Jump to content

Sustainable development

From Wikipedia, the free encyclopedia

Sustainable development is an approach to growth and human development that aims to meet the needs of the present without compromising the ability of future generations to meet their own needs.[1][2] The aim is to have a society where living conditions and resources meet human needs without undermining planetary integrity.[3][4] Sustainable development aims to balance the needs of the economy, environment, and social well-being. The Brundtland Report in 1987 helped to make the concept of sustainable development better known.

Sustainable development overlaps with the idea of sustainability, which is a normative concept.[5] UNESCO formulated a distinction between the two concepts as follows: "Sustainability is often thought of as a long-term goal (i.e. a more sustainable world), while sustainable development refers to the many processes and pathways to achieve it."[6] There are some problems with the concept of sustainable development. Some scholars say it is an oxymoron because according to them, development is inherently unsustainable. Other commentators are disappointed in the lack of progress that has been achieved so far.[7][8] Part of the problem is that development itself is not consistently defined.[9]: 16 

The Rio Process that began at the 1992 Earth Summit in Rio de Janeiro has placed the concept of sustainable development on the international agenda. In 2015 the United Nations General Assembly (UNGA) adopted the Sustainable Development Goals for the year 2030. These development goals address the global challenges, including for example poverty, climate change, biodiversity loss, and peace.

Definition of sustainable development

[edit]

In 1987, the United Nations World Commission on Environment and Development released the report Our Common Future, commonly called the Brundtland Report.[1] The report included a definition of "sustainable development" which is now widely used:[1][10]

Sustainable development is a development that meets the needs of the present without compromising the ability of future generations to meet their own needs. It contains two key concepts within it:

  • The concept of 'needs', in particular, the essential needs of the world's poor, to which overriding priority should be given; and
  • The idea of limitations imposed by the state of technology and social organization on the environment's ability to meet present and future needs.

Sustainable development thus tries to find a balance between economic development, environmental protection, and social well-being.

[edit]

Sustainability

[edit]
Three visual representations of sustainability and its three dimensions: the left image shows sustainability as three intersecting circles. In the top right, it is a nested approach. In the bottom right it is three pillars.[11] The schematic with the nested ellipses emphasizes a hierarchy of the dimensions, putting environment as the foundation for the other two.

Sustainability is a social goal for people to co-exist on Earth over a long period of time. Definitions of this term are disputed and have varied with literature, context, and time.[12][11] Sustainability usually has three dimensions (or pillars): environmental, economic, and social.[11] Many definitions emphasize the environmental dimension.[13][14] This can include addressing key environmental problems, including climate change and biodiversity loss. The idea of sustainability can guide decisions at the global, national, organizational, and individual levels.[15] A related concept is that of sustainable development, and the terms are often used to mean the same thing.[16] UNESCO distinguishes the two like this: "Sustainability is often thought of as a long-term goal (i.e. a more sustainable world), while sustainable development refers to the many processes and pathways to achieve it."[17]

Development of the concept

[edit]

Sustainable development has its roots in ideas regarding sustainable forest management, which were developed in Europe during the 17th and 18th centuries.[18][19][20] In response to a growing awareness of the depletion of timber resources in England, John Evelyn argued, in his 1662 essay Sylva, that "sowing and planting of trees had to be regarded as a national duty of every landowner, in order to stop the destructive over- exploitation of natural resources." In 1713, Hans Carl von Carlowitz, a senior mining administrator in the service of Elector Frederick Augustus I of Saxony published Sylvicultura economics, a 400-page work on forestry. Building upon the ideas of Evelyn and French minister Jean-Baptiste Colbert, von Carlowitz developed the concept of managing forests for sustained yield.[18] His work influenced others, including Alexander von Humboldt and Georg Ludwig Hartig, eventually leading to the development of the science of forestry. This, in turn, influenced people like Gifford Pinchot, the first head of the US Forest Service, whose approach to forest management was driven by the idea of wise use of resources, and Aldo Leopold whose land ethic was influential in the development of the environmental movement in the 1960s.[18][19]

Following the publication of Rachel Carson's Silent Spring in 1962, the developing environmental movement drew attention to the relationship between economic growth and environmental degradation. Kenneth E. Boulding, in his influential 1966 essay The Economics of the Coming Spaceship Earth, identified the need for the economic system to fit itself to the ecological system with its limited pools of resources.[19] Another milestone was the 1968 article by Garrett Hardin that popularized the term "tragedy of the commons".[21]

The direct linking of sustainability and development in a contemporary sense can be traced to the early 1970s. "Strategy of Progress", a 1972 book (in German) by Ernst Basler, explained how the long-acknowledged sustainability concept of preserving forests for future wood production can be directly transferred to the broader importance of preserving environmental resources to sustain the world for future generations.[22] That same year, the interrelationship of environment and development was formally demonstrated in a systems dynamic simulation model reported in the classic report on Limits to Growth. This was commissioned by the Club of Rome and written by a group of scientists led by Dennis and Donella Meadows of the Massachusetts Institute of Technology. Describing the desirable "state of global equilibrium", the authors wrote: "We are searching for a model output that represents a world system that is sustainable without sudden and uncontrolled collapse and capable of satisfying the basic material requirements of all of its people."[23] The year 1972 also saw the publication of the influential book, A Blueprint for Survival.[24][25]

In 1975, an MIT research group prepared ten days of hearings on "Growth and Its Implication for the Future" for the US Congress, the first hearings ever held on sustainable development.[26]

In 1980, the International Union for Conservation of Nature published a world conservation strategy that included one of the first references to sustainable development as a global priority[27] and introduced the term "sustainable development".[28]: 4  Two years later, the United Nations World Charter for Nature raised five principles of conservation by which human conduct affecting nature is to be guided and judged.[29]

