Climate Change

Welcome Message

Dear Participants,

On behalf of the Organizing Committee, we extend our warmest greetings and heartfelt welcome to all attendees joining us for this distinguished international gathering. It is our privilege to bring together a diverse community of researchers, scientists, policymakers, industry experts, educators, and thought leaders who share a collective commitment to advancing knowledge, innovation, and global collaboration.

This conference represents a unique platform for exchanging ideas, presenting breakthrough research, engaging in meaningful discussions, and addressing the challenges and opportunities that shape our shared future. Through keynote lectures, scientific sessions, interactive panels, and networking opportunities, we aim to foster an environment that encourages learning, inspiration, and professional growth.

We are deeply grateful to our speakers, delegates, sponsors, and partners whose contributions make this event possible. Your presence strengthens the conference’s mission to support intellectual progress, promote interdisciplinary dialogue, and build lasting partnerships across borders.

We hope this event provides valuable insights, enriches your professional journey, and motivates new collaborations that lead to impactful solutions. Thank you for being a part of this important gathering. We look forward to an engaging, productive, and memorable experience for all.

Warm regards,
Organizing Committee

About conference

14^th World Conference on Climate Change | May 14–15, 2026 | London, UK
Theme: Innovating for a Climate-Resilient Future: Science, Policy & Global Action

The 14^th World Conference on Climate Change stands as one of the most influential global gatherings dedicated to advancing climate science, accelerating sustainability solutions, and strengthening international collaboration. Hosted in London, this flagship climate conference brings together world-leading scientists, policymakers, environmental researchers, climate technology innovators, NGO representatives, economists, and industry leaders committed to driving meaningful climate action. The event emphasizes the need for climate resilience, net-zero pathways, renewable energy transitions, and evidence-based climate policy to address the escalating environmental challenges faced globally.

Over two knowledge-intensive days, the conference offers a comprehensive platform to explore cutting-edge climate change research, disruptive clean-tech innovations, carbon reduction frameworks, climate finance strategies, adaptation and mitigation planning, and the intersection of climate change with public health, biodiversity, and socioeconomic equity. Delegates will engage in keynote sessions, high-level panel discussions, interactive workshops, poster presentations, roundtable debates, and exclusive networking sessions designed to foster global partnerships and cross-sector collaboration.

A major focus of the event is bridging the gap between science, policy, and industry, ensuring that climate solutions are actionable, scalable, and rooted in real-world application. Topics will cover nature-based solutions, climate-smart agriculture, carbon markets, digital climate intelligence, green energy infrastructure, blue economy development, circular economy innovations, and the growing importance of youth and community participation in climate governance.

With climate risks intensifying—extreme temperatures, rising sea levels, water scarcity, and ecosystem disruption—the Climate Change_2026 serves as a vital forum for sharing new insights, building global resilience, and catalysing action toward a sustainable, low-carbon future. This event also provides an unparalleled opportunity for researchers to present ground-breaking work, for industries to showcase next-generation technologies, and for global leaders to shape the direction of future climate policies.

Join us in London and contribute to a powerful global movement shaping the future of climate innovation, sustainability, and environmental stewardship.

Session & tracks

1. Climate Science, Projections & Global Risk Assessment

Climate science provides a deep understanding of Earth’s systems, including temperature rise, extreme weather patterns, ocean warming and long-term climatic shifts. Projections help identify future risks by combining observational data, climate models and scenario analysis. Global risk assessment evaluates vulnerabilities in ecosystems, infrastructure, economies and communities to guide effective climate strategies. This field helps scientists, policymakers and industries anticipate impacts, prioritize mitigation and adaptation measures, and plan for a more resilient future. By integrating data-driven insights, it supports informed decision-making across all sectors exposed to climate-related hazards.

2. Global Climate Policy, International Cooperation & Net-Zero Pathways

Global climate policy brings nations together to establish frameworks, agreements and regulations guiding international climate action. These policies shape national commitments, emissions targets, carbon pricing mechanisms and long-term strategies for achieving net-zero goals. International cooperation strengthens climate diplomacy, financing, and technology transfer, helping countries align their climate ambitions. Net-zero pathways outline how societies can reduce greenhouse gases through clean energy transitions, sustainable development and innovative solutions. This field enables evidence-based policymaking that supports global climate stability, encourages equitable action and drives collective progress toward limiting warming.

