FINESTRE: La critica delle idee astratte in La democrazia in America di Alexis de Tocqueville
In: Iride: filosofia e discussione pubblica, Volume 23, Issue 59, p. 141-154
ISSN: 1122-7893
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In: Iride: filosofia e discussione pubblica, Volume 23, Issue 59, p. 141-154
ISSN: 1122-7893
Formalised knowledge systems, including universities and research institutes, are important for contemporary societies. They are, however, also arguably failing humanity when their impact is measured against the level of progress being made in stimulating the societal changes needed to address challenges like climate change. In this research we used a novel futures-oriented and participatory approach that asked what future envisioned knowledge systems might need to look like and how we might get there. Findings suggest that envisioned future systems will need to be much more collaborative, open, diverse, egalitarian, and able to work with values and systemic issues. They will also need to go beyond producing knowledge about our world to generating wisdom about how to act within it. To get to envisioned systems we will need to rapidly scale methodological innovations, connect innovators, and creatively accelerate learning about working with intractable challenges. We will also need to create new funding schemes, a global knowledge commons, and challenge deeply held assumptions. To genuinely be a creative force in supporting longevity of human and non-human life on our planet, the shift in knowledge systems will probably need to be at the scale of the enlightenment and speed of the scientific and technological revolution accompanying the second World War. This will require bold and strategic action from governments, scientists, civic society and sustained transformational intent.
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In: Maja Schlüter, Guido Caniglia, Kirill Orach, Örjan Bodin, Nicolas Magliocca, Patrick Meyfroidt, Belinda Reyers, Why care about theories? Innovative ways of theorizing in sustainability science, Current Opinion in Environmental Sustainability, Volume 54, 2022, 101154, ISSN 1877-3435
SSRN
In: International journal of sustainability in higher education, Volume 17, Issue 6, p. 827-852
ISSN: 1758-6739
Purpose
This paper aims to present an experience-based learning framework that provides a bottom-up, student-centered entrance point for the development of systems thinking, normative and collaborative competencies in sustainability.
Design/methodology/approach
The framework combines mental mapping with exploratory walking. It interweaves mapping and walking activities with methodological and theoretical inputs as well as with reflections and discussions. The framework aligns experiential activities, i.e. mental mapping and walking, with learning objectives, i.e. novice-level sustainability competencies. The authors applied the framework for student activities in Phoenix/Tempe and Hamburg/Lüneburg as part of The Global Classroom, a project between Arizona State University in the USA and Leuphana University of Lüneburg in Germany.
Findings
The application of the experience-based learning framework demonstrates how students started developing systems thinking (e.g. understanding urban systems as functional entities and across different domains), normative (e.g. using different sustainability principles) and collaborative (e.g. learning across disciplinary, social and cultural differences) competencies in sustainability.
Originality/value
The experience-based learning framework contributes to the development of curricular activities for the initial development of sustainability competencies in introductory-level courses. It enables students from different disciplinary, social and cultural backgrounds, e.g. in international education, to collaboratively start developing such competencies. The framework can be adapted to different educational contexts.
In: Futures: the journal of policy, planning and futures studies, Volume 152, p. 103219
BACKGROUND: Emergence of new coronavirus variants and waning immunity may necessitate regular COVID-19 vaccine boosters, but empirical data on population willingness for regular vaccination are limited. METHODS: In August 2021, we surveyed 3,067 quota-sampled German-speaking adults residing in the D-A-CH region (Germany, Austria, Switzerland). Using multivariable adjusted ordered logistic regression models we calculated odds ratios (OR) and 95% confidence intervals (95% CIs) to assess factors associated with willingness to vaccinate annually against COVID-19. FINDINGS: Among 2,480 participants vaccinated or planning to get vaccinated, 82·4% indicated willingness to receive annual COVID-19 boosters. This willingness was higher in Austria (OR=1·47, 95% CI, 1·19–1·82; p < 0·001) and Germany (OR=1·98, 95% CI, 1·60–2·45; p < 0·001) versus Switzerland and increased with age. Having voted in the last national election (OR(opposition party voters)=1·51, 95% CI=1·18–1·92; p = 0·001 and OR(governing party voters)=1·57, 95% CI=1·28–1·93; p < 0·001, versus non-voters) and not regularly participating in religious meetings (OR=1·37, 95% CI=1·08–1·73; p = 0·009, versus participation at least monthly) were significantly associated with willingness to vaccinate, as was partial (OR=1·97, 95% CI=1·43–2·72; p < 0·001) or total (OR=5·20, 95% CI=3·76–7·19; p < 0·001) approval of COVID-19 mitigation measures (versus non-approval). By country, Austrians showed the strongest association of voting behavior and mitigation measure approval with willingness to vaccinate. INTERPRETATION: Targeted promotion programs informed by political and religious engagement and mitigation measure approval are needed to increase willingness to receive regular COVID-19 boosters. FUNDING: Medical University of Vienna, Department of Epidemiology, Danube University Krems, Department for Knowledge and Communication Management; Austrian Society of Epidemiology.
