Convergence (sustainability science)

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Convergence in sustainability sciences refers to mechanisms and pathways that lead towards sustainability with a specific focus on 'Equity within biological planetary limits'. These pathways and mechanisms explicitly advocate equity and recognise the need for redistribution of the Earth's resources in order for human society to operate enduringly within the Earth's biophysical limits.

The term was first introduced by Phillip A. Sharp and Robert Langer in 2011 in the context of biomedical science. They called for a problem-solving approach that integrated knowledge from the fields of engineering, the physical sciences, computer science, and the life sciences to find solutions to human problems. The idea has since been applied in areas including climate change, environmental health, public health, systemic inequities. and sustainability. [1] [2] One strategy is to add “friction” to undesirable practices and make them harder to do, while making the desired practices “frictionless” or easy to do. [1] [3]

This use of the term 'convergence' harkens from the concept of contraction and convergence (C&C), taking its core principles of Equity and Survival and applying them beyond the frame of greenhouse gas emissions to the wider sustainability agenda. [4] [5]

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Sustainable development is an organizing principle that aims to meet human development goals while also enabling natural systems to provide necessary natural resources and ecosystem services to humans. The desired result is a society where living conditions and resources meet human needs without undermining the planetary integrity and stability of the natural system. Sustainable development tries to find a balance between economic development, environmental protection, and social well-being. The Brundtland Report in 1987 defined sustainable development as "development that meets the needs of the present generation without compromising the ability of future generations to meet their own needs". The concept of sustainable development nowadays has a focus on economic development, social development and environmental protection for future generations.

The carrying capacity of an environment is the maximum population size of a biological species that can be sustained by that specific environment, given the food, habitat, water, and other resources available. The carrying capacity is defined as the environment's maximal load, which in population ecology corresponds to the population equilibrium, when the number of deaths in a population equals the number of births. The effect of carrying capacity on population dynamics is modelled with a logistic function. Carrying capacity is applied to the maximum population an environment can support in ecology, agriculture and fisheries. The term carrying capacity has been applied to a few different processes in the past before finally being applied to population limits in the 1950s. The notion of carrying capacity for humans is covered by the notion of sustainable population.

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<span class="mw-page-title-main">Sustainable food system</span> Balanced growth of nutritional substances and their distribution

A sustainable food system is a type of food system that provides healthy food to people and creates sustainable environmental, economic, and social systems that surround food. Sustainable food systems start with the development of sustainable agricultural practices, development of more sustainable food distribution systems, creation of sustainable diets, and reduction of food waste throughout the system. Sustainable food systems have been argued to be central to many or all 17 Sustainable Development Goals.

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<span class="mw-page-title-main">Sustainability</span> Goal of people safely co-existing on Earth

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The Doughnut, or Doughnut economics, is a visual framework for sustainable development – shaped like a doughnut or lifebelt – combining the concept of planetary boundaries with the complementary concept of social boundaries. The name derives from the shape of the diagram, i.e. a disc with a hole in the middle. The centre hole of the model depicts the proportion of people that lack access to life's essentials while the crust represents the ecological ceilings that life depends on and must not be overshot. The diagram was developed by University of Oxford economist Kate Raworth in her 2012 Oxfam paper A Safe and Just Space for Humanity and elaborated upon in her 2017 book Doughnut Economics: Seven Ways to Think Like a 21st-Century Economist and paper.

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Julia K. Steinberger is Professor of Ecological Economics at the University of Lausanne. She studies the relationships between the use of resources and performance of societies. She is an author of the Intergovernmental Panel on Climate Change (IPCC) 6th Assessment Report, contributing to the report's discussion of climate change mitigation pathways.

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Sustainable population refers to a proposed sustainable human population of Earth or a particular region of Earth, such as a nation or continent. Estimates vary widely, with estimates based on different figures ranging from 0.65 billion people to 9.8 billion, with 8 billion people being a typical estimate. Projections of population growth, evaluations of overconsumption and associated human pressures on the environment have led to some to advocate for what they consider a sustainable population. Proposed policy solutions vary, including sustainable development, female education, family planning and broad human population planning.

References

  1. 1 2 McNutt, Marcia K. (31 May 2022). "Civilization-Saving Science for the Twenty-First Century". Annual Review of Earth and Planetary Sciences. 50 (1): 1–12. doi: 10.1146/annurev-earth-033021-081125 . ISSN   0084-6597. S2CID   242005175 . Retrieved 1 June 2022.
  2. Sharp, Phillip A.; Langer, Robert (29 July 2011). "Promoting Convergence in Biomedical Science". Science. 333 (6042): 527. doi:10.1126/science.1205008. PMID   21798916. S2CID   206533715.
  3. Wood, Wendy (2021). Good Habits, Bad Habits: The Science of Making Positive Changes That Stick. [S.l.]: MacMillan. ISBN   9781509864768.
  4. Häyhä, Tiina; Lucas, Paul L.; van Vuuren, Detlef P.; Cornell, Sarah E.; Hoff, Holger (1 September 2016). "From Planetary Boundaries to national fair shares of the global safe operating space — How can the scales be bridged?". Global Environmental Change. 40: 60–72. doi: 10.1016/j.gloenvcha.2016.06.008 . ISSN   0959-3780. S2CID   156791692.
  5. Vadovics, E.; Milton, S.; CONVERGE Project Team (2012). Case Studies ('initiatives') Illustrating Contraction and Convergence. Equity within Limits in Theory and Practice. CONVERGE Deliverable 33 (PDF). Hungary: GreenDependent Institute. Retrieved 1 June 2022.