What are Maggie Hope Braun and Gather 2030 up to Now? by Shirley Dolan

As some of you may know, Maggie Hope Braun and Gather 2030, have been crusading to Kick ICLEI out of municipal governments (KICLEI). In other words, they hope to remove United Nations influence from local government. And they are having some success. Maggie Hope Braun will be a guest speaker at our October 5 OLA AGM in Cobourg. She will be speaking after lunch. I encourage you to go and hear what Maggie has to say.

Here is a sample of the work Gather2030 is doing. Visit KICLEI for more information.

Title: The Hidden Costs of Lithium: Safety, Ethics, and Financial Implications for Canadian Municipalities

September 27, 2024

Introduction

The recent incident in Montreal, where a container holding 15,000 kilograms of lithium batteries caught fire, highlights critical safety concerns surrounding lithium technology. The fire released a noxious cloud into the air, forcing residents to close their windows and stay indoors. Many residents reported difficulty breathing, describing the air as thick and filled with the smell of burning plastic. Despite these hazards, it took three hours for firefighters to begin warning people door-to-door, and the official city notice was only posted on social media around 7:00 p.m., four hours after the fire began (Global News, 2023). This incident raises serious questions about the safety protocols in place for storing and transporting hazardous materials like lithium batteries, as well as the adequacy of emergency response procedures.

Safety Concerns of Lithium Batteries

Lithium batteries, widely used in electric vehicles and portable electronics, are often promoted as a green alternative in the global energy transition. However, the potential for catastrophic failures cannot be ignored. The fire in Montreal sent harmful pollutants into the air, and dozens of firefighters in gas masks spent hours attempting to control the blaze. Residents complained of thick smoke and an inability to breathe, with many unaware of the severity of the situation until hours later (Global News, 2023). According to experts, lithium battery fires produce high levels of hazardous pollutants, posing serious health risks, particularly to vulnerable groups such as those with respiratory conditions like asthma.

Lithium’s volatility, particularly when exposed to high temperatures or physical damage, poses significant risks that must be managed through rigorous safety standards. Municipalities need to implement stringent storage and transportation regulations, along with emergency response protocols to handle incidents involving lithium fires. Furthermore, this case highlighted communication failures in emergency response, with many residents left unaware of the dangers for hours.

In addition to improving response times, municipalities must invest in specialized training and equipment for fire departments to manage the unique hazards posed by lithium battery fires. This could involve increasing funding for emergency services and upgrading local infrastructure to ensure that communities are adequately prepared for such incidents.

Ethical and Environmental Implications of Lithium and Cobalt Mining

Beyond safety concerns, the extraction of materials critical to lithium-ion batteries, including lithium and cobalt, raises significant ethical and environmental issues. A large portion of the world’s lithium and cobalt is mined in regions where labor standards are poor, with reports of child labor and unsafe working conditions. Amnesty International has documented the exploitation faced by workers in cobalt mining, particularly in the Democratic Republic of the Congo, where approximately 70% of the world’s cobalt is produced (Amnesty International, 2017).

In addition to these labor concerns, cobalt and lithium mining cause severe environmental damage. Cobalt mining, in particular, is known to produce hazardous tailings, which can contaminate local water supplies and soil, leading to long-term ecological degradation. Furthermore, both lithium and cobalt extraction are water-intensive processes that can deplete local water resources, particularly in arid regions. For example, lithium extraction in South America’s “Lithium Triangle” (Argentina, Chile, and Bolivia) has been linked to significant water shortages, affecting both the local population and ecosystems.

Cobalt mining also contributes to carbon emissions due to the energy-intensive nature of the extraction and refining processes. The majority of cobalt refining occurs in China, where coal is still a significant energy source. This reliance on fossil fuels results in high carbon output, undermining the perceived environmental benefits of electric vehicle batteries. Research indicates that the carbon footprint of producing one ton of cobalt can reach up to 13 tons of CO₂, depending on the energy sources used for extraction and processing.

As municipalities adopt lithium-dependent technologies like electric vehicles, they must carefully weigh the broader social, environmental, and carbon costs associated with these technologies.

Municipal Costs and Responsibilities

As municipalities adopt electric vehicles (EVs) in their fleets, they face increased costs associated with fire and emergency response services. Lithium battery fires require specialized equipment and protocols, and the cost of preparing fire departments to handle these hazards can place significant financial burdens on municipal budgets. In addition to emergency services, the potential environmental costs of improperly disposed lithium and cobalt batteries are often overlooked, necessitating investment in waste management infrastructure.

Before committing to large-scale EV adoption, municipalities should conduct comprehensive cost-benefit analyses. It may be more efficient and sustainable to focus on improving energy efficiency in public infrastructure and supporting local environmental initiatives rather than fully transitioning to EVs.

Financial Risks and Misappropriation of Funds

The financial risks associated with investments in battery plants and renewable energy initiatives are becoming increasingly evident. A recent example is the construction of a plant by Umicore Rechargeable Battery Materials Inc. in Loyalist Township, which was expected to produce battery components for electric vehicles (EVs). This project has faced delays due to a significant slowdown in EV sales, as reported by Umicore, citing a “significant worsening of the EV market context” impacting the entire supply chain. The project’s staggering price tag of up to $2.76 billion has raised concerns, particularly since the federal government committed up to $551.3 million and the province was set to contribute up to $424.6 million (CBC News, 2023).

Before investing in such projects, federal, provincial, and municipal governments should demand greater transparency and accountability in how public funds are allocated. Cost-benefit analyses and clear reporting on project outcomes are essential to ensuring taxpayer money is spent wisely, particularly when basic needs like housing and affordable transportation remain unmet in many communities.

Shift Toward Local Environmental Stewardship

Given Canada’s vast and sparsely populated geography, with boreal forests covering much of the country, municipalities should reconsider large-scale climate action plans in favor of localized environmental stewardship. Instead of prioritizing aggressive, international climate initiatives, municipalities can focus on environmental programs that directly address regional concerns and promote sustainability tailored to their specific communities.

Furthermore, municipalities involved in climate action plans under the Federation of Canadian Municipalities (FCM) and ICLEI’s Partners for Climate Protection (PCP) program should consider withdrawing from these frameworks. Redirecting resources away from internationally driven initiatives will enable municipalities to focus on practical, locally focused environmental efforts that directly benefit their communities (PCP Program).

Conclusion

Canada’s commitment to an energy transition, particularly through the adoption of electric vehicles and renewable energy technologies appears to be occurring with a lack of comprehensive consideration for the environmental, social, and safety ramifications of lithium and cobalt mining, as well as the carbon output associated with these processes. The focus on achieving carbon neutrality and reducing reliance on fossil fuels must be balanced with an awareness of the entire lifecycle of the technologies being embraced.

The Montreal incident highlights the urgent need for more stringent regulations and oversight in the storage and transportation of lithium batteries, as well as a broader examination of the sourcing practices for lithium and cobalt. As Canada and other nations strive for a sustainable future, it is imperative to address these safety concerns and the human rights implications tied to mineral extraction.

Moving forward, a more balanced approach that prioritizes local environmental stewardship over broad climate action plans will better serve the diverse needs of Canadian communities. By ensuring that our investments yield tangible benefits for the people of Canada and protect our unique natural heritage, we can foster a future that respects both the environment and the economic realities faced by our citizens.


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