Since the Brundtland Report, the concept of sustainable development has developed beyond the initial intergenerational framework to focus more on the goal of "socially inclusive and environmentally sustainable economic growth".[28]: 5  In 1992, the UN Conference on Environment and Development published the Earth Charter, which outlines the building of a just, sustainable, and peaceful global society in the 21st century. The action plan Agenda 21 for sustainable development identified information, integration, and participation as key building blocks to help countries achieve development that recognizes these interdependent pillars. Furthermore, Agenda 21 emphasizes that broad public participation in decision-making is a fundamental prerequisite for achieving sustainable development.[30]

The Rio Protocol was a huge leap forward: for the first time, the world agreed on a sustainability agenda. In fact, a global consensus was facilitated by neglecting concrete goals and operational details. The Sustainable Development Goals (SDGs) now have concrete targets (unlike the results from the Rio Process) but no methods for sanctions.[31][9]: 137 

Dimensions

[edit]

Sustainable development, like sustainability, is regarded to have three dimensions: the environment, economy and society. The idea is that a good balance between the three dimensions should be achieved. Instead of calling them dimensions, other terms commonly used are pillars, domains, aspects, spheres.

Sustainability Venn diagram, where sustainability is thought of as the area where the three dimensions overlap

Scholars usually distinguish three different areas of sustainability. These are the environmental, the social, and the economic. Several terms are in use for this concept. Authors may speak of three pillars, dimensions, components, aspects,[32] perspectives, factors, or goals. All mean the same thing in this context.[11] The three dimensions paradigm has few theoretical foundations.[11]

Countries could develop systems for monitoring and evaluation of progress towards achieving sustainable development by adopting indicators that measure changes across economic, social and environmental dimensions.

Pathways

[edit]
Sustainable development requires six central capacities.[34]

Six interdependent capacities are deemed to be necessary for the successful pursuit of sustainable development.[34] These are the capacities to measure progress towards sustainable development; promote equity within and between generations; adapt to shocks and surprises; transform the system onto more sustainable development pathways; link knowledge with action for sustainability; and to devise governance arrangements that allow people to work together.

Environmental sustainability

[edit]
Deforestation of the Amazon rainforest. Deforestation and increased road-building in the Amazon rainforest are a concern because of increased human encroachment upon wilderness areas, increased resource extraction and further threats to biodiversity.

Environmental sustainability concerns the natural environment and how it endures and remains diverse and productive. Since natural resources are derived from the environment, the state of air, water, and climate is of particular concern. Environmental sustainability requires society to design activities to meet human needs while preserving the life support systems of the planet. This, for example, entails using water sustainably, using renewable energy and sustainable material supplies (e.g. harvesting wood from forests at a rate that maintains the biomass and biodiversity).[35]

An unsustainable situation occurs when natural capital (the total of nature's resources) is used up faster than it can be replenished.[36]: 58  Sustainability requires that human activity only uses nature's resources at a rate at which they can be replenished naturally. The concept of sustainable development is intertwined with the concept of carrying capacity. Theoretically, the long-term result of environmental degradation is the inability to sustain human life.[36]

Important operational principles of sustainable development were published by Herman Daly in 1990: renewable resources should provide a sustainable yield (the rate of harvest should not exceed the rate of regeneration); for non-renewable resources there should be equivalent development of renewable substitutes; waste generation should not exceed the assimilative capacity of the environment.[37]

Summary of different levels of consumption of natural resources.[36]: 58 
Consumption of natural resources State of the environment State of sustainability
More than nature's ability to replenish Environmental degradation Not sustainable
Equal to nature's ability to replenish Environmental equilibrium Steady state economy
Less than nature's ability to replenish Environmental renewal Environmentally sustainable

Land use changes, agriculture and food

[edit]

Environmental problems associated with industrial agriculture and agribusiness are now being addressed through approaches such as sustainable agriculture, organic farming and more sustainable business practices.[38] The most cost-effective climate change mitigation options include afforestation, sustainable forest management, and reducing deforestation.[39] At the local level there are various movements working towards sustainable food systems which may include less meat consumption, local food production, slow food, sustainable gardening, and organic gardening.[40] The environmental effects of different dietary patterns depend on many factors, including the proportion of animal and plant foods consumed and the method of food production.[41][42]

Materials and waste

[edit]
Ecological footprint for different nations compared to their Human Development Index (2007)
Before flue-gas desulfurization was installed, the air-polluting emissions from this power plant in New Mexico contained excessive amounts of sulfur dioxide.

As global population and affluence have increased, so has the use of various materials increased in volume, diversity, and distance transported. Included here are raw materials, minerals, synthetic chemicals (including hazardous substances), manufactured products, food, living organisms, and waste.[43] By 2050, humanity could consume an estimated 140 billion tons of minerals, ores, fossil fuels and biomass per year (three times its current amount) unless the economic growth rate is decoupled from the rate of natural resource consumption. Developed countries' citizens consume an average of 16 tons of those four key resources per capita per year, ranging up to 40 or more tons per person in some developed countries with resource consumption levels far beyond what is likely sustainable. By comparison, the average person in India today consumes four tons per year.[44]

Sustainable use of materials has targeted the idea of dematerialization, converting the linear path of materials (extraction, use, disposal in landfill) to a circular material flow that reuses materials as much as possible, much like the cycling and reuse of waste in nature.[45] Dematerialization is being encouraged through the ideas of industrial ecology, eco design[46] and ecolabelling.

