundations of all other organs of the body.

The new models derived from human stem cells do not have a brain or beating heart, but they include cells that would typically go on to form the embryo, placenta and yolk sac, and develop to form the precursors of germ cells (that will form sperm and eggs).

Many pregnancies fail at the point when these three types of cells orchestrate implantation into the uterus begin to send mechanical and chemical signals to each other, which tell the embryo how to develop properly.

There are clear regulations governing stem cell-based models of human embryos and all researchers doing embryo modelling work must first be approved by ethics committees. Journals require proof of this ethics review before they accept scientific papers for publication. Zernicka-Goetz’s laboratory holds these approvals.

“It is against the law and FDA regulations to transfer any embryo-like models into a woman for reproductive aims. These are highly manipulated human cells and their attempted reproductive use would be extremely dangerous,” said Dr Insoo Hyun, Director of the Center for Life Sciences and Public Learning at Boston’s Museum of Science and a member of Harvard Medical School’s Center for Bioethics.

Zernicka-Goetz also holds position at the California Institute of Technology and is NOMIS Distinguished Scientist and Scholar Awardee.

The research was funded by the Wellcome Trust and Open Philanthropy.

(There’s more about legal concerns further down in this post.)

Here’s a link to and a citation for the paper,

Pluripotent stem cell-derived model of the post-implantation human embryo by Bailey A. T. Weatherbee, Carlos W. Gantner, Lisa K. Iwamoto-Stohl, Riza M. Daza, Nobuhiko Hamazaki, Jay Shendure & Magdalena Zernicka-Goetz. Nature (2023) DOI: https://doi.org/10.1038/s41586-023-06368-y Published: 27 June 2023

This paper is open access.

Published the same day (June 27, 2023) is a paper (citation and link follow) also focused on studying human embryonic development using stem cells. First, there’s this from the Abstract,

Investigating human development is a substantial scientific challenge due to the technical and ethical limitations of working with embryonic samples. In the face of these difficulties, stem cells have provided an alternative to experimentally model inaccessible stages of human development in vitro …

This time the work is from a US/German team,

Self-patterning of human stem cells into post-implantation lineages by Monique Pedroza, Seher Ipek Gassaloglu, Nicolas Dias, Liangwen Zhong, Tien-Chi Jason Hou, Helene Kretzmer, Zachary D. Smith & Berna Sozen. Nature (2023) DOI: https://doi.org/10.1038/s41586-023-06354-4 Published: 27 June 2023

The paper is open access.

Legal concerns and a Canadian focus

A July 25, 2023 essay by Françoise Baylis and Jocelyn Downie of Dalhousie University (Nova Scotia, Canada) for The Conversation (h/t July 25, 2023 article on phys.org) covers the advantages of doing this work before launching into a discussion of legislation and limits in the UK and, more extensively, in Canada, Note: Links have been removed,

This research could increase our understanding of human development and genetic disorders, help us learn how to prevent early miscarriages, lead to improvements in fertility treatment, and — perhaps — eventually allow for reproduction without using sperm and eggs.

Synthetic human embryos — also called embryoid bodies, embryo-like structures or embryo models — mimic the development of “natural human embryos,” those created by fertilization. Synthetic human embryos include the “cells that would typically go on to form the embryo, placenta and yolk sac, and develop to form the precursors of germ cells (that will form sperm and eggs).”

Though research involving natural human embryos is legal in many jurisdictions, it remains controversial. For some people, research involving synthetic human embryos is less controversial because these embryos cannot “develop to the equivalent of postnatal stage humans.” In other words, these embryos are non-viable and cannot result in live births.

Now, for a closer look at the legalities in the UK and in Canada, from the July 25, 2023 essay, Note: Links have been removed,

The research presented by Żernicka-Goetz at the ISSCR meeting took place in the United Kingdom. It was conducted in accordance with the Human Fertilization and Embryology Act, 1990, with the approval of the U.K. Stem Cell Bank Steering Committee.

U.K. law limits the research use of human embryos to 14 days of development. An embryo is defined as “a live human embryo where fertilisation is complete, and references to an embryo include an egg in the process of fertilisation.”

Synthetic embryos are not created by fertilization and therefore, by definition, the 14-day limit on human embryo research does not apply to them. This means that synthetic human embryo research beyond 14 days can proceed in the U.K.

The door to the touted potential benefits — and ethical controversies — seems wide open in the U.K.

While the law in the U.K. does not apply to synthetic human embryos, the law in Canada clearly does. This is because the legal definition of an embryo in Canada is not limited to embryos created by fertilization [emphasis mine].

The Assisted Human Reproduction Act (the AHR Act) defines an embryo as “a human organism during the first 56 days of its development following fertilization or creation, excluding any time during which its development has been suspended.”

Based on this definition, the AHR Act applies to embryos created by reprogramming human embryonic stem cells — in other words, synthetic human embryos — provided such embryos qualify as human organisms.

A synthetic human embryo is a human organism. It is of the species Homo sapiens, and is thus human. It also qualifies as an organism — a life form — alongside other organisms created by means of fertilization, asexual reproduction, parthenogenesis or cloning.

