This document summarizes an article that argues climate change presents unique challenges for understanding humanity's relationship with nature. While climate science establishes climate change as a global phenomenon, it detaches facts from meanings that emerge from lived experience.
Climate science conflicts with common sense and social institutions at several levels. It projects an impersonal view of climate that differs from how people experience nature through senses and traditions. Current debates show efforts to reintegrate global scientific representations of climate with local social responses. The interpretive social sciences can help develop a more complex understanding of humanity's climate predicament by examining tensions between scientific and lived understandings of climate.
In this paper we revisit the conceptualization of poverty and rigidity traps (Carpenter and Brock 2008) by considering how representations of stability landscapes can affect spatial and temporal micro- and macro-dynamics which shape the very landscapes that contain these traps. Transformations are radical changes of micro- and/or macro-dynamics that reshape the possibilities to escape these traps by reshaping the basins of attraction and the landscape as a whole. Conceptualizing and then representing via heuristic models broader scale dynamics in the form of dynamic landscapes and smaller scale dynamics in the form of stability landscapes and basins of attraction raises new questions and new understanding of how the lenses with which we approach time and space dynamics impact the way SES develop and/or can be managed over time. In this thinking, institutions and how they operate in relation to micro- and macro-dynamics resemble some archetypical behavioral patterns conceptualized as institutional traps.
According to Victor Polterovich (2008), institutional traps are basically inefficient yet stable norms of behavior. Institutional traps are supported by mechanisms of coordination, learning, linkage and cultural inertia. The acceleration of economic growth, systemic crisis, the evolution of some cultural characteristics and the development of civil society may result in breaking out of institutional traps (Ibid). Hence, within the field of social-ecological systems resilience and transition studies, motivated by the possibility of breaking out of traps, understanding these traps from the stand-point of systems modeling, especially through visualizations such as the now almost ubiquitous ball and cup diagrams and stability landscapes, has become de rigueur.
Unquestionably, these visualizations have contributed in important ways to our collective understanding of social-ecological systems, and to better illustrating not only traps, but also possibilities for escaping or avoiding them. We do not intend here to diminish the value of these important initial contributions (add cites here), rather, our hope is to creatively and somewhat critically approach them for the purposes of expanding their explanatory utility, to acknowledge both limits to as well new frontiers in that explanatory utility. In so doing, we must state clearly that we understand the nuances between metaphors and models, and the complexity of their use in scientific discourse (for an excellent review of this subject, see Kretzenbacher 2003), and that in the process of proposing novel perspectives on traps in social-ecological systems, we may fall into traps of our own making. We take this risk happily, confident that the contribution outweighs the consternation, especially if such risks lead to a wider discussion of traps and how we conceive of their existence, their emergence, and their ability to be mitigated, avoided, or deconstructed entirely.
John michael greer: an old kind of science cellular automataArchiLab 7
The document discusses how modern science developed from its origins with Francis Bacon and the Royal Society in the 17th century. It was deeply tied to the goal of conquering nature and establishing human dominance. This goal was made possible by huge amounts of cheap energy from fossil fuels over the past 300 years, but as fossil fuel depletion accelerates, the basic conditions that supported faith in progress through science and technology are disappearing. Access to the products of science will become increasingly limited as resources must be diverted to maintain fossil fuel production. This signals a major change in how science will function in the future.
This document provides an introduction to the book "Notes on the Underground" which explores the psychological, social, and political implications of living in a highly technological world where the human environment is increasingly artificial rather than natural. It notes that while human modification of the environment is not new, the current rate and extent of modification through technology is unprecedented. The book examines the "environmental crisis" from a cultural perspective rather than just a material one, looking at how a largely technological environment might impact human well-being and society in non-physical ways. It draws a parallel to the upheaval caused by the agricultural revolution and suggests that humanity's decision to dominate nature through technology could similarly cause deep spiritual and social disruption.
Roots of the contemporary environmental crisisKayse Giire
The document discusses several potential root causes of the contemporary environmental crisis:
1) Western cultural values such as Judeo-Christian beliefs that placed humans above nature or Cartesian dualism that separated humans from nature.
2) Human nature explanations that argue humans are inherently greedy and short-sighted.
3) Materialist explanations including population growth, technology, and economic growth putting unsustainable pressures on finite resources.
While each factor likely contributed, the document argues a complete explanation requires considering their interactions within political and economic systems, not any single cause.
P.Corning 2002 the re emergence of emergenceArchiLab 7
This document discusses the concept of emergence and its history. It notes that emergence has a long history in evolutionary theory dating back to the 19th century, though it fell out of favor with the rise of genetics and reductionism in the early 20th century. More recently, interest in emergence has re-emerged with the growth of complexity theory and new tools like chaos theory that allow scientists to model complex, dynamic systems. The document explores different interpretations and uses of emergence over time, but notes it has never had a unified theory and has been embraced by both reductionists and holists.
This document provides a summary of key ideas from the book "City of Flows" by Maria Kaika. It discusses three main themes:
1) How the concept of technological progress became defined by connecting to utility networks rather than the utilities themselves.
2) How modernity separated nature from society but in doing so wove them more closely together through networks and flows of natural elements, social power, and capital.
3) How dams represent "creative destruction" through human engineering that recreates the environment using social power and reason.
The document outlines a proposal for a new pedagogical model and practice of architecture called Participatory Housing Practice. It argues that current approaches to addressing the global housing crisis of over 1 billion slum dwellers are too limited in scope and fail to match the scale and urgency of the problem. The new model would train architects as members of transdisciplinary teams focused on participatory design with slum residents. It would prioritize pragmatic solutions over creative expression or standardization and emphasize small, nimble teams deployed rapidly to meet diverse local needs.
This document summarizes a presentation given by Dr. Dean Kruckeberg on using an ecological framework to understand community building and managing change in organizations. Some key points:
- Society is undergoing a revolution driven by advances in communication technology that are fundamentally changing humans.
- Public relations can help address this change but current theories are deficient. Kruckeberg recommends examining a theoretical framework from natural sciences like ecology.
- The work of Aldo Leopold teaches that communities are foundational to ecology. Humans are part of the larger biotic community rather than conquerors of land.
- Leopold's concept of ecology included an "ecological conscience" and view of ethics as a community instinct.
In this paper we revisit the conceptualization of poverty and rigidity traps (Carpenter and Brock 2008) by considering how representations of stability landscapes can affect spatial and temporal micro- and macro-dynamics which shape the very landscapes that contain these traps. Transformations are radical changes of micro- and/or macro-dynamics that reshape the possibilities to escape these traps by reshaping the basins of attraction and the landscape as a whole. Conceptualizing and then representing via heuristic models broader scale dynamics in the form of dynamic landscapes and smaller scale dynamics in the form of stability landscapes and basins of attraction raises new questions and new understanding of how the lenses with which we approach time and space dynamics impact the way SES develop and/or can be managed over time. In this thinking, institutions and how they operate in relation to micro- and macro-dynamics resemble some archetypical behavioral patterns conceptualized as institutional traps.
According to Victor Polterovich (2008), institutional traps are basically inefficient yet stable norms of behavior. Institutional traps are supported by mechanisms of coordination, learning, linkage and cultural inertia. The acceleration of economic growth, systemic crisis, the evolution of some cultural characteristics and the development of civil society may result in breaking out of institutional traps (Ibid). Hence, within the field of social-ecological systems resilience and transition studies, motivated by the possibility of breaking out of traps, understanding these traps from the stand-point of systems modeling, especially through visualizations such as the now almost ubiquitous ball and cup diagrams and stability landscapes, has become de rigueur.
Unquestionably, these visualizations have contributed in important ways to our collective understanding of social-ecological systems, and to better illustrating not only traps, but also possibilities for escaping or avoiding them. We do not intend here to diminish the value of these important initial contributions (add cites here), rather, our hope is to creatively and somewhat critically approach them for the purposes of expanding their explanatory utility, to acknowledge both limits to as well new frontiers in that explanatory utility. In so doing, we must state clearly that we understand the nuances between metaphors and models, and the complexity of their use in scientific discourse (for an excellent review of this subject, see Kretzenbacher 2003), and that in the process of proposing novel perspectives on traps in social-ecological systems, we may fall into traps of our own making. We take this risk happily, confident that the contribution outweighs the consternation, especially if such risks lead to a wider discussion of traps and how we conceive of their existence, their emergence, and their ability to be mitigated, avoided, or deconstructed entirely.
John michael greer: an old kind of science cellular automataArchiLab 7
The document discusses how modern science developed from its origins with Francis Bacon and the Royal Society in the 17th century. It was deeply tied to the goal of conquering nature and establishing human dominance. This goal was made possible by huge amounts of cheap energy from fossil fuels over the past 300 years, but as fossil fuel depletion accelerates, the basic conditions that supported faith in progress through science and technology are disappearing. Access to the products of science will become increasingly limited as resources must be diverted to maintain fossil fuel production. This signals a major change in how science will function in the future.
This document provides an introduction to the book "Notes on the Underground" which explores the psychological, social, and political implications of living in a highly technological world where the human environment is increasingly artificial rather than natural. It notes that while human modification of the environment is not new, the current rate and extent of modification through technology is unprecedented. The book examines the "environmental crisis" from a cultural perspective rather than just a material one, looking at how a largely technological environment might impact human well-being and society in non-physical ways. It draws a parallel to the upheaval caused by the agricultural revolution and suggests that humanity's decision to dominate nature through technology could similarly cause deep spiritual and social disruption.
Roots of the contemporary environmental crisisKayse Giire
The document discusses several potential root causes of the contemporary environmental crisis:
1) Western cultural values such as Judeo-Christian beliefs that placed humans above nature or Cartesian dualism that separated humans from nature.