This way of thinking is expressed in the concept of circular economy, which employs reuse, sharing, repair, refurbishment, remanufacturing and recycling to create a closed-loop system, minimizing the use of resource inputs and the creation of waste, pollution and carbon emissions.[47] Building electric vehicles has been one of the most popular ways in the field of sustainable development, the potential of using reusable energy and reducing waste offered a perspective in sustainable development.[48] The European Commission has adopted an ambitious Circular Economy Action Plan in 2020, which aims at making sustainable products the norm in the EU.[49][50]

Biodiversity and ecosystem services

[edit]

There is a connection between ecosystems and biodiversity. Ecosystems are made up of various living things interacting with one another and their surroundings. Along with this, biodiversity lays the groundwork for ecosystems to function well by defining the kinds of species that can coexist in an environment, as well as their functions and interactions with other species.[51][52] In 2019, a summary for policymakers of the largest, most comprehensive study to date of biodiversity and ecosystem services was published by the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services. It recommended that human civilization will need a transformative change, including sustainable agriculture, reductions in consumption and waste, fishing quotas and collaborative water management.[53][54] Biodiversity is not only crucial for the well-being of animals and wildlife but also plays a positive role in the lives of human beings in the way in which it aids development of human life.[55]

Management of human consumption and impacts

[edit]
Waste generation, measured in kilograms per person per day

The environmental impact of a community or humankind as a whole depends both on population and impact per person, which in turn depends in complex ways on what resources are being used, whether or not those resources are renewable, and the scale of the human activity relative to the carrying capacity of the ecosystems involved.[56] Careful resource management can be applied at many scales, from economic sectors like agriculture, manufacturing and industry, to work organizations, the consumption patterns of households and individuals, and the resource demands of individual goods and services.[57][58]

The underlying driver of direct human impacts on the environment is human consumption.[59] This impact is reduced by not only consuming less but also making the full cycle of production, use, and disposal more sustainable. Consumption of goods and services can be analyzed and managed at all scales through the chain of consumption, starting with the effects of individual lifestyle choices and spending patterns, through to the resource demands of specific goods and services, the impacts of economic sectors, through national economies to the global economy.[60] Key resource categories relating to human needs are food, energy, raw materials and water.

Improving on economic and social aspects

[edit]

It has been suggested that because of the rural poverty and overexploitation, environmental resources should be treated as important economic assets, called natural capital.[61] Economic development has traditionally required a growth in the gross domestic product. This model of unlimited personal and GDP growth may be over. Sustainable development may involve improvements in the quality of life for many but may necessitate a decrease in resource consumption.[62] "Growth" generally ignores the direct effect that the environment may have on social welfare, whereas "development" takes it into account.[63]

As early as the 1970s, the concept of sustainability was used to describe an economy "in equilibrium with basic ecological support systems".[64] Scientists in many fields have highlighted The Limits to Growth,[65][66] and economists have presented alternatives, for example a 'steady-state economy', to address concerns over the impacts of expanding human development on the planet.[67] In 1987, the economist Edward Barbier published the study The Concept of Sustainable Economic Development, where he recognized that goals of environmental conservation and economic development are not conflicting and can be reinforcing each other.[68]

A World Bank study from 1999 concluded that based on the theory of genuine savings (defined as "traditional net savings less the value of resource depletion and environmental degradation plus the value of investment in human capital"), policymakers have many possible interventions to increase sustainability, in macroeconomics or purely environmental.[69] Several studies have noted that efficient policies for renewable energy and pollution are compatible with increasing human welfare, eventually reaching a golden-rule[clarification needed] steady state.[70][71][72][73]

A meta review in 2002 looked at environmental and economic valuations and found a "lack of concrete understanding of what "sustainability policies" might entail in practice".[74] A study concluded in 2007 that knowledge, manufactured and human capital (health and education) has not compensated for the degradation of natural capital in many parts of the world.[75] It has been suggested that intergenerational equity can be incorporated into a sustainable development and decision making, as has become common in economic valuations of climate economics.[76]

The World Business Council for Sustainable Development published a Vision 2050 document in 2021 to show "How business can lead the transformations the world needs". The vision states that "we envision a world in which 9+billion people can live well, within planetary boundaries, by 2050."[77] This report was highlighted by The Guardian as "the largest concerted corporate sustainability action plan to date – include reversing the damage done to ecosystems, addressing rising greenhouse gas emissions and ensuring societies move to sustainable agriculture."[78]

Barriers

[edit]

There are many reasons why sustainability is so difficult to achieve. These reasons have the name sustainability barriers.[15][79] Before addressing these barriers it is important to analyze and understand them.[15]: 34  Some barriers arise from nature and its complexity ("everything is related").[80] Others arise from the human condition. One example is the value-action gap. This reflects the fact that people often do not act according to their convictions. Experts describe these barriers as intrinsic to the concept of sustainability.[81]: 81 

Other barriers are extrinsic to the concept of sustainability. This means it is possible to overcome them. One way would be to put a price tag on the consumption of public goods.[81]: 84  Some extrinsic barriers relate to the nature of dominant institutional frameworks. Examples would be where market mechanisms fail for public goods. Existing societies, economies, and cultures encourage increased consumption. There is a structural imperative for growth in competitive market economies. This inhibits necessary societal change.[82]

Furthermore, there are several barriers related to the difficulties of implementing sustainability policies. There are trade-offs between the goals of environmental policies and economic development. Environmental goals include nature conservation. Development may focus on poverty reduction.[79][15]: 65  There are also trade-offs between short-term profit and long-term viability.[81]: 65  Political pressures generally favor the short term over the long term. So they form a barrier to actions oriented toward improving sustainability.[81]: 86 

Barriers to sustainability may also reflect current trends. These could include consumerism and short-termism.[81]: 86 

Assessments and reactions

[edit]

The concept of sustainable development has been and still is, subject to criticism, including the question of what is to be sustained in sustainable development. It has been argued that there is no such thing as sustainable use of a non-renewable resource, since any positive rate of exploitation will eventually lead to the exhaustion of earth's finite stock;[83]: 13  this perspective renders the Industrial Revolution as a whole unsustainable.[84]: 20f [85]: 61–67 [67]: 22f 

The sustainable development debate is based on the assumption that societies need to manage three types of capital (economic, social, and natural), which may be non-substitutable and whose consumption might be irreversible.[86] Natural capital can not necessarily be substituted by economic capital.[67] While it is possible that we can find ways to replace some natural resources, it is much less likely that they will ever be able to replace ecosystem services, such as the protection provided by the ozone layer, or the climate stabilizing function of the Amazonian forest.