Given that the AHR Act applies to synthetic human embryos, there are legal limits on their creation and use in Canada.

First, human embryos — including synthetic human embryos – can only be created for the purposes of “creating a human being, improving or providing instruction in assisted reproduction procedures.”

Given the state of the science, it follows that synthetic human embryos could legally be created for the purpose of improving assisted reproduction procedures.

Second, “spare” or “excess” human embryos — including synthetic human embryos — originally created for one of the permitted purposes, but no longer wanted for this purpose, can be used for research. This research must be done in accordance with the consent regulations which specify that consent must be for a “specific research project.”

Finally, all research involving human embryos — including synthetic human embryos — is subject to the 14-day rule. The law stipulates that: “No person shall knowingly… maintain an embryo outside the body of a female person after the fourteenth day of its development following fertilization or creation, excluding any time during which its development has been suspended.”

Putting this all together, the creation of synthetic embryos for improving assisted human reproduction procedures is permitted, as is research using “spare” or “excess” synthetic embryos originally created for this purpose — provided there is specific consent and the research does not exceed 14 days.

This means that while synthetic human embryos may be useful for limited research on pre-implantation embryo development, they are not available in Canada for research on post-implantation embryo development beyond 14 days.

The authors close with this comment about the prospects for expanding Canada’s14-day limit, from the July 25, 2023 essay,

… any argument will have to overcome the political reality that the federal government is unlikely to open up the Pandora’s box of amending the AHR Act.

It therefore seems likely that synthetic human embryo research will remain limited in Canada for the foreseeable future.

As mentioned, in September 2023 there was a new development. See: Part two.

Canadian Science Policy Centre panel on Sept. 6, 2023 [date changed to October 4, 2023]: Science, technology and innovation (STI) between Brazil and Canada plus a quantum panel on Sept. 13, 2023

In an August 17, 2023 Canadian Science Policy Centre (CSPC) newsletter (received via email), they’ve announced a panel about science and technology opportunities with a country we don’t usually talk about much in that context (nice to see a broader, not the US and not a European or Commonwealth country, approach being taken),

Canada-Brazil Cooperation and Collaboration in STI [Science, Technology, and Innovation]

This virtual panel aims to discuss the ongoing Science, Technology, and Innovation (STI) cooperation between Brazil and Canada, along with the potential for furthering this relationship. The focus will encompass strategic areas of contact, ongoing projects, and scholarship opportunities. It is pertinent to reflect on the science diplomacy efforts of each country and their reciprocal influence. Additionally, the panel aims to explore how Canada engages with developing countries in terms of STI.

Click the button below to register for the upcoming virtual panel!

Register Here

Date: Sept. 6 [2023] October 4, 2023
Time: 1:00 pm EDT

Here are the speakers (from the CSPC’s Canada-Brazil Cooperation and Collaboration in STI event page),

Fernanda de Negri
Moderator
Director of Studies and Sectoral Policies of Innovation, Regulation and Infrastructure at the Institute for Applied Economic Research (IPEA), Brazil
See Bio

Alejandro Adem
President of Natural Sciences and Engineering Research Council of Canada – NSERC
See Bio

Ambassador Emmanuel Kamarianakis
Canadian Embassy in Canada
See Bio

Ambassador Ademar Seabra da Cruz Jr.
Ministry of Foreign Affairs, Brazil
See Bio

If you haven’t gotten your fill of virtual science policy panels yet, there’s this one on quantum technologies, from the August 17, 2023 Canadian Science Policy Centre (CSPC) newsletter,

Canada’s Quantum Strategy and International Collaboration

Countries are investing heavily in quantum computing and other quantum technologies. As Canada has recently released its Quantum Strategy [Note: There is also report on Quantum Technologies expected from the Canadian Council of Academies, no release date yet], this is an opportunity to foster further international collaborations. Panelists will discuss the opportunities and challenges Canada will be facing and what this could mean for Canada’s leadership in quantum research and the development of quantum technologies.

Click the button below to register for the upcoming virtual panel!

Register Here

Date: Sep 13 [2023]
Time: 1:00 pm EDT

Here’s some information about the panel participants, from the CSPC’s Canada’s Quantum Strategy and International Collaboration event page,

Dr. Sarah Burke
Associate Professor, University of British Columbia
See Bio

Dr. Aimee K. Gunther
Deputy Director, Quantum Sensors Challenge Program, National Research Council Canada
See Bio

Prof. Andrea Damascelli
Scientific Director, Stewart Blusson Quantum Matter Institute | Professor, Physics and Astronomy | Canada Research Chair in the Electronic Structure of Quantum Materials
See Bio

Nick Werstiuk
CEO, Quantum Valley Ideas Lab
See Bio

Eric Miller
Fellow, Canadian Global Affairs Institute
See Bio

Ms. Alexandra Daoud
Moderator
Vice President, Intellectual Property at Anyon Systems
See Bio

Interestingly, the moderator, Alexandra Daoud, is a patent agent.

As for the Council of Canadian Academies, you can find out about the proposed report on Quantum Technologies here.