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In: Gaia: ecological perspectives for science and society : ökologische Perspektiven für Wissenschaft und Gesellschaft, Volume 33, Issue 1, p. 202-203
ISSN: 2625-5413
Navigating today's crises requires transcending one-dimensional, exclusively science-centered approaches. This article advocates a transdisciplinary strategy, integrating diverse perspectives to address complex issues like poly-crises. It emphasizes the potential of mutual learning
and knowledge co-generation between science and society for fostering creative, sustainable solutions within a multilayered innovation system.
In: Humanities and Social Sciences Communications, Volume 11, Issue 1
ISSN: 2662-9992
Formalised knowledge systems, including universities and research institutes, are important for contemporary societies. They are, however, also arguably failing humanity when their impact is measured against the level of progress being made in stimulating the societal changes needed to address challenges like climate change. In this research we used a novel futures-oriented and participatory approach that asked what future envisioned knowledge systems might need to look like and how we might get there. Findings suggest that envisioned future systems will need to be much more collaborative, open, diverse, egalitarian, and able to work with values and systemic issues. They will also need to go beyond producing knowledge about our world to generating wisdom about how to act within it. To get to envisioned systems we will need to rapidly scale methodological innovations, connect innovators, and creatively accelerate learning about working with intractable challenges. We will also need to create new funding schemes, a global knowledge commons, and challenge deeply held assumptions. To genuinely be a creative force in supporting longevity of human and non-human life on our planet, the shift in knowledge systems will probably need to be at the scale of the enlightenment and speed of the scientific and technological revolution accompanying the second World War. This will require bold and strategic action from governments, scientists, civic society and sustained transformational intent.
BASE
Formalised knowledge systems, including universities and research institutes, are important for contemporary societies. They are, however, also arguably failing humanity when their impact is measured against the level of progress being made in stimulating the societal changes needed to address challenges like climate change. In this research we used a novel futures-oriented and participatory approach that asked what future envisioned knowledge systems might need to look like and how we might get there. Findings suggest that envisioned future systems will need to be much more collaborative, open, diverse, egalitarian, and able to work with values and systemic issues. They will also need to go beyond producing knowledge about our world to generating wisdom about how to act within it. To get to envisioned systems we will need to rapidly scale methodological innovations, connect innovators, and creatively accelerate learning about working with intractable challenges. We will also need to create new funding schemes, a global knowledge commons, and challenge deeply held assumptions. To genuinely be a creative force in supporting longevity of human and non-human life on our planet, the shift in knowledge systems will probably need to be at the scale of the enlightenment and speed of the scientific and technological revolution accompanying the second World War. This will require bold and strategic action from governments, scientists, civic society and sustained transformational intent. ; publishedVersion
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Formalised knowledge systems, including universities and research institutes, are important for contemporary societies. They are, however, also arguably failing humanity when their impact is measured against the level of progress being made in stimulating the societal changes needed to address challenges like climate change. In this research we used a novel futures-oriented and participatory approach that asked what future envisioned knowledge systems might need to look like and how we might get there. Findings suggest that envisioned future systems will need to be much more collaborative, open, diverse, egalitarian, and able to work with values and systemic issues. They will also need to go beyond producing knowledge about our world to generating wisdom about how to act within it. To get to envisioned systems we will need to rapidly scale methodological innovations, connect innovators, and creatively accelerate learning about working with intractable challenges. We will also need to create new funding schemes, a global knowledge commons, and challenge deeply held assumptions. To genuinely be a creative force in supporting longevity of human and non-human life on our planet, the shift in knowledge systems will probably need to be at the scale of the enlightenment and speed of the scientific and technological revolution accompanying the second World War. This will require bold and strategic action from governments, scientists, civic society and sustained transformational intent.