2) Human nature explanations that argue humans are inherently greedy and short-sighted.
3) Materialist explanations including population growth, technology, and economic growth putting unsustainable pressures on finite resources.
While each factor likely contributed, the document argues a complete explanation requires considering their interactions within political and economic systems, not any single cause.
P.Corning 2002 the re emergence of emergenceArchiLab 7
This document discusses the concept of emergence and its history. It notes that emergence has a long history in evolutionary theory dating back to the 19th century, though it fell out of favor with the rise of genetics and reductionism in the early 20th century. More recently, interest in emergence has re-emerged with the growth of complexity theory and new tools like chaos theory that allow scientists to model complex, dynamic systems. The document explores different interpretations and uses of emergence over time, but notes it has never had a unified theory and has been embraced by both reductionists and holists.
This document provides a summary of key ideas from the book "City of Flows" by Maria Kaika. It discusses three main themes:
1) How the concept of technological progress became defined by connecting to utility networks rather than the utilities themselves.
2) How modernity separated nature from society but in doing so wove them more closely together through networks and flows of natural elements, social power, and capital.
3) How dams represent "creative destruction" through human engineering that recreates the environment using social power and reason.
The document outlines a proposal for a new pedagogical model and practice of architecture called Participatory Housing Practice. It argues that current approaches to addressing the global housing crisis of over 1 billion slum dwellers are too limited in scope and fail to match the scale and urgency of the problem. The new model would train architects as members of transdisciplinary teams focused on participatory design with slum residents. It would prioritize pragmatic solutions over creative expression or standardization and emphasize small, nimble teams deployed rapidly to meet diverse local needs.
This document summarizes a presentation given by Dr. Dean Kruckeberg on using an ecological framework to understand community building and managing change in organizations. Some key points:
- Society is undergoing a revolution driven by advances in communication technology that are fundamentally changing humans.
- Public relations can help address this change but current theories are deficient. Kruckeberg recommends examining a theoretical framework from natural sciences like ecology.
- The work of Aldo Leopold teaches that communities are foundational to ecology. Humans are part of the larger biotic community rather than conquerors of land.
- Leopold's concept of ecology included an "ecological conscience" and view of ethics as a community instinct.
The document provides a quick guide to the paleo lifestyle, which has two important parts: the paleo lifestyle and paleo nutrition. The paleo lifestyle involves eating a diet focused on plants and animals while avoiding processed foods. It emphasizes eating vegetables for vitamins and minerals, and free-range meat, fish, and seafood. Fiber is also highlighted as an important component, noting that the typical modern diet provides much less fiber than our ancestors consumed. The guide recommends getting exercise through frequent movement, heavy lifting, and sprinting once per week. It also stresses the importance of sleep, sunlight exposure, playing, avoiding stupid mistakes, and using your brain. The 80/20 principle allows for some flexibility in the diet on occasion
The document discusses definitions of family across cultures, comparing traditional ideals of family in Japan and the United States, as well as marriage and divorce rates between the two countries. Japan traditionally valued multigenerational households with inheritance passed through sons, while the US ideal involved married couples with children, though modern families vary in both places. Divorce rates are higher in the US at around 3.4 per 1,000 people compared to around 1 in 4 marriages ending in divorce in Japan.
El documento habla sobre la importancia de los resúmenes concisos. Explica que los resúmenes deben capturar la información clave del documento original en 3 oraciones o menos. También menciona que los resúmenes deben ser objetivos y presentar los hechos principales de una manera clara y concisa.
El documento habla sobre la importancia de resumir documentos de manera concisa. Explica que un buen resumen debe contener las ideas principales en 3 oraciones o menos, manteniendo la información clave y de alto nivel del texto original.
Este documento descreve o sistema tributário de Angola e Brasil em relação ao Imposto sobre Valor Acrescentado (IVA). Angola atualmente cobra um Imposto sobre o Consumo que é monofásico e não cumulativo, diferente do futuro IVA. Brasil não tem um único IVA, mas sim quatro impostos diferentes cobrados pelos governos federal, estaduais e municipais.
Bolsa de Valores de Angola (BODIVA) por Altair MartaAltair Marta
I. O documento descreve a história e características da Bolsa de Dívida e Valores de Angola (BODIVA). II. Foi criada em 2014 para regular o mercado de capitais em Angola e promover a negociação de títulos do tesouro. III. Iniciou com o mercado secundário da dívida pública e tem vindo a expandir-se gradualmente em fases.
Epidemiological and microbiological profile of infectious corneal ulcers in t...Dr Laltanpuia Chhangte
This study analyzed 76 cases of infectious corneal ulcers seen at a tertiary care center in Kumaon, Uttarakhand, India over a 2 year period. Ocular trauma, particularly from vegetative materials, was the most common predisposing factor, present in 72.4% of cases. Cultures were positive in 68.4% of cases, with fungi (40.7%) being more common isolates than bacteria (25%). The most common fungal pathogen was Aspergillus spp (54.5% of fungal cases) and the most common bacterial pathogen was Staphylococcus aureus (42.8% of bacterial cases). The findings provide insight into the epidemiology and microbi
This document summarizes key aspects of sensory evaluation of squint or strabismus. It begins by describing normal binocular development and vision, including the development of binocular fusion and stereopsis in infants. It then discusses abnormal binocular vision including sensory adaptations like suppression, anomalous retinal correspondence, and eccentric fixation. Finally, it outlines several tests used to evaluate the sensory system in strabismus, including visual acuity tests, Worth four-dot test, Bagolini striated glasses, 4 prism base out test, synaptophore, and after-image tests.
A case of odontogenic orbital cellulitis causing blindness in young maleDr Laltanpuia Chhangte
This document describes a case report of a 30-year-old male who presented with loss of vision in his right eye due to orbital cellulitis caused by an odontogenic (tooth-related) infection. He had a history of recurrent dental abscesses that he did not properly treat. Imaging showed abscesses in the right temporal muscle and orbit. Cultures grew Staphylococcus aureus. He was treated with IV antibiotics and tooth extraction but lost vision permanently in his right eye due to delayed treatment of the orbital infection. The report discusses how odontogenic infections can spread to the orbit through various pathways and cause vision loss if not promptly treated.
This document discusses complications that can occur during and after cataract surgery. It begins by providing background on the increasing rates of cataract surgery worldwide. It then describes potential intraoperative complications related to anesthesia blocks, surgical wounds, capsulotomies, and more. Postoperative complications that can occur early or late after surgery are also reviewed. The document aims to help surgeons understand and prevent complications by selecting appropriate patients, maintaining sterility, performing safe surgery, and properly correcting refractive errors post-op.
Brad Allenby gave a lecture on technology and the reconstruction of the world from human to transhuman. Some key points:
1) We live in an "Anthropocene" age dominated by human impacts like cities, technology, and cultural/economic systems that influence the planet. The earth's spectrum now carries our technological signature.
2) Technologies are integrated cultural processes, not just things, that drive wide-ranging social, economic, and environmental changes. The railroad is used as an example of a technology that transformed landscapes, markets, and ideas.
3) Emerging technologies like synthetic biology will further blur the lines between nature and culture, making biodiversity and biological systems increasingly subject to human design choices and
On culture introduction-comparison and contextMaryjoydailo
This document provides an introduction and overview of cultural anthropology. It discusses some key concepts like culture, society, and the goals and methods of anthropology. Specifically, it notes that anthropology aims to understand both differences and similarities between human societies by studying local contexts in detail through long-term fieldwork using participant observation. While traditionally focused on small-scale societies, anthropology now studies any social system. The concepts of culture and society are complex and have been debated, but culture generally refers to acquired behaviors and meanings, while society refers to patterns of social interaction and organization.
1) The document discusses how technology is transforming humanity and the world in profound ways. As technologies become more powerful, they allow for greater human enhancement and modification.
2) It analyzes how humanity has already significantly altered planetary systems and created an "Anthropocene" period defined by the dominant influence of human activity. Examples given include altering the Earth's radiation spectrum and significantly impacting climate and biodiversity.
3) The development of new technologies like synthetic biology is further blurring the boundaries between human, natural, and engineered systems. This is reconstruction humanity's relationship with nature and other lifeforms.
This document discusses several key aspects of ecology and diversity. It explains that ecology and diversity both focus on measurable properties like types, importance, and unevenness. In ecology, diversity is viewed statistically by some and as number of species by others. All relationships in ecology are inversely related to diversity. Identifying populations is important for defining diversity and ecology. Ecology involves understanding an organism's interrelationships with its environment, and how populations can diversify over time in response to changes. Diversity is also relevant to attaining multiculturalism in school populations.
Animal Cameras Virtual Reality And Factory FarmingKatie Robinson
This article discusses the use of new media technologies like aerial photography, drones, and virtual reality by artists and activists seeking to document the hidden lives of farm animals in large-scale industrial agriculture facilities. Such facilities actively work to prevent direct observation and documentation through policies like "Ag-gag" laws. Virtual reality documentaries aim to immerse viewers in the experiences of farmed animals in an effort to promote empathy and change viewing practices, but the article questions whether this can truly achieve experiencing life "from the animal's point of view" or put the viewer "in the animal's place." Overall, the article examines how new technologies both enable new forms of representing farm animals while also being shaped by the aims and constraints of industrial agriculture
Sample essay on ecosystem of the nile river. Essay on Ecosystem Restoration | Essay Writing on Ecosystem for Children. Essay on Ecosystems at Risk | Geography - Year 12 HSC | Thinkswap. (PDF) Restoration Ecolog y and the Ecosystem Perspective | Louis Toth .... Reflection essay: Essay on ecosystem. Creation Of Ecosystems Essay. write essay on ecosystem restoration | easy & short essay on ecosystem .... Ecosystem Restoration Essay // Essay on Ecosystem Restoration// - YouTube.