The concept of sustainable development has been criticized from different angles. While some see it as paradoxical (or an oxymoron) and regard development as inherently unsustainable, others are disappointed in the lack of progress that has been achieved so far.[7][8] Part of the problem is that "development" itself is not consistently defined.[9]: 16 [87]

The vagueness of the Brundtland definition of sustainable development has been criticized as follows:[9]: 17  The definition has "opened up the possibility of downplaying sustainability. Hence, governments spread the message that we can have it all at the same time, i.e. economic growth, prospering societies and a healthy environment. No new ethic is required. This so-called weak version of sustainability is popular among governments, and businesses, but profoundly wrong and not even weak, as there is no alternative to preserving the earth's ecological integrity."[88]: 2 

Society and culture

[edit]

Sustainable development goals

[edit]
The United Nations Sustainable Development Goals

The 2030 Agenda for Sustainable Development, adopted by all United Nations members in 2015, created 17 world Sustainable Development Goals (SDGs). The aim of these global goals is "peace and prosperity for people and the planet"[89][90] – while tackling climate change and working to preserve oceans and forests. The SDGs highlight the connections between the environmental, social and economic aspects of sustainable development. Sustainability is at the center of the SDGs, as the term sustainable development implies.

The short titles of the 17 SDGs are: No poverty (SDG 1), Zero hunger (SDG 2), Good health and well-being (SDG 3), Quality education (SDG 4), Gender equality (SDG 5), Clean water and sanitation (SDG 6), Affordable and clean energy (SDG 7), Decent work and economic growth (SDG 8), Industry, innovation and infrastructure (SDG 9), Reduced inequalities (SDG 10), Sustainable cities and communities (SDG 11), Responsible consumption and production (SDG 12), Climate action (SDG 13), Life below water (SDG 14), Life on land (SDG 15), Peace, justice, and strong institutions (SDG 16), and Partnerships for the goals (SDG 17).

These goals are ambitious, and the reports and outcomes to date indicate a challenging path. Most, if not all, of the goals are unlikely to be met by 2030. Rising inequalities, climate change, and biodiversity loss are topics of concerns threatening progress. The COVID-19 pandemic in 2020 to 2023 made these challenges worse. The pandemic impacted all 17 goals and emphasized the interconnectedness of global health, economic, social, and environmental challenges.[91] Some regions, such as Asia, have experienced significant setbacks during that time. The global effort for the SDGs calls for prioritizing environmental sustainability, understanding the indivisible nature of the goals, and seeking synergies across sectors.

Education for sustainable development

[edit]

Education for sustainable development (ESD) is a term officially used by the United Nations. It is defined as education practices that encourage changes in knowledge, skills, values, and attitudes to enable a more sustainable and just society for humanity. ESD aims to empower and equip current and future generations to meet their needs using a balanced and integrated approach to sustainable development's economic, social, and environmental dimensions.[92][93]

Agenda 21 was the first international document that identified education as an essential tool for achieving sustainable development and highlighted areas of action for education.[94][95] ESD is a component of measurement in an indicator for Sustainable Development Goal 12 (SDG) for "responsible consumption and production". SDG 12 has 11 targets, and target 12.8 is "By 2030, ensure that people everywhere have the relevant information and awareness for sustainable development and lifestyles in harmony with nature."[96] 20 years after the Agenda 21 document was declared, the 'Future we want' document was proclaimed in the Rio+20 UN Conference on Sustainable Development, stating that "We resolve to promote education for sustainable development and to integrate sustainable development more actively into education beyond the Decade of Education for Sustainable Development."[97]

One version of education for Sustainable Development recognizes modern-day environmental challenges. It seeks to define new ways to adjust to a changing biosphere, as well as engage individuals to address societal issues that come with them [98] In the International Encyclopedia of Education, this approach to education is seen as an attempt to "shift consciousness toward an ethics of life-giving relationships that respects the interconnectedness of man to his natural world" to equip future members of society with environmental awareness and a sense of responsibility to sustainability.[99]

For UNESCO, education for sustainable development involves:

integrating key sustainable development issues into teaching and learning. This may include, for example, instruction about climate change, disaster risk reduction, biodiversity, and poverty reduction and sustainable consumption. It also requires participatory teaching and learning methods that motivate and empower learners to change their behaviours and take action for sustainable development. ESD consequently promotes competencies like critical thinking, imagining future scenarios and making decisions in a collaborative way.[100][101]

The Thessaloniki Declaration, presented at the "International Conference on Environment and Society: Education and Public Awareness for Sustainability" by UNESCO and the Government of Greece (December 1997), highlights the importance of sustainability not only with regards to the natural environment, but also with "poverty, health, food security, democracy, human rights, and peace".[102]

See also

[edit]