3. AI, Digital Innovation & Climate Intelligence

AI and digital technologies are revolutionizing the way climate challenges are understood and managed. Machine learning, predictive analytics, satellite data and remote sensing enable accurate climate modelling, extreme weather forecasting and emissions monitoring. Digital innovation enhances energy management, supports climate-smart agriculture, accelerates disaster response and improves natural resource planning. Climate intelligence platforms integrate data across sectors, enabling better decision-making and risk reduction. These technologies empower governments, industries and cities to deploy targeted climate strategies, enhance efficiency, reduce emissions and strengthen resilience by leveraging real-time insights.

4. Methane Reduction & Short-Lived Climate Pollutants

Methane and short-lived climate pollutants (SLCPs) such as black carbon and tropospheric ozone contribute significantly to near-term warming. Reducing these pollutants offers one of the fastest ways to slow climate change, improve air quality and protect health. Key solutions include improved agricultural practices, waste management, leak detection in fossil fuel systems, clean cooking solutions and sustainable land use. Addressing SLCPs lowers atmospheric warming potential and supports global climate goals. This field emphasizes practical, cost-effective actions that deliver immediate climate benefits while complementing long-term carbon reduction strategies.

5. Renewable Energy Systems & Grid Transformation

Renewable energy systems such as solar, wind, hydro and geothermal power are central to transitioning away from fossil fuels. Grid transformation ensures reliable integration of these clean energy sources through modernized, digital and flexible energy networks. This includes smart grids, storage technologies, micro grids and advanced forecasting tools that enhance efficiency and stability. As global energy demand grows, renewable systems reduce emissions, strengthen energy security and lower long-term costs. This field supports the global shift toward sustainable, resilient and decentralized energy models that enable large-scale decarbonisation.

6. Green Hydrogen, Clean Fuels & Hard-to-Abate Sectors

Green hydrogen and clean fuels offer viable pathways to decarbonize industries that are traditionally difficult to electrify, such as steel, cement, shipping, aviation and heavy transport. Produced using renewable energy, green hydrogen supports low-emission manufacturing, energy storage and fuel alternatives. Clean fuels including ammonia, synthetic fuels and bioenergy accelerate the transition in hard-to-abate sectors. Adoption of these technologies reduces industrial emissions, enhances energy security and promotes sustainable economic development. This field enables deep industrial transformation and supports global efforts to achieve long-term climate commitments.

7. Carbon Removal, CCUS & Negative Emissions Technologies

Carbon removal encompasses a range of approaches—natural and engineered—designed to capture and store atmospheric carbon dioxide. Technologies such as direct air capture, bioenergy with carbon capture and storage (BECCS), mineralization and enhanced soil carbon sequestration help reduce residual emissions that cannot be eliminated through traditional methods. CCUS systems capture CO? from industrial sources and permanently store or repurpose it. These innovations contribute to long-term climate stability, support net-zero pathways and compensate for harder-to-abate emissions. Their expansion is essential for achieving global climate goals.

8. Sustainable Agriculture, Food Security & Climate-Smart Land Use

Sustainable agriculture promotes efficient, low-emission farming practices that protect natural resources, improve soil health and increase resilience to climate change. Climate-smart land management balances food production with ecosystem conservation. Practices such as precision farming, agroforestry, regenerative agriculture and sustainable livestock management help reduce environmental impacts and support rural livelihoods. Strengthening food systems ensures reliable access to nutrition, improves climate resilience and safeguards biodiversity. This field advances strategies that address hunger, reduce emissions and support sustainable development across global agricultural landscapes.

9. Circular Economy, Sustainable Materials & Waste-to-Value Innovations

The circular economy redefines production and consumption by promoting resource efficiency, reuse and recycling. Sustainable materials and low-carbon manufacturing reduce environmental impact across industries. Waste-to-value innovations transform waste into useful products, energy or raw materials, reducing pollution and dependence on virgin resources. These approaches support long-term sustainability, drive economic competitiveness and shrink environmental footprints. By integrating design innovation, material science and circular business models, this field helps industries transition toward regenerative systems that minimize waste and foster sustainable growth.

10. Nature-Based Solutions & Ecosystem Restoration

Nature-based solutions harness the power of ecosystems to address climate challenges. Strategies such as reforestation, wetland restoration, mangrove protection and conservation agriculture enhance biodiversity, improve carbon storage and strengthen resilience to storms, droughts and floods. Restoring natural landscapes supports water regulation, soil stability and habitat recovery. These approaches are cost-effective, scalable and provide long-lasting social, economic and environmental benefits. By working with nature rather than against it, this field promotes sustainable climate solutions that enhance both ecological and human well-being.