The document discusses the concept of "The Two Cultures" proposed by C.P. Snow, referring to the lack of communication between sciences and humanities. It also summarizes perspectives from the sociology of scientific knowledge arguing that scientific concepts are social constructs dependent on language and culture rather than objective truths. Critics like Alan Sokal and Steven Pinker argue this "strong form" dismisses the objective realities discovered by science.
A knowledge-based society - Can we still afford it? Or can we afford not hav...Giuseppe De Nicolao
Presentazione di José Mariano Gago al II Convegno Roars: “Higher Education and Research Policies in Europe: Challenges for Italy”, 21 febbraio 2014
CNR, Piazzale A. Moro 7, Roma
The document provides a quick guide to the paleo lifestyle, which has two important parts: the paleo lifestyle and paleo nutrition. The paleo lifestyle involves eating a diet focused on plants and animals while avoiding processed foods. It emphasizes eating vegetables for vitamins and minerals, and free-range meat, fish, and seafood. Fiber is also highlighted as an important component, noting that the typical modern diet provides much less fiber than our ancestors consumed. The guide recommends getting exercise through frequent movement, heavy lifting, and sprinting once per week. It also stresses the importance of sleep, sunlight exposure, playing, avoiding stupid mistakes, and using your brain. The 80/20 principle allows for some flexibility in the diet on occasion
The document discusses definitions of family across cultures, comparing traditional ideals of family in Japan and the United States, as well as marriage and divorce rates between the two countries. Japan traditionally valued multigenerational households with inheritance passed through sons, while the US ideal involved married couples with children, though modern families vary in both places. Divorce rates are higher in the US at around 3.4 per 1,000 people compared to around 1 in 4 marriages ending in divorce in Japan.
El documento habla sobre la importancia de los resúmenes concisos. Explica que los resúmenes deben capturar la información clave del documento original en 3 oraciones o menos. También menciona que los resúmenes deben ser objetivos y presentar los hechos principales de una manera clara y concisa.
El documento habla sobre la importancia de resumir documentos de manera concisa. Explica que un buen resumen debe contener las ideas principales en 3 oraciones o menos, manteniendo la información clave y de alto nivel del texto original.
Este documento descreve o sistema tributário de Angola e Brasil em relação ao Imposto sobre Valor Acrescentado (IVA). Angola atualmente cobra um Imposto sobre o Consumo que é monofásico e não cumulativo, diferente do futuro IVA. Brasil não tem um único IVA, mas sim quatro impostos diferentes cobrados pelos governos federal, estaduais e municipais.
Bolsa de Valores de Angola (BODIVA) por Altair MartaAltair Marta
I. O documento descreve a história e características da Bolsa de Dívida e Valores de Angola (BODIVA). II. Foi criada em 2014 para regular o mercado de capitais em Angola e promover a negociação de títulos do tesouro. III. Iniciou com o mercado secundário da dívida pública e tem vindo a expandir-se gradualmente em fases.
Epidemiological and microbiological profile of infectious corneal ulcers in t...Dr Laltanpuia Chhangte
This study analyzed 76 cases of infectious corneal ulcers seen at a tertiary care center in Kumaon, Uttarakhand, India over a 2 year period. Ocular trauma, particularly from vegetative materials, was the most common predisposing factor, present in 72.4% of cases. Cultures were positive in 68.4% of cases, with fungi (40.7%) being more common isolates than bacteria (25%). The most common fungal pathogen was Aspergillus spp (54.5% of fungal cases) and the most common bacterial pathogen was Staphylococcus aureus (42.8% of bacterial cases). The findings provide insight into the epidemiology and microbi
This document summarizes key aspects of sensory evaluation of squint or strabismus. It begins by describing normal binocular development and vision, including the development of binocular fusion and stereopsis in infants. It then discusses abnormal binocular vision including sensory adaptations like suppression, anomalous retinal correspondence, and eccentric fixation. Finally, it outlines several tests used to evaluate the sensory system in strabismus, including visual acuity tests, Worth four-dot test, Bagolini striated glasses, 4 prism base out test, synaptophore, and after-image tests.
A case of odontogenic orbital cellulitis causing blindness in young maleDr Laltanpuia Chhangte
This document describes a case report of a 30-year-old male who presented with loss of vision in his right eye due to orbital cellulitis caused by an odontogenic (tooth-related) infection. He had a history of recurrent dental abscesses that he did not properly treat. Imaging showed abscesses in the right temporal muscle and orbit. Cultures grew Staphylococcus aureus. He was treated with IV antibiotics and tooth extraction but lost vision permanently in his right eye due to delayed treatment of the orbital infection. The report discusses how odontogenic infections can spread to the orbit through various pathways and cause vision loss if not promptly treated.
This document discusses complications that can occur during and after cataract surgery. It begins by providing background on the increasing rates of cataract surgery worldwide. It then describes potential intraoperative complications related to anesthesia blocks, surgical wounds, capsulotomies, and more. Postoperative complications that can occur early or late after surgery are also reviewed. The document aims to help surgeons understand and prevent complications by selecting appropriate patients, maintaining sterility, performing safe surgery, and properly correcting refractive errors post-op.
Brad Allenby gave a lecture on technology and the reconstruction of the world from human to transhuman. Some key points:
1) We live in an "Anthropocene" age dominated by human impacts like cities, technology, and cultural/economic systems that influence the planet. The earth's spectrum now carries our technological signature.
2) Technologies are integrated cultural processes, not just things, that drive wide-ranging social, economic, and environmental changes. The railroad is used as an example of a technology that transformed landscapes, markets, and ideas.
3) Emerging technologies like synthetic biology will further blur the lines between nature and culture, making biodiversity and biological systems increasingly subject to human design choices and
On culture introduction-comparison and contextMaryjoydailo
This document provides an introduction and overview of cultural anthropology. It discusses some key concepts like culture, society, and the goals and methods of anthropology. Specifically, it notes that anthropology aims to understand both differences and similarities between human societies by studying local contexts in detail through long-term fieldwork using participant observation. While traditionally focused on small-scale societies, anthropology now studies any social system. The concepts of culture and society are complex and have been debated, but culture generally refers to acquired behaviors and meanings, while society refers to patterns of social interaction and organization.
1) The document discusses how technology is transforming humanity and the world in profound ways. As technologies become more powerful, they allow for greater human enhancement and modification.
2) It analyzes how humanity has already significantly altered planetary systems and created an "Anthropocene" period defined by the dominant influence of human activity. Examples given include altering the Earth's radiation spectrum and significantly impacting climate and biodiversity.
3) The development of new technologies like synthetic biology is further blurring the boundaries between human, natural, and engineered systems. This is reconstruction humanity's relationship with nature and other lifeforms.
This document discusses several key aspects of ecology and diversity. It explains that ecology and diversity both focus on measurable properties like types, importance, and unevenness. In ecology, diversity is viewed statistically by some and as number of species by others. All relationships in ecology are inversely related to diversity. Identifying populations is important for defining diversity and ecology. Ecology involves understanding an organism's interrelationships with its environment, and how populations can diversify over time in response to changes. Diversity is also relevant to attaining multiculturalism in school populations.
Animal Cameras Virtual Reality And Factory FarmingKatie Robinson
This article discusses the use of new media technologies like aerial photography, drones, and virtual reality by artists and activists seeking to document the hidden lives of farm animals in large-scale industrial agriculture facilities. Such facilities actively work to prevent direct observation and documentation through policies like "Ag-gag" laws. Virtual reality documentaries aim to immerse viewers in the experiences of farmed animals in an effort to promote empathy and change viewing practices, but the article questions whether this can truly achieve experiencing life "from the animal's point of view" or put the viewer "in the animal's place." Overall, the article examines how new technologies both enable new forms of representing farm animals while also being shaped by the aims and constraints of industrial agriculture
Sample essay on ecosystem of the nile river. Essay on Ecosystem Restoration | Essay Writing on Ecosystem for Children. Essay on Ecosystems at Risk | Geography - Year 12 HSC | Thinkswap. (PDF) Restoration Ecolog y and the Ecosystem Perspective | Louis Toth .... Reflection essay: Essay on ecosystem. Creation Of Ecosystems Essay. write essay on ecosystem restoration | easy & short essay on ecosystem .... Ecosystem Restoration Essay // Essay on Ecosystem Restoration// - YouTube.
The document discusses the concept of "The Two Cultures" proposed by C.P. Snow, referring to the lack of communication between sciences and humanities. It also summarizes perspectives from the sociology of scientific knowledge arguing that scientific concepts are social constructs dependent on language and culture rather than objective truths. Critics like Alan Sokal and Steven Pinker argue this "strong form" dismisses the objective realities discovered by science.
A knowledge-based society - Can we still afford it? Or can we afford not hav...Giuseppe De Nicolao
Presentazione di José Mariano Gago al II Convegno Roars: “Higher Education and Research Policies in Europe: Challenges for Italy”, 21 febbraio 2014
CNR, Piazzale A. Moro 7, Roma
This chapter discusses cosmic evolution as a unifying concept in science. The author argues that energy drives the rising complexity of systems in the universe, from galaxies and stars to lifeforms. Cultural curiosity is both a result of and helps explain cosmic evolutionary events that shaped our origins. The chapter presents an emerging scientific worldview based on ubiquitous change in nature, supported by evidence of change across all scales from galaxies to life. Cosmic evolution traces developmental changes in radiation, matter, and life throughout the universe.
