The planet just saw its hottest day on record (CNN)
Hiker deaths in Grand Canyon rise amid extreme weather linked to climate crisis (The Guardian)
Trump and Harris rallygoers are suffering from heat exhaustion (The Washington Post)
More August temperature records expected to fall amid warm weather and winds across the East Coast (The Guardian)
Big Oil under pressure to recalibrate green transition goals (Financial Times)
Are Direct Air Capture Plants Facing Massive Clean Energy Challenge in the U.S.? A S&P Global Report (Carbon Credits)
From electric ferries to wind-powered boats: here’s how the shipping industry can decarbonize (World Economic Forum)
Maersk says ocean shipping’s zero-emissions push needs government support (Reuters)
Renewable wind propulsion gains momentum in maritime industry (Safety4Sea)
Energy reimagined: Understanding the past and the future of energy transition (India Times)
Turbocharging the Energy Transition by Boosting Customer Demand (Boston Consulting Group)
How digitalization can drive sustainable supply chains in the least developed countries (World Economic Forum)
Lloyd’s Register Acquires Ocean Technology Group Expanding Digital Platform (Maritime Executive)
Deloitte: Only 15% of Companies Report on Scope 3 Emissions (Sustainability Magazine)
Climate Change and the Coming Storm for U.S. Ports (Supply Chain Brain)
With growing environmental degradation and resource constraints, achieving sustainable development has become a critical global priority. Digital technologies, particularly blockchain and artificial intelligence (AI), offer significant potential to tackle these issues by separating economic growth from its harmful environmental effects.
As human activities continue to strain the planet, they increasingly threaten economies and communities worldwide.
Projections suggest that environmental impacts will escalate in the coming decades due to population growth and increased consumption, making a shift toward sustainability essential for survival.
However, without careful direction, digital technologies could inadvertently sustain unsustainable practices. Focusing on supply chain operations and resource management is crucial for advancing sustainability, as these areas are major sources of carbon emissions and suffer from coordination challenges that undermine environmental performance.
Blockchain and AI are emerging as exciting developments in the digital space, but their impact on sustainability will largely depend on how they are designed and implemented. When used effectively, blockchain technology can enhance supply chain transparency, traceability, and accountability, promoting responsible sourcing and fair-trade practices.
AI’s advanced analytics and predictive abilities can optimize resource allocation, reduce waste, and support informed decision-making, contributing to the circular economy. However, the sustainability of these technologies will ultimately be shaped by the choices made during their development.
To fully realize the potential of blockchain and AI in promoting sustainability, it’s essential to prioritize sustainability goals in their design and deployment. Aligning these technologies with sustainable development principles can help create a more sustainable and inclusive digital economy. This requires a comprehensive approach that considers economic, social, and environmental factors.
With appropriate value frameworks emphasizing public benefit, blockchain and AI can enhance supply chain visibility, optimize resource use, and realign incentives to minimize negative impacts. However, it is essential to carefully manage their deployment to avoid exacerbating over-consumption and emissions.
Supply chains in today’s globalized economy are intricate networks involving numerous stakeholders across different levels. Breakdowns in coordination and gaps in information among these stakeholders can cause significant inefficiencies, such as excess inventory, transportation delays, wasteful practices, and billions of dollars worth of unsold goods each year. Emerging digital technologies like blockchain and AI show great potential for improving supply chain visibility and optimizing transportation and asset use through predictive analytics. By addressing information imbalances, these technologies can significantly enhance resource flows if implemented with a focus on public benefit.
Industrial activities account for over a third of global greenhouse gas emissions and significantly contribute to environmental degradation through resource depletion and pollution. It is crucial to transition heavy industries to low-carbon, circular models for sustainable development and global livelihood security to address climate change and avoid irreversible tipping points.
Digital technologies can play a vital role in facilitating these industrial transformations by improving resource efficiency, optimizing logistics, and enabling innovative business models. However, to fully leverage these digital opportunities, it is essential to have aligned policies that guide innovation toward maximizing benefits for both people and the planet.
Blockchain serves as a vital inter-organizational connectivity layer, providing security, integrity, and transparency to shared data within supply chains. Its decentralized network, driven by distributed ledger technology, effectively closes traceability gaps and enhances monitoring capabilities.
Blockchain is widely used for resource optimization in areas such as demand forecasting, inventory management, and asset sharing. Blockchain-based smart contracts facilitate collaborative forecasting by coordinating demand signals among stakeholders, enabling precise predictions and reducing instances of overproduction or underproduction.
Inventory management benefits from increased visibility into stock levels and automated replenishment requests triggered by preset thresholds. Additionally, blockchain registries enable the temporary leasing of under-utilized assets to partners needing flexible capacity, such as a construction company renting out idle machinery or companies in a supply chain using blockchain to share logistics assets, such as warehouse space or transportation vehicles. Blockchain smart contracts automate leasing processes, ensuring efficient asset use and secure, transparent transactions.
These applications highlight how blockchain can optimize resource allocation and enhance efficiency within supply chains. Moreover, blockchain can also support freight optimization by automating the rating and booking of qualified carriers for transport jobs posted on distributed ledgers by shippers.
In addition, AI technologies such as machine learning, forecasting, optimization, simulation, and robotics are combined with blockchain data to create new resource optimization use cases at both tactical and strategic levels.
Predictive analytics is an application where AI systems learn patterns from blockchain-timestamped ledgers to forecast disruptive events like delays or quality deviations, providing advanced warnings and enabling effective contingency planning. These examples demonstrate how integrating blockchain and AI can enhance resource optimization in supply chains by improving freight management and enabling predictive analytics for proactive decision-making.
The adoption of these innovative digital technologies offers significant opportunities for optimizing production systems and economic activities while emphasizing sustainability for the benefit of society and the environment. By addressing information imbalances within global supply chains, these technologies can help mitigate environmental impacts. However, it’s essential to prioritize inclusive and democratic participation to avoid unintended negative consequences.
Ensuring shared governance in decision-making processes allows companies to maximize the positive impacts of these technologies while minimizing potential harms. Collaborative policymaking with diverse perspectives offers a thoughtful approach to guiding responsible innovation that benefits current and future generations.
Establishing multi-stakeholder cooperatives with local perspectives provides valuable platforms for scaling effective solutions and ensuring broad cooperation in navigating the rapidly evolving landscape.
With careful stewardship and a focus on well-being, these emerging tools can accelerate the transition to post-carbon economies while fostering shared prosperity within planetary limits.
Combining AI and blockchain improves the supply chain’s efficiency, transparency, and traceability, leading to better resource management and reduced waste. AI algorithms optimize production processes, lower energy consumption, and enhance decision-making, supporting more sustainable practices. Blockchain technology provides secure and immutable data storage, building transparency and trust among stakeholders. By leveraging the power of AI and blockchain, organizations can make significant strides in sustainability by promoting responsible resource management, reducing environmental footprints, and advancing sustainable development practices.
Beatriz Canamary is a consultant in Sustainable and Resilient Business, Doctor and Professor in Business, Civil Engineer, specialized in Mergers and Acquisitions from the Harvard Business School, and mom of triplets. Today she is dedicated to the effective application of the UN Sustainable Development Goals in Multinationals.
She is an ESG enthusiast and makes it possible to carry out sustainable projects, such as energy transition and net-zero carbon emissions. She has +15 years of expertise in large infrastructure projects.
Member of the World Economic Forum, Academy of International Business and Academy of Economics and Finance.