11. Water Security, Drought Resilience & Urban Water Management

Water security ensures reliable access to clean water amid increasing climate-related pressures, including droughts, floods and contamination. Integrated water management supports sustainable allocation, improved efficiency and resilient infrastructure. Drought resilience strategies incorporate groundwater protection, smart irrigation, early warning systems and nature-based water storage. Urban water management focuses on sustainable drainage systems, flood-resilient cities and wastewater reuse. Addressing water risks is essential for public health, agriculture, ecosystems and economic stability. This field supports a reliable, climate-ready water future for communities worldwide.

12. Urban Sustainability, Smart Cities & Low-Carbon Infrastructure

Urban sustainability promotes climate-ready cities designed around efficient transport, green buildings, renewable energy and sustainable mobility. Smart city systems use digital tools to optimize energy use, reduce emissions and enhance quality of life. Low-carbon infrastructure, including efficient construction materials, green public spaces and resilient urban planning, supports long-term climate goals. With rapid urbanization worldwide, creating liveable, low-emission cities is essential for environmental stability and human well-being. This field shapes the future of urban development through innovation, inclusivity and sustainability.

13. Climate Finance, Green Investment & Global Funding Mechanisms

Climate finance mobilizes public and private capital to support mitigation and adaptation across all regions. It includes green bonds, carbon markets, climate funds, blended finance and long-term investment strategies. These tools enable the growth of renewable energy, resilient infrastructure, sustainable agriculture and emerging climate technologies. Equitable financing ensures that vulnerable nations and communities gain access to essential climate resources. As global climate goals intensify, innovative funding mechanisms are crucial for accelerating transformative climate solutions and achieving sustainable development objectives.

14. Climate-Resilient Infrastructure & Disaster Risk Management

Climate-resilient infrastructure is designed to withstand extreme weather, sea-level rise and long-term climate stresses. Disaster risk management strategies include early-warning systems, climate-informed planning, insurance solutions and community preparedness. Strengthening infrastructure reduces economic losses, protects lives and enhances recovery capacity. This field integrates engineering, technology and risk analysis to build safer, more resilient societies. From transportation networks to energy systems, resilient infrastructure supports long-term stability and helps communities adapt to increasingly frequent climate shocks.

15. Ocean Climate Systems, Marine Conservation & Blue Economy

Ocean-climate interactions influence global weather patterns, biodiversity, fisheries and coastal stability. Rising sea temperatures, acidification and sea-level rise threaten marine ecosystems and coastal communities. Marine conservation protects coral reefs, fisheries, wetlands and other vital habitats. The Blue Economy promotes sustainable ocean industries such as tourism, fisheries, energy and maritime transport. By balancing economic growth with environmental protection, this field supports healthy oceans, climate resilience and long-term ecological sustainability.

16. Public Health, Climate Stress & Environmental Health Risks

Climate change directly affects human health through heatwaves, air pollution, water scarcity, shifting disease patterns and food insecurity. Environmental health research identifies these risks and supports strategies that protect vulnerable populations. Climate-sensitive health systems improve preparedness, surveillance and disaster response. This field integrates public health, climate science and policy to reduce health burdens and build resilient healthcare infrastructure. Addressing climate-related health risks ensures well-being, reduces inequality and strengthens global health security.

17. Climate Justice, Equity, Community Empowerment & Just Transition

Climate justice highlights the unequal distribution of climate impacts and ensures that solutions prioritize vulnerable and marginalized groups. Equity-focused approaches promote fair access to resources, representation, adaptation support and green economic opportunities. A just transition supports workers and communities as industries shift to low-carbon pathways, ensuring social protection and inclusive development. This field empowers communities through participation, indigenous knowledge and capacity building. It builds a fair climate future where all people benefit from sustainable solutions.

18. Education, Public Engagement & Behavioural Climate Solutions

Education and public engagement play essential roles in shaping climate awareness and action. Climate literacy programs help individuals understand environmental challenges and adopt low-carbon lifestyles. Behavioural solutions encourage sustainable choices in energy, transport, consumption and waste. Public campaigns, youth-led initiatives and community programs enhance participation and support cultural shifts toward sustainability. This field strengthens climate action by empowering society with knowledge, motivation and shared responsibility.