Ch2 ohandbook http://www.cheapassignmenthelp.com/ Assignment Help
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History, Philosophy & Theory in Visualization: Everything you know is wrongLiz Dorland
A poster for the Gordon Research Conference on Visualization in Science and Education 2007, commenting on the complexity of dealing with different perspectives on learning from visualizations.
This document discusses the Marxist view of science as both reflecting objective reality while also being a product of history. It addresses how scientific discoveries are driven by the needs of society but also follow an inner logic. While science reflects material relationships, the categories used to understand these relationships can be influenced by ideology. The relationship between science and ideology is complex and the Marxist view seeks to reconcile how science can be both historically produced and create objective knowledge.
Social Change (writing only)Re-imagine historical images. Resear.docxrosemariebrayshaw
Social Change (writing only)
Re-imagine historical images. Research the work and writings of social activist photographers until you can become them; that is, what would Hill and Adamson, Lewis Hine or Jacob Riis photograph today if they lived where you live? What social issue needs an advocate? In a 250-to-400-word essay, which includes references to readings on the photographer you are emulating, discuss how you would approach creating this extended documentary project. For this project you need to consult at least three credible and substantial sources and list them in an endnote. If you quote from the source, you need to include the page number(s) of the source you quoted or the URL of the electronic source and the page number the quote is on.
Grading rubric for option 3 (writing only): (Total 100 points)
Grading rubric
Points
Does the paper include a research question that frames the discussion?
10
Were at least three credible and substantial sources consulted and included in an endnote
25
Quality of the writing (how well you develop the essay, clarity of expression, structure)
50
Is the paper free of spelling and grammatical mistakes?
5
Does the paper fall within the word limit of 250–400 words?
10
Total
100
145
The Drama Review 46, 2 (T174), Summer 2002. Copyright 2002
New York University and the Massachusetts Institute of Technology
Performance Studies
Interventions and Radical Research1
Dwight Conquergood
According to Michel de Certeau, “what the map cuts up, the story cuts across”
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point. Our understanding of “local context” expands to encompass the historical,
dynamic, often traumatic, movements of people, ideas, images, commodities, and
capital. It is no longer easy to sort out the local from the global: transnational
circulations of images get reworked on the ground and redeployed for local,
tactical struggles. And global � ows simultaneously are encumbered and energized
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contingent construction, and that global forces are taken up, struggled over, and
refracted for site-speci� c purposes. The best of the new cultural theory distin-
guishes itself from apolitical celebrations of mobility, � ow, and easy border cross-
ings by carefully tracking the transitive circuits of power and the political
economic pressure points that monitor the migrations of people, chann.
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1. http://tcs.sagepub.com/
Theory, Culture & Society
http://tcs.sagepub.com/content/27/2-3/233
The online version of this article can be found at:
DOI: 10.1177/0263276409361497
2010 27: 233Theory Culture Society
Sheila Jasanoff
A New Climate for Society
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2. A New Climate for Society
Sheila Jasanoff
Abstract
This article argues that climate change produces discordances in established
ways of understanding the human place in nature, and so offers unique
challenges and opportunities for the interpretive social sciences. Scientific
assessments such as those of the Intergovernmental Panel on Climate
Change helped establish climate change as a global phenomenon, but in
the process they detached knowledge from meaning. Climate facts arise
from impersonal observation whereas meanings emerge from embedded
experience. Climate science thus cuts against the grain of common sense and
undermines existing social institutions and ethical commitments at four
levels: communal, political, spatial and temporal. The article explores the
tensions that arise when the impersonal, apolitical and universal imaginary
of climate change projected by science comes into conflict with the subjec-
tive, situated and normative imaginations of human actors engaging with
nature. It points to current environmental debates in which a reintegration
of scientific representations of the climate with social responses to those
representations is taking place. It suggests how the interpretive social
sciences can foster a more complex understanding of humanity’s climate
predicament. An important aim of this analysis is to offer a framework in
which to think about the human and the social in a climate that seems to
render obsolete important prior categories of solidarity and experience.
Key words
climate change ■ civic epistemology ■ co-production ■ environment ■
interpretive social science
If we had a keen vision and feeling of all ordinary human life, it would be
like hearing the grass grow and the squirrel’s heart beat, and we should die
of that roar which lies on the other side of silence. As it is, the quickest of
us walk about well wadded with stupidity. (George Eliot, Middlemarch)
■ Theory, Culture & Society 2010 (SAGE, Los Angeles, London, New Delhi, and Singapore),
Vol. 27(2–3): 233–253
DOI: 10.1177/0263276409361497
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3. I
F THE novelist’s mission is to celebrate the specificity of ‘all ordinary
human life’, science’s mission has been to transcend it. In Middlemarch,
George Eliot raised a young woman’s marital mistakes to the level of
universal truth through a thick description of her emotional and spiritual
existence. Dorothea Brooke is the triumphant portrait of an ‘insignificant’
woman whose ardent nature ‘spent itself in channels which had no great
name on the earth’. Recounting Dorothea’s life in casual generalities, as a
statistician might, makes it colorless and empty of meaning: ‘she was spoken
of to a younger generation as a fine girl who married a sickly clergyman old
enough to be her father, and in a little more than a year after his death gave
up her estate to marry his cousin – young enough to have been his son’.
Abstracted in this way, Dorothea risks being dismissed as a two-dimensional
creature of little morality and no depth who could not have been ‘a nice
woman’. To see her whole, with the moral force of a latter-day Antigone or
St Theresa, Eliot gives us recourse to the fine-grained detail of Dorothea’s
personal trials and tragedies. Only through her hesitant, self-denying
accommodations with less noble characters in her life – the cold and jealous
Casaubon, the impecunious enthusiast Ladislaw, the disappointed idealist
Lydgate, and the unbearably light Celia Brooke and Rosamond Vincy – does
Dorothea come into her own as a fully formed human being, a quiet yet
heroic everywoman whose effect ‘on those around her was incalculably
diffusive’ (Eliot, 1956: 612–13).
Abstraction, by contrast, is the method by which modern science
achieves its universality and heft. Science wrenches phenomena out of their
specific contexts, makes parts meaningful independently of wholes, and
recombines segments in ways that transgress boundaries fixed by law,
custom, tradition or institutional practice. Science creates entities – the
periodic table of chemical elements, the nitrogen cycle, blood pressure, the
metric system, biodiversity, the ozone hole – that reflect no one’s unmediated
observations of the world and yet are recognized and accepted as real. It is
this very capacity to make ideas and objects that travel, spilling over the
limits of lived experience, that students of the scientific enterprise have
taken as the foundation of science’s special cognitive authority.
Science, on the conventional account, faithfully mirrored nature and
thereby underwrote shared human understandings of how the world works.
In the newer version, historically excavated and ethnographically observed
by a generation of scholars, science represents rather than mirrors reality
(Hackett et al., 2007; Jasanoff et al., 1995). It may do so with utmost honesty
and care, but science’s products are at best images of real things, and much
work has to be done to make the representations look as if they are the right
ways of characterizing the world. That work tends to erase specificity and
remove traces of the human mind and hand: all the moorings that tie
scientific claims to local, subjective and contingent circumstances are cut
loose so that claims may float freely and persuade people as objective facts
(Daston and Galison, 2007; Latour, 1990). Inevitably, the process of making
things impersonal eliminates not only subjectivity but also meaning;
234 Theory, Culture & Society 27(2–3)
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4. scientific facts arise out of detached observation whereas meaning emerges
from embedded experience. Science’s erasures of local specificity, similar
in many respects to the knowledge dynamics that accompanied the emer-
gence of ‘state’ and ‘society’ as analytic categories in the 19th century
(Skocpol and Rueschemeyer, 1996),1 are an important source of the conflicts
that have arisen around climate change – which many see as the pressing
problem for humanity in our era.
This article reflects on the nature and implications of the pull between
abstraction and specificity, objectivity and subjectivity, in representations
of climate change. It shows how those polarities come into play at four levels
of conceptual organization: community, polity, space and time. It explores
what is at stake when an impersonal, apolitical, and universal imaginary of
climate change, projected and endorsed by science, takes over from the
subjective, situated and normative imaginations of human actors engaging
directly with nature. It points to current environmental debates in which a
reintegration between global scientific representations of and local social
responses to the climate are taking place; and it suggests how the interpre-
tive social sciences can lead to a fuller understanding, if not a resolution,
of humanity’s climate predicament.
Scales of Knowing, Scales of Meaning
Science is not the only, nor even the primary, medium through which people
experience climate. We need no warrant other than our senses and
memories, supplemented by familiar recording devices such as the calendar
or the gardeners’ almanac, to register the vagaries of the weather, the
changing of the seasons, the fertility of the soil, the migration of birds, or
the predation of insects. Increasingly, however, the politics of nature occurs
under the rubric of ‘environment’ – a domain of ideas and entities accessi-
ble only with the aid of science and technology. A scientifically untrained
eye, for example, might learn to recognize the terrible wasting symptoms of
cancer, but inspection alone could not show us a disease called ‘environ-
mental cancer’ or an allergic condition known as ‘multiple chemical sensi-
tivity’. The environment today is replete with invisible, elusive, fearful, yet
wholly ‘real’ entities revealed to us by science: acid rain, ozone depletion,
pesticide tolerance, carrying capacity, overpopulation, species loss and,
most recently, climate change. Curiously, despite the universality of science,
these constructions are among the most frequent focal points of environmen-
tal controversy, a class of conflicts that barely had a name a generation ago.
Why these most ‘scientific’ aspects of nature (things known and knowable
only with the aid of science) should also be the most contested is a large
part of the problem I consider in this article.
