International Development and Sustainability

🚣🏼‍♀️International Development and Sustainability Unit 3 – Sustainable Development: Core Concepts

Sustainable development aims to balance economic growth, social progress, and environmental protection. This unit explores core concepts like intergenerational equity, carrying capacity, and ecological footprints, tracing the field's evolution from the 1970s to today's UN Sustainable Development Goals. The three pillars of sustainable development—economic, social, and environmental—are examined, along with measurement frameworks and indicators. Challenges, criticisms, and case studies of successes and failures are discussed, as well as emerging trends like circular economies and nature-based solutions.

What's This Unit All About?

  • Introduces the core concepts, principles, and frameworks of sustainable development
  • Explores the historical context and evolution of sustainable development as a field of study and practice
  • Examines the three pillars of sustainable development: economic, social, and environmental sustainability
  • Discusses the challenges and criticisms of implementing sustainable development in various contexts
  • Presents case studies showcasing successes and failures of sustainable development initiatives
  • Analyzes indicators and frameworks used to measure and assess sustainability
  • Looks at future directions and emerging trends in sustainable development theory and practice

Key Concepts in Sustainable Development

  • Intergenerational equity: the idea that current generations should meet their needs without compromising the ability of future generations to meet their own needs
  • Carrying capacity: the maximum population size that an environment can sustain indefinitely given the available resources
  • Ecological footprint: a measure of human demand on Earth's ecosystems, representing the amount of biologically productive land and sea area needed to sustain a population
  • Decoupling: the process of separating economic growth from environmental degradation and resource depletion
  • Circular economy: an economic system that aims to minimize waste and maximize resource efficiency by keeping materials in use for as long as possible
    • Includes strategies such as recycling, reuse, and remanufacturing
  • Sustainable consumption and production: an approach that promotes resource and energy efficiency, sustainable infrastructure, and access to basic services and green jobs
  • Resilience: the capacity of a system to absorb disturbances and maintain its basic structure, function, and identity

Historical Context and Evolution

  • The concept of sustainable development emerged in the 1970s in response to growing concerns about environmental degradation and resource depletion
  • The 1972 United Nations Conference on the Human Environment in Stockholm marked a turning point in global environmental governance
  • The 1987 Brundtland Report, "Our Common Future," popularized the term "sustainable development" and provided a widely accepted definition
  • The 1992 Earth Summit in Rio de Janeiro produced key agreements, including Agenda 21, a comprehensive plan of action for sustainable development
  • The 2000 United Nations Millennium Development Goals (MDGs) set targets for poverty reduction, health, education, and environmental sustainability
  • The 2015 United Nations Sustainable Development Goals (SDGs) expanded on the MDGs, setting 17 goals and 169 targets to be achieved by 2030
  • Recent years have seen a growing emphasis on climate change mitigation and adaptation as critical components of sustainable development

The Three Pillars: Economic, Social, and Environmental

  • Economic sustainability: focuses on maintaining long-term economic growth without negatively impacting social and environmental aspects
    • Includes issues such as poverty reduction, job creation, and sustainable production and consumption patterns
  • Social sustainability: aims to ensure the well-being of current and future generations by addressing issues such as equity, diversity, and social cohesion
    • Encompasses access to education, healthcare, and basic services, as well as the protection of human rights and cultural heritage
  • Environmental sustainability: seeks to maintain the integrity and resilience of ecological systems by minimizing pollution, preserving biodiversity, and managing natural resources responsibly
    • Involves addressing climate change, deforestation, desertification, and other environmental challenges
  • The three pillars are interconnected and interdependent, requiring a balanced and integrated approach to achieve sustainable development