References

[edit]
  1. ^ a b c United Nations General Assembly (1987) .Report of the World Commission on Environment and Development: Our Common Future March 2022 Archived 2022-03-31 at the Wayback Machine. Transmitted to the General Assembly as an Annex to document A/42/427 – Development and International Co-operation: Environment.
  2. ^ United Nations General Assembly (20 March 1987). "Report of the World Commission on Environment and Development: Our Common Future; Transmitted to the General Assembly as an Annex to document A/42/427 – Development and International Co-operation: Environment; Our Common Future, Chapter 2: Towards Sustainable Development; Paragraph 1". United Nations General Assembly. Retrieved 1 March 2010.
  3. ^ Robert, Kates W.; Parris, Thomas M.; Leiserowitz, Anthony A. (2005). "What is Sustainable Development? Goals, Indicators, Values, and Practice". Environment: Science and Policy for Sustainable Development. 47 (3): 8–21. Bibcode:2005ESPSD..47c...8R. doi:10.1080/00139157.2005.10524444. S2CID 154882898.
  4. ^ Mensah, Justice (2019). "Sustainable development: Meaning, history, principles, pillars, and implications for human action: Literature review". Cogent Social Sciences. 5 (1): 1653531. doi:10.1080/23311886.2019.1653531.
  5. ^ Purvis, Ben; Mao, Yong; Robinson, Darren (2019). "Three pillars of sustainability: in search of conceptual origins". Sustainability Science. 14 (3): 681–695. Bibcode:2019SuSc...14..681P. doi:10.1007/s11625-018-0627-5. Text was copied from this source, which is available under a Creative Commons Attribution 4.0 International License
  6. ^ "Sustainable Development". UNESCO. 3 August 2015. Retrieved 20 January 2022.
  7. ^ a b Brown, James H. (2015). "The Oxymoron of Sustainable Development". BioScience. 65 (10): 1027–1029. doi:10.1093/biosci/biv117.
  8. ^ a b Williams, Colin C; Millington, Andrew C (2004). "The diverse and contested meanings of sustainable development". The Geographical Journal. 170 (2): 99–104. Bibcode:2004GeogJ.170...99W. doi:10.1111/j.0016-7398.2004.00111.x. S2CID 143181802.
  9. ^ a b c d Berg, Christian (2020). Sustainable action: overcoming the barriers. Abingdon, Oxon. ISBN 978-0-429-57873-1. OCLC 1124780147.{{cite book}}: CS1 maint: location missing publisher (link)
  10. ^ Keeble, Brian R. (1988). "The Brundtland report: 'Our common future'". Medicine and War. 4 (1): 17–25. doi:10.1080/07488008808408783.
  11. ^ a b c d e Purvis, Ben; Mao, Yong; Robinson, Darren (2019). "Three pillars of sustainability: in search of conceptual origins". Sustainability Science. 14 (3): 681–695. Bibcode:2019SuSc...14..681P. doi:10.1007/s11625-018-0627-5. ISSN 1862-4065. Text was copied from this source, which is available under a Creative Commons Attribution 4.0 International License
  12. ^ Ramsey, Jeffry L. (2015). "On Not Defining Sustainability". Journal of Agricultural and Environmental Ethics. 28 (6): 1075–1087. Bibcode:2015JAEE...28.1075R. doi:10.1007/s10806-015-9578-3. ISSN 1187-7863. S2CID 146790960.
  13. ^ Kotzé, Louis J.; Kim, Rakhyun E.; Burdon, Peter; du Toit, Louise; Glass, Lisa-Maria; Kashwan, Prakash; Liverman, Diana; Montesano, Francesco S.; Rantala, Salla (2022). "Planetary Integrity". In Sénit, Carole-Anne; Biermann, Frank; Hickmann, Thomas (eds.). The Political Impact of the Sustainable Development Goals: Transforming Governance Through Global Goals?. Cambridge: Cambridge University Press. pp. 140–171. doi:10.1017/9781009082945.007. ISBN 978-1-316-51429-0.
  14. ^ Bosselmann, Klaus (2010). "Losing the Forest for the Trees: Environmental Reductionism in the Law". Sustainability. 2 (8): 2424–2448. doi:10.3390/su2082424. hdl:10535/6499. ISSN 2071-1050. Text was copied from this source, which is available under a Creative Commons Attribution 3.0 International License
  15. ^ a b c d Berg, Christian (2020). Sustainable action: overcoming the barriers. Abingdon, Oxon: Routledge. ISBN 978-0-429-57873-1. OCLC 1124780147.
  16. ^ "Sustainability". Encyclopedia Britannica. Retrieved 31 March 2022.
  17. ^ "Sustainable Development". UNESCO. 3 August 2015. Retrieved 20 January 2022.
  18. ^ a b c Ulrich Grober: Deep roots — A conceptual history of "sustainable development" (Nachhaltigkeit) Archived 25 September 2021 at the Wayback Machine, Wissenschaftszentrum Berlin für Sozialforschung, 2007
  19. ^ a b c Blewitt, John (2014). Understanding Sustainable Development. Routledge. ISBN 978-0-415-70782-4.[page needed]
  20. ^ Du Pisani, Jacobus A. (2006). "Sustainable development – historical roots of the concept". Environmental Sciences. 3 (2): 83–96. Bibcode:2006JIES....3...83D. doi:10.1080/15693430600688831.
  21. ^ Hardin, Garrett (13 December 1968). "The Tragedy of the Commons: The population problem has no technical solution; it requires a fundamental extension in morality". Science. 162 (3859): 1243–1248. doi:10.1126/science.162.3859.1243. PMID 17756331.
  22. ^ Basler, Ernst (1972). Strategie des Fortschritts: Umweltbelastung Lebensraumverknappung and Zukunftsforshung (Strategy of Progress: Environmental Pollution, Habitat Scarcity and Future Research). Munich: BLV Publishing Company.
  23. ^ Finn, Donovan (2009). Our Uncertain Future: Can Good Planning Create Sustainable Communities?. Champaign-Urbana: University of Illinois.