It is not a trivial problem. Most analysts of science over the past few
decades have assumed science’s supreme cognitive authority as a given and
sought chiefly to explain its causes. For example, the eminent American
sociologist Robert Merton attributed to science a constellation of virtues, or
norms, that underwrite its power to persuade others. Among these was
Jasanoff – A New Climate for Society 235
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5. ‘universalism’. Science, according to Merton (1973), is entitled to special
deference precisely because it liberates the truths of nature from particular
social and cultural settings. While rejecting such claims of specialness
(Bimber and Guston, 1995), more recent work in the social studies of
science has also stressed the exceptional carrying power of scientific knowl-
edge. This theme is paramount in the work of the French sociologist and
philosopher Bruno Latour, who emphasizes the complex ‘translations’
effected by knowledge-making practices. In an influential essay, Latour
(1990: 25–6) argued that a key to the success of science is its capacity to
produce ‘immutable mobiles’, representations that are simultaneously
‘immutable, presentable, readable and combinable with one another.’
Scientific facts accordingly look the same, he said, whether the users and
consumers of those objects happen to exist peripherally on the remote
Pacific island of Sakhalin or centrally in the resplendent court of Louis XVI
at Versailles. Indeed, Latour would have us see the objects and categories
that constitute our political and social life, such as capital or interests or
class or law, as products of writing and craftsmanship similar to those with
which science creates its boundary-spanning images of nature (see also
Latour, 1987; Latour and Woolgar, 1986; and, questioning the idea of strict
immutability, Mol and Law, 1994).
My argument here rests on a more modest and grounded view of
environmental knowledge. Representations of the natural world attain
stability and persuasive power, in my view, not through forcible detachment
from context, but through constant, mutually sustaining interactions
between our senses of the is and the ought: of how things are and how they
should be. The epistemic claims of environmental science are most trusted
when they engage with practices that confer normative authority – not only
scientific practices such as peer review (Merton’s ‘organized skepticism’)
but also the cultural practices of democratic politics and the law. Climate
change, on this account, is problematic because it tends to separate the
epistemic from the normative, divorcing is from ought. Crudely put, it
detaches global fact from local value, projecting a new, totalizing image of
the world as it is, without regard for the layered investments that societies
have made in worlds as they wish them to be. It therefore destabilizes
knowledge at the same time as it seeks to stabilize it. To know climate
change as science wishes it to be known, societies must let go of their
familiar, comfortable modes of living with nature.
This argument is consistent with the framework of co-production – the
simultaneous making of the natural and social worlds – that has gained
currency in science and technology studies in recent years (Jasanoff, 2004).
Close readings of science and technology in-the-making have brought to
light complex ways in which the construction of stable knowledge inter-
penetrates with the formation of core elements that stabilize society:
identities, institutions, discourses and representations, among others. The
historians Steven Shapin and Simon Schaffer put the point this way in their
pathbreaking study of the disputes between Thomas Hobbes and Robert
236 Theory, Culture & Society 27(2–3)
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6. Boyle about the experimental method in Restoration England: ‘solutions to
the problem of knowledge are embedded within practical solutions to
the problem of social order’, whereas ‘different practical solutions to the
problem of social order encapsulate contrasting practical solutions to the
problem of knowledge’ (Shapin and Schaffer, 1985: 15). In the framework
of co-production, virtue in science cannot be constituted any differently
from virtue in society; the two are inseparable, cut from the same cultural
cloth, and seamed with the same ethical and political understandings.
The facts produced by the early English experimental scientists, as
Shapin and Schaffer relate, could be democratized in a sense because they
were represented as facts – through new material, literary and social prac-
tices – to ‘virtual witnesses’ who had never entered Boyle’s laboratory or
handled his air pump, but who came to believe in the truth of what he had
demonstrated. For contemporary builders of climate reality, the correspon-
ding work of making robust and credible representations for a global polity
has only just begun. If climate change is to have a compelling global
meaning, then the planetary community that needs to buy into that meaning
system is still a-borning (Miller and Edwards, 2001; Jasanoff and Martello,
2004). That the climate changes is not news to communities with long
histories of living with nature, but ‘climate change’ – the scientific phenom-
enon – employs techniques of aggregation and deletion, calculation and
comparison that exhaust the capacities of even the most meticulously
recorded communal memories. Indeed, climate change arguably displaces
the very notion of community by displacing human beings, both as a species
and as a source of norms, in favor of an impersonal, but naturalized, object
of concern.
Climate science cuts against the grain of ordinary human experience,
the basis for our social arrangements and ethical instincts, at four inter-
related levels: communal, political, spatial and temporal. As the boundaries
of states dissolve in the post-bipolar, globalizing world, and new civil society
groups compete to represent nature on their own terms, climate change too
risks dissolving and losing solidity. Politically, climate change cannot be
subsumed within the knowledge-making routines of even the most scientifi-
cally advanced nation-states or validated in accordance with any single
nation’s sovereign administrative practices. Climate, moreover, is spatially
unbounded. It is everywhere and nowhere, hence not easily accessible to
imaginations rooted in specific places. And, unlike the weather, climate
change occurs over spans of time that are not easily assimilated to circa-
dian or seasonal rhythms: it is not perceptible nor provable as a day or year
of human life shades into the next. By empowering new, esoteric centers of
knowledge and stretching out the normal horizons of time, climate change
virtually reverses the trend toward direct horizontal access and secular time
that Charles Taylor (2004) takes as determinants of the modern social
imaginary. These are radical shifts, and we should not be surprised if it takes
decades, even centuries, to accommodate to such a revolutionary reframing
of human-nature relationships.
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7. Living creatively with climate change will require re-linking larger
scales of scientific representation with smaller scales of social meaning.
How, at the levels of community, polity, space and time, will scientists’
impersonal knowledge of the climate be synchronized with the mundane
rhythms of lived lives and the specificities of human experience? A global
consensus on the meaning and urgency of climate change cannot arise on
the basis of expert consensus alone – not even with the aid of impassioned
proselytizers such as former US Vice President Al Gore. For all its influ-
ence in the lead-up to the 1992 Rio Earth Summit and beyond, the World
Commission on Environment and Development (Brundtland Commission)
missed this point when it optimistically proclaimed that a systemic, trans-
local and transhistorical way of knowing nature was replacing human-
centered experiences of the environment (WCED, 1987: 308): ‘From space,
we see a small and fragile ball dominated not by human activity and edifice
but by a pattern of clouds, oceans, greenery, and soils. Humanity’s in-
ability to fit its activities into that pattern is changing planetary systems
fundamentally.’
From decades of international foot-dragging on climate, we have
learned that the Commission’s ‘not-but’ logic was inadequate, if not fatally
flawed. The question today is how to replace the ‘not-but’ dichotomy of
systemic versus specific framings with the integrative logic of ‘both-and’:
how can climate be seen both as a matter of situated ‘human activity and
edifice’ and as a function of greenhouse gases mingling with the ‘clouds,
oceans, greenery, and soils’ that pattern the Earth’s inanimate face? To find
our way there, we must probe more deeply the four scalar shifts that have
accompanied scientific constructions of the climate. We need to see more
clearly why taking climate change on board is at once a moral and an
epistemic undertaking, and how this particular re-representation of nature
intersects with the meaning as well as the materiality of modern existence.
Community
While preparing its report, Our Common Future, the Brundtland Commis-
sion held a number of hearings worldwide to elicit and incorporate global
public views into its assessment. Quotations from those hearings are
interspersed throughout the published text, where (without interpretation or
discussion) they make tantalizing reading. A poignant intervention by a
Brazilian witness reads as follows: ‘You talk very little about life, you talk
too much about survival. It is very important to remember that when the
possibilities for life are over, the possibilities for survival start. And there
are peoples here in Brazil, especially in the Amazon region, who still live,
and these people that still live don’t want to reach down to the level of
survival’ (WCED, 1987: 40).
What was this speaker saying to the global experts who coined the
term ‘sustainability’ and who helped cement the view of environmental
degradation as a planetary problem? Decades later, the report’s readers can
only guess at the meaning of a brief passage detached from context, but the
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8. passion in the words is unmistakable, and moving. The crux is in the
contrast between ‘living’ and ‘survival’: the former rich, grounded, particu-
lar to the experiences of specific peoples in identifiable places, such as the
Amazon region; the latter impersonal, detached from community, indiffer-
ent to life itself. It is not hard to see here an eloquent critique of modern
biopolitics, with its dispassionate statistical gaze and its tendency to
simplify in order to aggregate, to a point where the essential meanings and
purposes of human existence are deleted (Foucault, 1998; Scott, 1998).
Policy-makers concerned with survival, this speaker from Brazil seems to
say, will not be bothered by the fates of living individuals in real commu-
nities. This is why, from the standpoint of those ‘who still live’, it is a sort
of demotion, a ‘reaching down’, to become a cipher in a calculus concerned
only with the nameless, faceless challenge of planetary survival.
Polity
The co-production framework directs our attention to the political work that
must be done in order to bring about an actionable consensus on scientific
facts. Benedict Anderson’s (1991) fruitful concept of the nation-state as an
imagined community offers a useful starting point for thinking about the
nature of that work. Nationhood, Anderson argued, makes no sense as a
spatial construct pure and simple. It is not simply a matter of living within
defined territorial boundaries: one has to factor in what makes a nation’s
people, its subjects and its citizens, feel themselves to be part of a single
community. That self-identification, according to Anderson, is promoted and
nurtured through self-conscious deployment of words and symbols by those
in power, propelled by the convergent interests of capital, the media and
those who rule. We, however, cannot assume that powerful images of nation-
hood (maps, museums, censuses) or of nature win the assent of viewing
populations without their active concurrence. With postcolonial imagina-
tions set free, and technologies of mass communication readily accessible,
people can exercise far more choice in deciding whose claims to believe
and which loyalties to adopt.