Measuring Sustainability: Indicators and Frameworks

  • Sustainability indicators: quantitative or qualitative measures used to assess progress towards sustainable development goals
    • Examples include the Ecological Footprint, the Human Development Index (HDI), and the Genuine Progress Indicator (GPI)
  • Sustainability frameworks: conceptual models that provide a structure for organizing and analyzing sustainability indicators and data
    • The Pressure-State-Response (PSR) framework examines the pressures on the environment, the resulting state of the environment, and the societal responses to these changes
    • The Driving Force-Pressure-State-Impact-Response (DPSIR) framework expands on the PSR model by incorporating driving forces (such as population growth and economic development) and impacts (such as biodiversity loss and human health effects)
  • Life Cycle Assessment (LCA): a tool used to evaluate the environmental impacts of a product or service throughout its entire life cycle, from raw material extraction to disposal or recycling
  • Environmental Impact Assessment (EIA): a process used to identify, predict, and mitigate the environmental impacts of proposed projects or policies
  • Sustainability reporting: the practice of measuring, disclosing, and being accountable for organizational performance towards sustainable development goals

Challenges and Criticisms of Sustainable Development

  • Implementation gaps: the discrepancy between the goals and principles of sustainable development and their actual implementation in practice
    • Factors contributing to implementation gaps include lack of political will, inadequate resources, and competing priorities
  • Greenwashing: the practice of making misleading or false claims about the environmental benefits of a product, service, or organization
  • The "weak sustainability" approach: argues that natural capital (such as forests and fisheries) can be substituted by human-made capital (such as infrastructure and technology)
    • Critics argue that this approach fails to account for the irreversible loss of critical natural resources and ecosystem services
  • The "strong sustainability" approach: maintains that natural capital should be preserved and enhanced, as it cannot be fully replaced by human-made capital
    • Critics argue that this approach may hinder economic development and poverty reduction efforts
  • Balancing short-term needs with long-term sustainability: the challenge of meeting the immediate needs of the world's poor while ensuring the long-term viability of ecological systems
  • Addressing global inequalities: the need to ensure that the benefits and costs of sustainable development are distributed fairly among nations and communities

Case Studies: Successes and Failures

  • Curitiba, Brazil: a model of sustainable urban planning, with an integrated public transportation system, extensive green spaces, and effective waste management
    • The city's bus rapid transit (BRT) system has reduced traffic congestion and air pollution while improving mobility for low-income residents
  • Costa Rica: a leader in eco-tourism and conservation, with over 25% of its land protected as national parks and reserves
    • The country has also made significant progress in renewable energy, with nearly 100% of its electricity generated from clean sources (hydropower, wind, and geothermal)
  • The Aral Sea: an example of unsustainable water management, with the once-thriving inland sea shrinking to less than 10% of its original size due to excessive irrigation for cotton production
    • The ecological disaster has led to the collapse of local fisheries, increased soil salinity, and health problems for nearby communities
  • The Sardar Sarovar Dam in India: a controversial hydroelectric project that has displaced over 200,000 people and submerged large areas of forest and farmland
    • While the dam has increased irrigation and power generation capacity, critics argue that its social and environmental costs have outweighed its benefits
  • Circular economy: a growing focus on designing out waste and pollution, keeping products and materials in use, and regenerating natural systems
    • Examples include the EU's Circular Economy Action Plan and China's Circular Economy Promotion Law
  • Nature-based solutions: the use of ecosystems and biodiversity to address societal challenges such as climate change, food security, and disaster risk reduction
    • Initiatives include urban green infrastructure, coastal wetland restoration, and agroforestry
  • Sustainable finance: the integration of environmental, social, and governance (ESG) factors into investment decision-making and risk management
    • Trends include the growth of green bonds, impact investing, and divestment from fossil fuels
  • Participatory approaches: the increasing involvement of local communities, indigenous peoples, and marginalized groups in sustainable development decision-making and implementation
    • Examples include community-based natural resource management and participatory budgeting
  • Digitalization and sustainability: the potential of digital technologies (such as artificial intelligence, blockchain, and the Internet of Things) to support sustainable development goals
    • Applications include smart cities, precision agriculture, and supply chain transparency
  • Planetary boundaries: a framework that defines a "safe operating space for humanity" based on nine critical Earth system processes (such as climate change, biodiversity loss, and ocean acidification)
    • The framework emphasizes the need to stay within these boundaries to avoid irreversible environmental damage and ensure the stability of the Earth system


© 2024 Fiveable Inc. All rights reserved.
AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.

© 2024 Fiveable Inc. All rights reserved.
AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.