  24. ^ "A Blueprint for Survival". The New York Times. 5 February 1972.
  25. ^ "The Ecologist January 1972: a blueprint for survival". The Ecologist. 27 January 2012. Retrieved 14 April 2020.
  26. ^ "Growth and its implications for the future" (PDF). Archived from the original (PDF) on 4 March 2016.
  27. ^ World Conservation Strategy: Living Resource Conservation for Sustainable Development (PDF). International Union for Conservation of Nature and Natural Resources. 1980.
  28. ^ a b Sachs, Jeffrey D. (2015). The Age of Sustainable Development. New York: Columbia University Press. ISBN 9780231173155.
  29. ^ World Charter for Nature, United Nations, General Assembly, 48th Plenary Meeting, 28 October 1982
  30. ^ Will Allen. 2007."Learning for Sustainability: Sustainable Development." Archived 14 January 2016 at the Wayback Machine
  31. ^ "Why Rio failed in the past and how it can succeed this time". The Guardian. 12 June 2012.
  32. ^ "Resolution adopted by the General Assembly on 16 September 2005, 60/1. 2005 World Summit Outcome" (PDF). United Nations General Assembly. 2005. Retrieved 17 January 2022.
  33. ^ "Agenda 21" (PDF). United Nations Conference on Environment & Development, Rio de Janeiro, Brazil, 3 to 14 June 1992. 1992. Retrieved 17 January 2022.
  34. ^ a b Clark, William; Harley, Alicia (2020). "Sustainability Science: Toward a Synthesis". Annual Review of Environment and Resources. 45 (1): 331–86. doi:10.1146/annurev-environ-012420-043621.  This article incorporates text available under the CC BY 4.0 license.
  35. ^ "Sustainable development domains". Semantic portal. Retrieved 6 September 2021.
  36. ^ a b c Nayeripour, Majid; Kheshti, Mostafa (2 December 2011). Sustainable Growth and Applications in Renewable Energy Sources. BoD – Books on Demand. p. 58. ISBN 978-953-307-408-5. Text was copied from this source, which is available under a Creative Commons Attribution 3.0 International License Archived 16 October 2017 at the Wayback Machine
  37. ^ Daly, H.E. (1990). "Toward some operational principles of sustainable development". Ecological Economics. 2 (1): 1–6. Bibcode:1990EcoEc...2....1D. doi:10.1016/0921-8009(90)90010-r.
  38. ^ World Business Council for Sustainable Development Archived 10 April 2009 at the Wayback Machine This web site has multiple articles on WBCSD contributions to sustainable development. Retrieved 7 April 2009.
  39. ^ "AR5 Climate Change 2014: Mitigation of Climate Change — IPCC". Retrieved 13 May 2021.
  40. ^ Holmgren, D. (March 2005). "Retrofitting the suburbs for sustainability." Archived 15 April 2009 at the Wayback Machine CSIRO Sustainability Network. Retrieved 7 July 2009.
  41. ^ McMichael, Anthony J; Powles, John W; Butler, Colin D; Uauy, Ricardo (October 2007). "Food, livestock production, energy, climate change, and health". The Lancet. 370 (9594): 1253–1263. doi:10.1016/S0140-6736(07)61256-2. hdl:1885/38056. PMID 17868818. S2CID 9316230.
  42. ^ Baroni, L; Cenci, L; Tettamanti, M; Berati, M (1 February 2007). "Evaluating the environmental impact of various dietary patterns combined with different food production systems". European Journal of Clinical Nutrition. 61 (2): 279–286. doi:10.1038/sj.ejcn.1602522. PMID 17035955. S2CID 16387344.
  43. ^ Bournay, E. et al.. (2006). Vital waste graphics 2 Archived 12 September 2017 at the Wayback Machine. The Basel Convention, UNEP, GRID-Arendal. ISBN 82-7701-042-7.
  44. ^ UNEP (2011). Decoupling Natural Resource Use and Environmental Impacts from Economic Growth Archived 20 January 2022 at the Wayback Machine. ISBN 978-92-807-3167-5. Retrieved 30 November 2011.
  45. ^ Anderberg, S (1998). "Industrial metabolism and linkages between economics, ethics, and the environment". Ecological Economics. 24 (2–3): 311–320. doi:10.1016/s0921-8009(97)00151-1.
  46. ^ Fuad-Luke, A. (2006). The Eco-design Handbook. London: Thames & Hudson. ISBN 978-0-500-28521-3.
  47. ^ Geissdoerfer, Martin; Savaget, Paulo; Bocken, Nancy M.P.; Hultink, Erik Jan (February 2017). "The Circular Economy – A new sustainability paradigm?" (PDF). Journal of Cleaner Production. 143: 757–768. Bibcode:2017JCPro.143..757G. doi:10.1016/j.jclepro.2016.12.048. S2CID 157449142.
  48. ^ Shigeta, Naoya; Hosseini, Seyed Ehsan (25 December 2020). "Sustainable Development of the Automobile Industry in the United States, Europe, and Japan with Special Focus on the Vehicles' Power Sources". Energies. 14 (1): 78. doi:10.3390/en14010078.
  49. ^ European Commission (2020). "Circular economy action plan". Archived 20 January 2022 at the Wayback Machine. Retrieved 10 November 2021.
  50. ^ "52020DC0098". EUR-Lex. Retrieved 9 November 2021.
  51. ^ Balvanera, Patricia; Pfisterer, Andrea B.; Buchmann, Nina; He, Jing-Shen; Nakashizuka, Tohru; Raffaelli, David; Schmid, Bernhard (October 2006). "Quantifying the evidence for biodiversity effects on ecosystem functioning and services: Biodiversity and ecosystem functioning/services" (PDF). Ecology Letters. 9 (10): 1146–1156. doi:10.1111/j.1461-0248.2006.00963.x. PMID 16972878.
  52. ^ Tilman, David; Knops, Johannes; Wedin, David; Reich, Peter; Ritchie, Mark; Siemann, Evan (29 August 1997). "The Influence of Functional Diversity and Composition on Ecosystem Processes". Science. 277 (5330): 1300–1302. doi:10.1126/science.277.5330.1300.