In the industrial West, science and politics have long collaborated to
produce dominant understandings of nature. Behind the public face of
environmental science, the norm-building capacities of nation-states are
continually at work, setting baseline conditions for whose knowledge counts
and when knowledge is sufficient for action. How does climate change
resonate with or disrupt that work of politically mediated co-production?
The methods by which governmental bodies assess the validity and
weight of environmental knowledge, define and manage uncertainty, or
resolve disputes about data and evidence show much consistency within
nation-states, though they vary between states. A nation’s citizens are
acculturated into relatively settled ways of public knowledge-making and
argumentation, or what I call ‘civic epistemologies’ (Jasanoff, 2005a). It
follows that scientific studies deemed reliable and persuasive in one country
may be dismissed as inadequate for policy guidance in another, although
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9. regulators in both are attuned to the same social, political and economic
demands. The embrace of nuclear power in France or South Korea and its
rejection in the United States and Germany, and the European refusal to
accept American-backed guarantees of the safety of genetically modified
crops, exemplify the fact that informed citizens in one democratic society
may reject as insupportable risks that are deemed entirely acceptable in
another (Jasanoff, 1986, 2005a; Harrison and Hoberg, 1991).
Documented cultural preferences in evidence and reasoning include
Britain’s reluctance in the 20th century to rely on animal data as a surro-
gate for assessing human health risks (Germany and the United States offer
marked contrasts), and the pervasive reliance of US decision-makers on
mathematical modeling as a basis for environmental standards. One can
speculate about the historical origins of such systematic variations. Is it
plausible, for instance, to see in the modern British predilection for
common-sense, empirical proofs the continuing influence of a gentlemanly
culture whose members learned to trust each other’s claims of experimen-
tal demonstration (Shapin, 1994; Shapin and Schaffer, 1985)? Does math-
ematical modeling in America respond to a skeptical, demographically
diverse culture’s need for impersonal validation of the state’s knowledge and
reasons (Porter, 1995)? The important point here is not to resolve these
questions but to note that scientific facts bearing on the global environment
never take root in a neutral interpretive field; they are dropped into contexts
that have already been conditioned to produce distinctive cultural responses
to scientific claims.
Historically, faith in scientific institutions and their expertise was
constructed in the crucible of national imagined communities, in accor-
dance with prior commitments to reason, due process and social justice.
That process entailed its own frictions (Skocpol and Rueschemeyer, 1996).
Our era of globalization, like earlier revolutionary periods, is in the process
of upsetting those earlier settlements between natural knowledge and polit-
ical order. In the realm of knowledge, efforts to understand natural and
social processes at increasingly complex levels of aggregation are produc-
ing new, boundary-crossing scientific representations. In the realm of
politics, the sovereignty of state-centered methods of validating knowledge
is under challenge from new social organizations, both civic and corporate,
that cut across the operational spheres of nation-states and national markets.
Global institutions such as the Intergovernmental Panel on Climate Change
(IPCC) have arisen to produce expert knowledge for global policy. Though
‘intergovernmental’ in name, the IPCC is not answerable to particular
national traditions of policy legitimation. Claims about the environment and
its sustainability produced by such novel bodies inevitably function as
sites of contestation among competing models of knowledge-making and
governance.
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10. Space
Across the world, the origins of the environmental movement were once
firmly tied to places and particulars. In the United States, place initially
meant the home, as the NIMBY (‘not in my backyard’) movement fought to
keep hazardous technologies such as nuclear power from invading the
precincts of one’s private property. Throughout the 1970s, people all over
the world struggled to protect various bounded spaces that they regarded as
safe or held dear: the backyard, the local stream or lake, the wetland or
stretch of coast, the national park, the sacred hill, and even individual
stands of trees. India’s famed Chipko movement produced indelible images
of women risking their bodies to keep precious trees from being felled.
Woods were places of deep-rooted meaning that people wished to guard
against invasion or permanent loss.2 Any science that showed such
treasured environments to be at risk was taken seriously, indeed according
to some even over-trusted because of cognitive biases that heighten human
perceptions of danger in defiance of statistically defensible probabilities
(Sunstein, 2005). Whatever the explanation, people view threats with
greatest alarm, and are readiest to act defensively, when the place under
siege is personally valued. That is an important normative lesson of the
research on managing common pool resources by Elinor Ostrom (1990) and
her colleagues.
Climate change, too, can be linked to a place, but that place is the
whole Earth. To be sure, shifting the scale of an environmental problem
up to the global level does not necessarily entail losses of meaning or
caring. Ideas of belonging and stewardship can develop on a planetary
scale: the slogan ‘think globally, act locally’ affirms both the possibility
and the promise of connecting global issues back to more personal scales
of meaning. Yet, as I have discussed elsewhere, the idea of the Earth as
a single place is itself contingent on particular histories of exploration and
dominance. The Apollo Mission photographs of earthrise and the Earth in
space, for example, were quickly taken up by the US environmental
community as normative signs, both demonstrating the Earth’s vulnerabil-
ity, and calling on us to be responsible for it. But those evocative images
were products of Cold War rivalries between the United States and the
Soviet Union, and their circulation and impact were more intense in the
United States than elsewhere (Jasanoff, 2001). Historical differences such
as these inevitably color perceptions of climate change, raising disputed
questions: who caused it, how severe is it, who will be hurt by it, who is
responsible for controlling it?
Time
Climate change invites humanity to play god with time. Human eras were
once thought to be momentary blips in the light of eternity: ‘A thousand ages
in thy sight are like an evening gone.’ Now science has put within reach the
capacity (or the illusion of it) to grasp in moments what would take eons to
experience in real time. Computer capability unimaginable a generation ago
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11. makes it possible to simulate in a matter of seconds what will happen, for
example, to land-use and land-cover change across an entire hemisphere in
a hundred years. Climate change itself is routinely plotted in graphs
spanning from decades to millennia, depending on the message being
communicated. Futures that can barely be grasped with the mind are given
visual reality. The famous ‘hockey stick’ graph of global warming provided
by the IPCC in its 2001 assessment report displayed changes in the Earth’s
mean surface temperatures over a thousand years, from 1000 CE to 2000
CE (IPCC Working Group I, 2003, Fig. 2.20).
These shifts in the representation of time have been accompanied by
new modes of accounting and analysis, as well as prescriptions for behav-
ioral change. The best known is the Brundtland Commission’s injunction,
implicit in the definition of sustainable development, that we should leave
the Earth no worse off for future generations than the form in which we
inherited it. ‘Future’ is an open-ended concept, stretching to infinity,
whereas the scope of moral thinking is ordinarily confined to the immedi-
ate past and near-term future. The common law, for example, was reluctant
to prohibit any human activity unless dangers were imminent and foresee-
able, on the basis of present-day proofs; even in the era of risk societies,
regulatory law tends to demand evidence of actual harm (to test animals for
example) before condoning restrictions on private enterprise. Not surpris-
ingly, Europe’s insistence on the precautionary principle, rooted in the civil
law tradition of precisely defining the state’s responsibilities toward
citizens, has clashed with US common law perspectives that focus on the
remediation of empirically documented harm.
No discipline, perhaps, has grappled with the extended time scale of
climate change more vigorously than economics, the field that claims to
value all human transactions occurring in foreseeable time. The method-
ological dispute between Nicholas Stern (2005), leader of the UK govern-
ment’s influential review of the economics of climate change, and William
Nordhaus, a leading US environmental economist, centered in part on
disciplinary differences in accounting for the future costs of a changing
climate. For economists, time injects uncertainty and upsets calculation to
such a degree that the future must be discounted. In applying discount rates,
economists allow for shifts in supply and demand, technology and gover-
nance, in short, for all of the unexpected social and material developments
that impede accurate crystal ball-gazing into remote futures. As Nordhaus
(2007: 201–2) says: ‘In a world where capital is productive and damages
are far in the future . . . the highest-return investments today are primarily
in tangible, technological, and human capital.’ Not knowing the costs of the
future, economists prefer to invest money in known goods today. A high
discount rate can be seen, from this standpoint, as freeing up current capital,
as an antidote to excessive precaution, and as a riposte to the very notion
of sustainability.
Discounting erases the distant future as a topic of calculable concern.
Yet we see in technical debates between economists such as Stern and
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12. Nordhaus a recognition acknowledged by sociologists of time (cf. Adam,
1998) that applying the right discount rate for climate change is itself a
normative choice. When is it time to care; which times should we care about;
whom should we care about in times to come? Nordhaus’s (2007: 202)
critique of the Stern report hovered around these points, while denying that
economics should seek to prescribe how to think about them:
Analyses are sometimes divided between the ‘descriptive approach,’ in which
assumed discount rates should conform to actual political and economic
decisions and prices, and the ‘prescriptive approach,’ where discount rates
should conform to an ethical ideal, sometimes taken to be very low or even
zero. Philosophers and economists have conducted vigorous debates about
how to apply discount rates in areas as diverse as economic growth, climate
change, energy, nuclear waste, major infrastructure programs, hurricane
levees, and reparations for slavery.
The Stern Review takes the prescriptive approach in the extreme . . .
This is classic boundary work, relegating Stern, a proponent of lower
discount rates, to the company of philosophers who seek to conform to ‘an
ethical ideal’. Nordhaus’s sympathies clearly lodge with the descriptive,
empiricist, anti-futurologist imagination of low discount rates, and of
economics as Nordhaus thinks it ought to be.
