The Sustainable Urban Development and Geosciences course in Geneva is a professional training course designed to help participants integrate geoscience knowledge into sustainable city planning and development.
From:
24-08-2026
Course Overview
Cities are expanding rapidly, placing pressure on land, water, and environmental resources. Geosciences provide critical insights into soil, water, energy, and hazard risks that shape urban sustainability. This Sustainable Urban Development and Geosciences Training Course explores the intersection of urban planning and geoscience to create resilient, sustainable, and well-managed cities.
Participants will analyze how urbanization interacts with natural systems, examine tools for risk management, and explore policies and practices for sustainable land use. Through case studies and applied exercises, they will gain practical skills to integrate geoscience into urban planning and development strategies.
By the end of the course, participants will be equipped to guide urban growth while safeguarding natural resources and promoting sustainable communities.
Course Benefits
Understand the role of geosciences in sustainable urban planning.
Gain tools to assess environmental and geological risks in cities.
Learn strategies for climate adaptation and resilient infrastructure.
Integrate sustainable land and water use into urban development.
Apply global best practices for sustainable and livable cities.
Course Objectives
Explore the interaction between urbanization and natural systems.
Apply geoscience methods in urban development planning.
Assess risks from natural hazards, land use, and resources.
Integrate resilience and sustainability into city planning.
Use geospatial and remote sensing tools for urban analysis.
Evaluate policies and governance frameworks for sustainable cities.
Develop strategies for climate-resilient urban environments.
Training Methodology
This course uses expert-led lectures, case studies, group discussions, and geospatial analysis exercises. Participants will apply practical methods to real-world urban sustainability challenges.
Target Audience
Urban planners and development professionals.
Environmental and geoscience specialists.
Policy advisors and sustainability officers.
Academics, researchers, and consultants in urban studies.
Target Competencies
Geoscience applications in urban planning.
Risk assessment for urban sustainability.
Climate adaptation and resilience planning.
Integrated land, water, and resource management.
Course Outline
Unit 1: Foundations of Sustainable Urban Development
Key principles of sustainability in cities.
The role of geosciences in urban planning.
Global trends in urban growth and sustainability.
Policy frameworks and the SDGs.
Unit 2: Geosciences for Urban Risk Assessment
Soil and groundwater considerations in urban design.
Geological hazard mapping (earthquakes, landslides, floods).
Climate change impacts on urban systems.
Tools for hazard and risk assessment.
Unit 3: Land Use, Water, and Energy in Cities
Integrated land-use planning.
Sustainable water management in urban areas.
Energy use and renewable integration.
Linking urban design to natural resources.
Unit 4: Tools and Technologies for Sustainable Cities
Remote sensing and GIS for urban planning.
Smart city technologies for sustainability.
Modeling urban growth and resource use.
Case studies of data-driven sustainable cities.
Unit 5: Governance and Strategies for Resilient Cities
Policy instruments for sustainable development.
Multi-stakeholder governance approaches.
Financing mechanisms for sustainable urban projects.
Designing resilient and livable city strategies.
Ready to integrate geosciences into sustainable city planning?
Join the Sustainable Urban Development and Geosciences Training Course with EuroQuest International Training and shape resilient, sustainable cities of the future.
The Sustainable Urban Development and Geosciences Training Courses in Geneva provide professionals with an integrated understanding of how geoscientific principles inform sustainable planning, infrastructure development, and environmental management in urban environments. Designed for urban planners, geoscientists, environmental managers, and policy specialists, these programs equip participants with practical tools to analyze geological, hydrological, and environmental data to support resilient and sustainable city development.
Throughout the specialization, participants explore the fundamentals of sustainable urban development, including land-use planning, hazard assessment, resource management, and climate adaptation. The courses emphasize the role of geosciences in understanding urban terrains, soil stability, water resources, and environmental impacts of construction and infrastructure projects. Through case studies, mapping exercises, and scenario-based projects, attendees learn to integrate geospatial and geoscientific data into urban planning processes, optimize land use, and design sustainable infrastructure that balances ecological, social, and economic considerations.
These urban development and geoscience programs in Geneva blend theoretical frameworks with applied methodologies relevant to modern city planning. Participants gain expertise in GIS analysis, environmental risk assessment, sustainable infrastructure design, and monitoring urban environmental indicators. The curriculum also highlights emerging trends, such as green building practices, climate resilience strategies, smart city technologies, and circular economy approaches, enabling professionals to address contemporary challenges in urban sustainability.
Attending these training courses in Geneva offers professionals the opportunity to learn in an international hub renowned for urban innovation, environmental governance, and geoscientific research. Expert-led sessions, interactive workshops, and collaborative exercises enrich the learning experience and provide practical insights for immediate application. By completing this specialization, participants will be equipped to design and implement sustainable urban development strategies, leverage geoscientific knowledge for informed decision-making, and contribute to resilient, environmentally responsible, and future-ready urban communities.