  53. ^ Summary for policymakers of the global assessment report on biodiversity and ecosystem services of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (PDF). the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services. 6 May 2019. Retrieved 10 May 2019.
  54. ^ Deutsche Welle, Deutsche (6 May 2019). "Why Biodiversity Loss Hurts Humans as Much as Climate Change Does". Ecowatch. Retrieved 10 May 2019.
  55. ^ Naeem, Shahid; Chazdon, Robin; Duffy, J. Emmett; Prager, Case; Worm, Boris (14 December 2016). "Biodiversity and human well-being: an essential link for sustainable development". Proceedings of the Royal Society B: Biological Sciences. 283 (1844): 20162091. doi:10.1098/rspb.2016.2091. PMC 5204155. PMID 27928039.
  56. ^ Basiago, Andrew D. (1995). "Methods of defining 'sustainability'". Sustainable Development. 3 (3): 109–119. doi:10.1002/sd.3460030302.
  57. ^ Clark, D. (2006). A Rough Guide to Ethical Living. London: Penguin. ISBN 978-1-84353-792-2[page needed]
  58. ^ Brower, M. & Leon, W. (1999). The Consumer's Guide to Effective Environmental Choices: Practical Advice from the Union of Concerned Scientists. New York: Three Rivers Press. ISBN 0-609-80281-X.[page needed]
  59. ^ Michaelis, L. & Lorek, S. (2004). "Consumption and the Environment in Europe: Trends and Futures." Archived 22 July 2019 at the Wayback Machine Danish Environmental Protection Agency. Environmental Project No. 904.
  60. ^ Jackson, T. & Michaelis, L. (2003). "Policies for Sustainable Consumption" Archived 7 August 2020 at the Wayback Machine. The UK Sustainable Development Commission.
  61. ^ Barbier, Edward B. (2006). Natural Resources and Economic Development. Cambridge University Press. pp. 44–45. ISBN 9780521706513. Retrieved 8 April 2014.
  62. ^ Brown, L. R. (2011). World on the Edge. Earth Policy Institute. Norton. ISBN 978-0-393-08029-2.
  63. ^ Pezzey, John (November 1992). "Sustainable development concepts". Researchgate. The World Bank. Retrieved 16 October 2022.
  64. ^ Stivers, R. 1976. The Sustainable Society: Ethics and Economic Growth. Philadelphia: Westminster Press.
  65. ^ Meadows, D.H., D.L. Meadows, J. Randers, and W.W. Behrens III. 1972. The Limits to Growth. Universe Books, New York, NY. ISBN 0-87663-165-0
  66. ^ Meadows, D.H.; Randers, Jørgen; Meadows, D.L. (2004). Limits to Growth: The 30-Year Update. Chelsea Green Publishing. ISBN 978-1-931498-58-6.
  67. ^ a b c Daly, Herman E. (1992). Steady-state economics (2nd ed.). London: Earthscan Publications.
  68. ^ Barbier, E. (1987). "The Concept of Sustainable Economic Development". Environmental Conservation. 14 (2): 101–110. Bibcode:1987EnvCo..14..101B. doi:10.1017/S0376892900011449. S2CID 145595791.
  69. ^ Hamilton, K.; Clemens, M. (1999). "Genuine savings rates in developing countries". World Bank Economic Review. 13 (2): 333–356. CiteSeerX 10.1.1.452.7532. doi:10.1093/wber/13.2.333.
  70. ^ Ayong Le Kama, A. D. (2001). "Sustainable growth renewable resources, and pollution". Journal of Economic Dynamics and Control. 25 (12): 1911–1918. doi:10.1016/S0165-1889(00)00007-5.
  71. ^ Chichilnisky, G.; Heal, G.; Beltratti, A. (1995). "A Green Golden Rule". Economics Letters. 49 (2): 175–179. doi:10.1016/0165-1765(95)00662-Y. S2CID 154964259.
  72. ^ Endress, L.; Roumasset, J. (1994). "Golden rules for sustainable resource management" (PDF). Economic Record. 70 (210): 266–277. doi:10.1111/j.1475-4932.1994.tb01847.x.
  73. ^ Endress, L.; Roumasset, J.; Zhou, T. (2005). "Sustainable Growth with Environmental Spillovers". Journal of Economic Behavior and Organization. 58 (4): 527–547. CiteSeerX 10.1.1.529.5305. doi:10.1016/j.jebo.2004.09.003.
  74. ^ Pezzey, John C. V.; Michael A., Toman (2002). "The Economics of Sustainability: A Review of Journal Articles" (PDF). Resources for the Future. Archived from the original (PDF) on 8 April 2014. Retrieved 8 April 2014.
  75. ^ Dasgupta, P. (2007). "The idea of sustainable development". Sustainability Science. 2 (1): 5–11. Bibcode:2007SuSc....2....5D. doi:10.1007/s11625-007-0024-y. S2CID 154597956.
  76. ^ Heal, G. (2009). "Climate Economics: A Meta-Review and Some Suggestions for Future Research". Review of Environmental Economics and Policy. 3 (1): 4–21. doi:10.1093/reep/ren014. S2CID 154917782.
  77. ^ "Vision 2050 - Time to transform". WBCSD. Retrieved 29 March 2022.
  78. ^ Wills, Jackie (15 May 2014). "World Business Council for Sustainable Development: Vision 2050". The Guardian. Retrieved 17 May 2022.
  79. ^ a b Howes, Michael; Wortley, Liana; Potts, Ruth; Dedekorkut-Howes, Aysin; Serrao-Neumann, Silvia; Davidson, Julie; Smith, Timothy; Nunn, Patrick (2017). "Environmental Sustainability: A Case of Policy Implementation Failure?". Sustainability. 9 (2): 165. doi:10.3390/su9020165. hdl:10453/90953. ISSN 2071-1050.
  80. ^ Harrington, Lisa M. Butler (2016). "Sustainability Theory and Conceptual Considerations: A Review of Key Ideas for Sustainability, and the Rural Context". Papers in Applied Geography. 2 (4): 365–382. Bibcode:2016PAGeo...2..365H. doi:10.1080/23754931.2016.1239222. ISSN 2375-4931. S2CID 132458202.