From Transparency to Conversation
If climate change drives sharp wedges between society’s fact-making and
meaning-making faculties, then the prospect of concerted action in the face
of this epochal threat seems dismal indeed. But are there countervailing
dynamics of reconciliation that offer hope for reconnecting what we know
globally with how we wish to act locally? Can we usefully search for master
keys in the lamplight of historical, sociological and cultural studies of
environmental controversies? What purchase, if any, can be gained for
convergences between knowledge and norms from the idea of co-production
that has developed within science and technology studies?
There is a paradox in contemporary accounts of scientific fact-making
that may profitably be explored further. That paradox centers on science’s
seeming ability to bridge distances in spite of the gap between the abstrac-
tion of scientific knowledge and the thickness of (culturally embedded)
human experience (Geertz, 1973). We know that the truths uncovered by
science and the useful technologies that science helps build must ultimately
be received back into the humdrum rhythms of ordinary lives and experi-
ences in order to ‘work’. It is not enough to know how the hardware or the
material processes of a technology came into being, nor how they operate
in principle; the fit to social practices matters as much, inducing a sense of
ownership and responsibility toward the smooth operation of the system in
question.
When technoscientific systems radically fail to fit their contexts of use,
the consequences may be disruptive, even tragic. Environmental disasters
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13. offer poignant illustrations – for example, the 1984 chemical explosion in
Bhopal, India (Jasanoff, 1997a), the 1986 Chernobyl fallout in Britain
(Wynne, 1996), and the outbreak of ‘mad cow disease’ in Europe. In these
real-world cases of post-disaster misrule, experts and the public talked past
each other as pitiably, if not as artfully, as in White Noise, Don DeLillo’s
(1985) brilliant, manic story of a university community’s disintegration
during an ‘airborne toxic event’. The British public, as I wrote at the time,
experienced the news of mad cow disease jumping to humans as a form of
‘civic dislocation’:
a mismatch between what governmental institutions were supposed to do for
the public and what they did in reality. In the dislocated state, trust in govern-
ment vanished and people looked to other institutions – the high street
butcher, the restaurant, the media, the supermarket – for information and
advice to restore their security. It was as if the gears of democracy had spun
loose, causing citizens, at least temporarily, to disengage from the state.
(Jasanoff, 1997b: 224)
It is not only in the wake of disasters that experts and society fail to
find common ground. The theme of ‘reflexive modernity’ propounded by
Ulrich Beck, Anthony Giddens, Scott Lash and others theorizes a more
pervasive skepticism toward and alienation from science (Beck, 1992; Beck
et al., 1994; Giddens, 1990). The very success of science – in effect, its
mass uptake or popularization – has led in these analysts’ view to a prolif-
eration of the critical, self-questioning resources that were once sequestered
in the laboratory, the clinic or the field test site. Possessed and deployed by
many, the methods of science reflect back on themselves in late modernity,
making science the unwilling target of its own methodological skepticism.3
Reflexive modernity, however, is a trend or tendency, localized
especially in Western democracies, rather than a totalizing story about
science, nature or political action. Human beings do not, after all, make a
habit of questioning all the taken-for-granted assumptions that undergird
their daily existence. Harold Garfinkel’s (1967) social experiments showed
that trust, not distrust, pervades society and that challenging trusting
relations too directly may be risky for social cohesion (see also Shapin and
Schaffer, 1985: 6). Unbounded skepticism about every proffered fact
fractures one’s security and sense of self just as surely as would, in George
Eliot’s universe of sympathetic perception, an excessively ‘keen vision and
feeling of all ordinary human life’; in either case, one would die ‘of that roar
which lies on the other side of silence’ (Eliot, 1956: 144).
Trust, and its partner credibility, then, are part of the armor that
modernity makes us put on against potentially limitless deconstructions of
self and society (Shapin, 1994). But how do we drifters in the alien seas of
climate change know which claims to trust, whose assessments to build on,
and when to let doubt run rampant? How can we recognize the lifeboats and
rescue parties of true knowledge and robust prediction when they arrive
from beyond the horizons of known institutions and cultures? Above all, how
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14. can human communities restore local, particular and actionable meaning to
a phenomenon that repeatedly slips out of the conventional boundaries of
sense-making?
One frequent answer is transparency. Though most social analysts
see transparency as socially constituted, conforming to a given society’s
expectations of what it means to be visible, it is still regarded as an essen-
tial factor in securing belief and trust. Actors in experimental spaces, for
example, project transparency to distant ‘virtual witnesses’ with the aid of
literary, material, and social technologies.4 In modern environmental
science, however, the hegemony of laboratories over matters of fact is atten-
uated, and the relations between creators and users of knowledge have
become complex and recursive. Experimentation itself is no longer
restricted to spaces that scientists control; conversely, scientific experiments
routinely spill into society, as when genetically modified crops with untested
ecological properties are released into the environment. The boundaries
among scientists, citizens, and even natural objects have become fluid and
indeterminate (Haraway, 1991; Latour, 1993; Star and Griesemer, 1989). All
of the heterogeneous components in a knowledge network participate in
varying ways in the production and uptake of environmental knowledge,
necessitating continual interchange between epistemic, social and ethical
sense-making (Shapin, 1995). Not surprisingly, then, the points of disjunc-
ture identified above – community, polity, space and time – have also
become sites of renewed debate, turning matters of fact into topics of
conversation.
But how can anyone speak meaningfully, let alone act with confidence,
with respect to a nature that is hybrid, fluid, contingent and endlessly de-
constructible? In a collection of essays devoted to rethinking nature in
modernity, the environmental historian William Cronon (1995: 25) crisply
captured the dilemma:
The work of literary scholars, anthropologists, cultural historians, and critical
theorists over the past several decades has yielded abundant evidence that
‘nature’ is not nearly so natural as it seems. Instead, it is a profoundly human
construction. This is not to say that the nonhuman world is somehow unreal
or a mere figment of our imaginations – far from it. But the way we describe
and understand that world is so entangled with our own values and assump-
tions that the two can never be fully separated. What we mean when we use
the word ‘nature’ says as much about ourselves as about the things we label
with that word.
Unlike literary and artistic works of human creativity, however, nature does
not manifest itself in infinitely varied forms across human societies. Its
plasticity is limited. Instead of splintering indefinitely, interpretations fall
into a few broadly defined camps. Epistemic communities, united by
common perceptions of what counts as natural and what should be done to
protect nature, do form across divisive social and political lines (Haas,
1990). I conclude with a few examples of conversations currently in progress
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15. that may help reintegrate global knowing with local meaning around the
contested, changing climate.
Bridging Scales
One strand of that conversation concerns membership in the moral commu-
nity whose environmental fates we should care about. Transboundary move-
ments of persons, non-human entities and commodities have rendered
rigidly place-based justifications for caring about others increasingly diffi-
cult to sustain. Indicative of a new mood of expanded stewardship is the
rising visibility of non-human actors as participants with us in the grand
planetary journey. An early sign of this extension of caring, written just three
years after the passage of the landmark US National Environmental Policy
Act in 1969, was the legal scholar Christopher Stone’s 1972 essay ‘Should
Trees Have Standing?’ Here, Stone argued that entities such as forests,
oceans, and rivers, along with ‘the natural environment as a whole’, should
be granted legal rights similar to those of any human being. Such rights, he
suggested, could be represented in court by legal guardians, much as
lawyers represent the rights of other silent subjects such as corporations,
municipalities or mental incompetents. To the objection that it might be
difficult to determine the ‘needs’ of natural objects, Stone (1974: 24)
responded:
. . . natural objects can communicate their wants (needs) to us, and in ways
that are not terribly ambiguous. I am sure I can judge with more certainty
and meaningfulness whether and when my lawn wants (needs) water, than the
Attorney General can judge whether and when the United States wants
(needs) to take an appeal from an adverse judgment by a lower court. The
lawn tells me by a certain dryness of the blades and soil – immediately
obvious to the touch – the appearance of bald spots, yellowing, and a lack of
springiness after being walked on; how does ‘the United States’ communicate
to the Attorney General?
Widely admired for its moral clarity, Stone’s essay failed in its instrumen-
tal purpose. Federal courts did liberalize the concept of standing for a time,
so that public interest groups could assert aesthetic and recreational as well
as economic interests in preserving nature. However, the notion of rights for
natural objects proved too strange (unnatural?) for courts to take up. Instead,
people debated whether and how natural objects might be valued, and so
relegated questions of responsibility to the domain of environmental ethics.
Today, a generation later, the moral relationship of human beings to
other members of a shared environmental community is again a subject of
intense, though fragmented, conversation. Bruno Latour’s provocative call
to admit things into the politics of nature can be taken as a recasting of
Stone’s legal language into the contemporary discourse of science studies,
and as itself a sign of blurring ontological categories as nature morphs into
environment (Latour, 2004). But ontological questioning is also taking place
beyond the reflections of academics. In 2008, for example, the constitution
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16. of Ecuador gave nature the ‘right to exist, persist, maintain and regenerate
its vital cycles, structure, functions and its processes in evolution’. Consti-
tutional rights to life for animals have been recognized in several countries,
including Spain and Germany. The Indian constitution, one of the few in
the world to offer explicit recognition to environmental values, directs the
state ‘to protect and improve the environment and to safeguard the forests
and wildlife of the country’; correspondingly, each citizen of India has a
fundamental duty ‘to protect and improve the natural environment includ-
ing forests, lakes, rivers and wild life, and to have compassion for living
creatures’. The interpretation and implementation of such principles, as well
as their long-term harmonization, will follow trajectories we cannot yet
foresee, but they represent self-conscious efforts to redefine the very
meaning of the moral community in the face of paradigmatic environmental
change.