  81. ^ a b c d e Berg, Christian (2017). "Shaping the Future Sustainably – Types of Barriers and Tentative Action Principles (chapter in: Future Scenarios of Global Cooperation—Practices and Challenges)". Global Dialogues (14). Centre For Global Cooperation Research (KHK/GCR21), Nora Dahlhaus and Daniela Weißkopf (eds.). doi:10.14282/2198-0403-GD-14. ISSN 2198-0403.
  82. ^ Wiedmann, Thomas; Lenzen, Manfred; Keyßer, Lorenz T.; Steinberger, Julia K. (2020). "Scientists' warning on affluence". Nature Communications. 11 (1): 3107. Bibcode:2020NatCo..11.3107W. doi:10.1038/s41467-020-16941-y. ISSN 2041-1723. PMC 7305220. PMID 32561753. Text was copied from this source, which is available under a Creative Commons Attribution 4.0 International License
  83. ^ Turner, R. Kerry (1988). "Sustainability, Resource Conservation and Pollution Control: An Overview". In Turner, R. Kerry (ed.). Sustainable Environmental Management. London: Belhaven Press.
  84. ^ Georgescu-Roegen, Nicholas (1971). The Entropy Law and the Economic Process (Full book accessible at Scribd). Cambridge: Harvard University Press. ISBN 978-0674257801.
  85. ^ Rifkin, Jeremy (1980). Entropy: A New World View (PDF contains only the title and contents pages of the book). New York: The Viking Press. ISBN 978-0670297177.
  86. ^ Dyllick, T.; Hockerts, K. (2002). "Beyond the business case for corporate sustainability". Business Strategy and the Environment. 11 (2): 130–141. doi:10.1002/bse.323.
  87. ^ Park, Albert Sanghoon (2023). "Understanding resilience in sustainable development: Rallying call or siren song?". Sustainable Development. 32: 260–274. doi:10.1002/sd.2645.
  88. ^ Bosselmann, Klaus (2017). The principle of sustainability: transforming law and governance (2nd ed.). London: Routledge. ISBN 978-1-4724-8128-3. OCLC 951915998.
  89. ^ "The 17 Goals". Sustainable Development Goals. UN. Retrieved 10 August 2022.
  90. ^ United Nations (2017) Resolution adopted by the General Assembly on 6 July 2017, Work of the Statistical Commission pertaining to the 2030 Agenda for Sustainable Development (A/RES/71/313 Archived 28 November 2020 at the Wayback Machine)
  91. ^ Biermann, Frank; Hickmann, Thomas; Sénit, Carole-Anne; Beisheim, Marianne; Bernstein, Steven; Chasek, Pamela; Grob, Leonie; Kim, Rakhyun E.; Kotzé, Louis J.; Nilsson, Måns; Ordóñez Llanos, Andrea; Okereke, Chukwumerije; Pradhan, Prajal; Raven, Rob; Sun, Yixian (20 June 2022). "Scientific evidence on the political impact of the Sustainable Development Goals". Nature Sustainability. 5 (9): 795–800. Bibcode:2022NatSu...5..795B. doi:10.1038/s41893-022-00909-5. hdl:2066/253734. ISSN 2398-9629. Text was copied from this source, which is available under a Creative Commons Attribution 4.0 International License
  92. ^ Issues and trends in education for sustainable development. Paris: UNESCO Digital Library. 2018. p. 7. ISBN 978-92-3-100244-1. This article incorporates text available under the CC BY 4.0 license.
  93. ^ Kolvoord, Robert A (2021). "Fostering spatial thinking skills for future citizens to support sustainable development". Cultures of Science. 4 (1): 17–24. doi:10.1177/20966083211024714.
  94. ^ Leicht, Alexander (2018). "From Agenda 21 to Target 4.7: the development of education for sustainable development". UNESCO, UNESDOC Digital Library. Retrieved 24 May 2020.
  95. ^ Bernad-Cavero, Olga; Llevot-Calvet, Núria (4 July 2018). New Pedagogical Challenges in the 21st Century: Contributions of Research in Education. BoD – Books on Demand. ISBN 978-1-78923-380-3.
  96. ^ United Nations (2017) Resolution adopted by the General Assembly on 6 July 2017, Work of the Statistical Commission pertaining to the 2030 Agenda for Sustainable Development (A/RES/71/313 Archived 23 October 2020 at the Wayback Machine)
  97. ^ Shulla, K.; Filho, W. Leal; Lardjane, S.; Sommer, J. H.; Borgemeister, C. (3 July 2020). "Sustainable development education in the context of the 2030 Agenda for sustainable development" (PDF). International Journal of Sustainable Development & World Ecology. 27 (5): 458–468. Bibcode:2020IJSDW..27..458S. doi:10.1080/13504509.2020.1721378. S2CID 214390476.
  98. ^ Jucker, Rolf; Mathar, Reiner, eds. (27 October 2014). Schooling for sustainable development in Europe: concepts, policies and educational experiences at the end of the UN Decade of Education for Sustainable Development. Cham, Switzerland. ISBN 978-3-319-09549-3. OCLC 894509040.{{cite book}}: CS1 maint: location missing publisher (link)
  99. ^ Peterson, Penelope L.; Baker, Eva L.; McGaw, Barry, eds. (2010), International encyclopedia of education (3rd ed.), Oxford: Elsevier, ISBN 978-0-08-044894-7, OCLC 645208716
  100. ^ "Education for Sustainable Development". UNESCO. 10 May 2013. Retrieved 17 October 2017.
  101. ^ Marope, P.T.M; Chakroun, B.; Holmes, K.P. (2015). Unleashing the Potential: Transforming Technical and Vocational Education and Training (PDF). UNESCO. pp. 9, 23, 25–26. ISBN 978-92-3-100091-1.
  102. ^ Nikolopoulou, Anastasia; Abraham, Taisha; Mirbagheri, Farid (2010). Education for Sustainable Development: Challenges, Strategies, and Practices in a Globalizing World Education for sustainable development: Challenges, strategies, and practices in a globalizing world. doi:10.4135/9788132108023. ISBN 9788132102939.[page needed]
[edit]