At the political level, global environmental governance is generating
new concepts of citizenship (Jasanoff, 2005b). Given the increases in
cross-border political activity around the environment, this is not surpris-
ing. As of late 2009, the web-based Environmental Treaties and Resource
Indicators recorded 464 international agreements dealing with the environ-
ment. Each entails its own political practices, addressing issues of voice
and representation, expertise, and dispute resolution. Harder to pin down,
but perhaps more significant in the long run, is the bottom-up role of citizens
and non-governmental organizations in shaping the direction of transna-
tional policies – introducing preferences and demands that may get washed
out in formal, state-to-state negotiations, such as the disappointing
Copenhagen climate conference of late 2009. In historical hindsight, the
1992 Rio Earth Summit may be remembered as a watershed moment when
a global social movement began forming around climate change and other
planetary environmental problems. But equally noteworthy are more local-
ized attempts to repossess the global, as for example when, in 2005, the
Inuk activist and chair of the Inuit Circumpolar Conference, Sheila Watt-
Cloutier, filed a petition with the Inter-American Commission on Human
Rights on behalf of herself and 62 other named plaintiffs, claiming relief
for global warming caused by the United States. A similar impetus to assert
bottom-up citizenship in planetary matters was at play when 12 states and
several cities of the United States, led by Massachusetts, filed a successful
lawsuit against the Environmental Protection Agency for failure to address
greenhouse gases as a pollutant under the federal Clean Air Act.5
Similar attempts to restore local voices and experiences to the
distanced discourse of climate change are apparent on the dimensions of
space and time. Marybeth Long Martello and I (Jasanoff and Martello,
2004), for example, noted the dense interaction of global and local subjec-
tivities, through the formation of new regional affiliations and identities
superimposed on existing territorial divisions. Island nations at risk from
rising sea levels sought unity and political strength by uniting as a single
imagined community: the Association of Small Island States. And in April
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17. 2009, Inuit leaders from Alaska, Canada, Greenland, and Russia launched a
Declaration on Arctic Sovereignty, basing their action on millennia of shared
occupancy and knowledge of the circumpolar region, which they called ‘our
home’. As if taking a page from Anderson, the declaration stressed the Inuit
people’s imagined unity across existing state boundaries. The impetus toward
unification, however, came not through state-controlled instruments of nation-
building, such as newspapers or the census, but from a sense of cultural
identity fostered by a shared vulnerability to climate change.
Time is more elusive than place as a locator of identity, but temporal-
ity, too, has entered the new discourses of meaning-making unleashed by
the climate threat. Perhaps the clearest consequence is a problematizing of
‘the present’ in relation to both past and future – visible even in the
economists’ quarrel between Stern and Nordhaus. Of great interest from a
normative and political standpoint is an unresolved debate that emerged
around the morality of fixing the value of carbon in the present, through
market-regulatory mechanisms such as capping and trading. In 1991, in a
monograph entitled Global Warming in an Unequal World, two influential
Indian environmentalists, Sunita Narain and the late Anil Agarwal, argued
powerfully for a normatively inflected, historically aware valuation of carbon
emissions. The attempt to create a trading scheme in greenhouse gases, they
noted, made the sources of carbon irrelevant, in effect, erasing the histori-
cal origins of emissions. Carbon pricing, they proposed, should distinguish
between subsistence and luxury emissions, the former reflecting the neces-
sities of the poor, the latter the whims of the rich. Underlying this analysis
was a sensitivity to the disparate historical trajectories, including colonial-
ism, through which the world’s consumption habits acquired their gravely
unequal character. Agarwal and Narain advocated for a recalibration of
value that would take account of history, with present-day economics reflect-
ing past social injustice. Though their argument was not adopted in their
terms, it has continued to resonate through the policy debate on climate
change – from the 1997 Kyoto Protocol’s failed attempt to distinguish
between the obligations of developed and developing countries to China’s
efforts a decade later to recast a right to continue emitting carbon in terms
of a right to develop. The emissions framing ineffectually bucked the tide
of scientific opinion; the development framing, by contrast, asserts a nation’s
sovereign political right to imagine the future for its citizens.
Conclusion
Durable representations of the environment, I have argued, do not arise from
scientific activity alone, through scientists’ representations of the world as
it is, but are sustained by shared normative and cultural understandings of
the world as it ought to be. When it comes to nature, human societies seem
to demand not only objectively claimed matters of fact but also subjectively
appreciated facts that matter. Environmental knowledge achieves robust-
ness through continual interaction – or conversation – between fact-finding
and meaning-making.
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18. The rules by which those conversations are conducted have evolved,
often over very long periods of time, within the envelope of well-established,
bounded communities, such as nation-states; and they are backed in most
cases by accredited processes of co-producing legitimate knowledge and
legitimate power. Institutional norms influence such fundamental choices as
defining the boundary between nature and culture, determining who has
authority to represent natural objects, and selecting the rules for resolving
controversies. Much that we claim to know of the environment accordingly
comes bundled up with histories of specific cultures and places. It is this
tight coupling between the presumed nature of nature and the desired nature
of society that the narrative of climate change has disrupted.
Climate change confronts us with facts that matter crucially to the
universal human destiny but that have not passed through complex
processes of social accreditation on a global scale. The institutions through
which climate knowledge is produced and validated (most notably, the
IPCC) have operated in largely uncharted territory, in accordance with no
shared, pre-articulated commitments about the right ways to interpret or act
upon nature. The resulting representations of the climate have become
decoupled from most modern systems of experience and understanding.
Climate change introduces scalar dislocations, as described above, in
widely held prior conceptions of community, polity, space and time. On all
of these dimensions, however, we see today not only civic dislocation but
new conversational opportunities being actively pursued by an immense
variety of actors, both local and translocal. The promise of all these
exchanges is that the disrupting, troubling, yet compelling reality of climate
change may eventually be better integrated into the dynamics of the world’s
unimaginably diverse forms of life.
Until that time comes, where does all this turbulence leave the social
sciences? I have suggested that climate change, through the discordances
it produces in established ways of understanding the human condition,
offers unique opportunities for disciplines that mainly concern themselves
with the interpretive, sense-making capacities of human societies. For
legal scholarship, for example, climate change offers a site not merely to
consider how enforceable obligations may be constructed around trades in
greenhouse gases, but also to reflect on deeper questions of rights and
responsibilities, the criteria and correlates of citizenship, and the rebuild-
ing of constitutional norms around a threat that cuts at the foundations of
all civilized societies. Returning to the tension between the situated and
the statistic, the uncushioned and (in George Eliot’s words) the ‘well
wadded with stupidity’, the interpretive social sciences have a very partic-
ular role to play in relation to climate change. It is to restore to public view,
and offer a framework in which to think about, the human and the social in
a climate that renders obsolete important prior categories of solidarity and
experience. It is to make us more aware, less comfortable, and hence more
reflective about how we intervene, in word or deed, in the changing order
of things.
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19. Notes
1. Skocpol and Rueschemeyer (1996: 302–3) note that the nation-state derived
power from knowledge claims that contradicted prior local understandings:
New knowledge claims associated with social reform initiatives, especially
those emanating from above, thus had to bypass and contradict both local
common sense and market signals. New forms of social knowledge sought to
describe and to diagnose societywide structural problems. In this they could
not rely on ‘naturalized’ forms of decentralized intelligence, but had to build
on new, specially collected information and more abstract modes of analysis.
‘Artificial’ by comparison to market signals and common sense, and inher-
ently more controversial, the new types of knowledge at the same time tackled
formidable vested interests associated with the information patterns of
communities and markets.
I am indebted to Stève Bernardin for calling my attention to this important analogy.
2. The first environmental cause I became aware of, at Harvard in the early 1960s,
was the ‘save the sycamores’ movement that successfully preserved trees lining the
parkway along the Charles River in Cambridge from the developers’ axe. James
Cameron’s global blockbuster Avatar, released in 2009, locates the nature-loving
Na’vi in a gigantic, courageously defended ‘Hometree’, and thereby elevates tree-
hugging to an ethic for a new generation of sustainability-conscious cinema-goers.
3. A vivid illustration occurred in late 2009, when climate science was engulfed
in an episode dubbed ‘Climategate’ in analogy to the Nixon-era Watergate scandal
in the United States. Triggered by the hacked disclosure of emails at the Univer-
sity of East Anglia, a leading center for UK climate research, the emails illustrated
the dynamics of scientific controversy and consensus that STS scholars have so
frequently documented. Yet the public display of scientists showing ‘interests’ ran
sufficiently counter to the still dominant Mertonian understanding of science as a
detached, disinterested activity that many commentators and observers were
appalled – or else found it in their interest to appear to be so. The episode was
widely regarded as a blow to years of international consensus-building on climate
science.
4. Experimental knowledge, according to Shapin and Schaffer in Leviathan and the
Air-Pump, was constituted early on as useful knowledge, directed toward solving
the problems of commerce and military security. Yaron Ezrahi (1990) has argued
that modern liberal democracies borrowed from experimental science both its
instrumentalism and its transparency, thereby turning citizens into virtual witnesses
of the state’s problem-solving capability.
5. Massachusetts v. Environmental Protection Agency, 549 U.S. 497(2007).
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Sheila Jasanoff is Pforzheimer Professor of Science and Technology
Studies at Harvard University’s John F. Kennedy School of Government,
where she founded and directs the Program on Science, Technology and
Society. Her research centers on the role of science and technology in demo-
cratic governance, with a particular focus on the production and use of
science in environmental decision-making. Her books include The Fifth
Branch (1990), Science at the Bar (1995), and Designs on Nature (2005).
She is also the co-editor, together with Marybeth Long Martello, of Earthly
Politics (2004). [email: sheila_jasanoff@harvard.edu]
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