BASE
In: Fazey , I , Schäpke , N , Caniglia , G , Hodgson , A , Kendrick , I , Lyon , C , Page , G , Patterson , J , Riedy , C , Strasser , T , Verveen , S , Adams , D , Goldstein , B , Klaes , M , Leicester , G , Linyard , A , McCurdy , A , Ryan , P , Sharpe , B , Silvestri , G , Abdurrahim , A Y , Abson , D , Adetunji , O S , Aldunce , P , Alvarez-Pereira , C , Amparo , J M , Amundsen , H , Anderson , L , Andersson , L , Asquith , M , Augenstein , K , Barrie , J , Bent , D , Bentz , J , Bergsten , A , Berzonsky , C , Bina , O , Blackstock , K , Boehnert , J , Bradbury , H , Brand , C , Böhme (born Sangmeister) , J , Bøjer , M M , Carmen , E , Charli-Joseph , L , Choudhury , S , Chunhachoti-ananta , S , Cockburn , J , Colvin , J , Connon , I L C , Cornforth , R , Cox , R S , Cradock-Henry , N , Cramer , L , Cremaschi , A , Dannevig , H , Day , C T , de Lima Hutchison , C , de Vrieze , A , Desai , V , Dolley , J , Duckett , D , Durrant , R A , Egermann , M , Elsner (Adams) , E , Fremantle , C , Fullwood-Thomas , J , Galafassi , D , Gobby , J , Golland , A , González-Padrón , S K , Gram-Hanssen , I , Grandin , J , Grenni , S , Lauren Gunnell , J , Gusmao , F , Hamann , M , Harding , B , Harper , G , Hesselgren , M , Hestad , D , Heykoop , C A , Holmén , J , Holstead , K , Hoolohan , C , Horcea-Milcu , A I , Horlings , L G , Howden , S M , Howell , R A , Huque , S I , Inturias Canedo , M L , Iro , C Y , Ives , C D , John , B , Joshi , R , Juarez-Bourke , S , Juma , D W , Karlsen , B C , Kliem , L , Kläy , A , Kuenkel , P , Kunze , I , Lam , D P M , Lang , D J , Larkin , A , Light , A , Luederitz , C , Luthe , T , Maguire , C , Mahecha-Groot , A M , Malcolm , J , Marshall , F , Maru , Y , McLachlan , C , Mmbando , P , Mohapatra , S , Moore , M L , Moriggi , A , Morley-Fletcher , M , Moser , S , Mueller , K M , Mukute , M , Mühlemeier , S , Naess , L O , Nieto-Romero , M , Novo , P , ÓBrien , K , O'Connell , D A , O'Donnell , K , Olsson , P , Pearson , K R , Pereira , L , Petridis , P , Peukert , D , Phear , N , Pisters , S R , Polsky , M , Pound , D , Preiser , R , Rahman , M S , Reed , M S , Revell , P , Rodriguez , I , Rogers , B C , Rohr , J , Nordbø Rosenberg , M , Ross , H , Russell , S , Ryan , M , Saha , P , Schleicher , K , Schneider , F , Scoville-Simonds , M , Searle , B , Sebhatu , S P , Sesana , E , Silverman , H , Singh , C , Sterling , E , Stewart , S J , Tàbara , J D , Taylor , D , Thornton , P , Tribaldos , T M , Tschakert , P , Uribe-Calvo , N , Waddell , S , Waddock , S , van der Merwe , L , van Mierlo , B , van Zwanenberg , P , Velarde , S J , Washbourne , C L , Waylen , K , Weiser , A , Wight , I , Williams , S , Woods , M , Wolstenholme , R , Wright , N , Wunder , S , Wyllie , A & Young , H R 2020 , ' Transforming knowledge systems for life on Earth : Visions of future systems and how to get there ' , Energy Research and Social Science , vol. 70 , 101724 . https://doi.org/10.1016/j.erss.2020.101724
Formalised knowledge systems, including universities and research institutes, are important for contemporary societies. They are, however, also arguably failing humanity when their impact is measured against the level of progress being made in stimulating the societal changes needed to address challenges like climate change. In this research we used a novel futures-oriented and participatory approach that asked what future envisioned knowledge systems might need to look like and how we might get there. Findings suggest that envisioned future systems will need to be much more collaborative, open, diverse, egalitarian, and able to work with values and systemic issues. They will also need to go beyond producing knowledge about our world to generating wisdom about how to act within it. To get to envisioned systems we will need to rapidly scale methodological innovations, connect innovators, and creatively accelerate learning about working with intractable challenges. We will also need to create new funding schemes, a global knowledge commons, and challenge deeply held assumptions. To genuinely be a creative force in supporting longevity of human and non-human life on our planet, the shift in knowledge systems will probably need to be at the scale of the enlightenment and speed of the scientific and technological revolution accompanying the second World War. This will require bold and strategic action from governments, scientists, civic society and sustained transformational intent.
BASE
Formalised knowledge systems, including universities and research institutes, are important for contemporary societies. They are, however, also arguably failing humanity when their impact is measured against the level of progress being made in stimulating the societal changes needed to address challenges like climate change. In this research we used a novel futures-oriented and participatory approach that asked what future envisioned knowledge systems might need to look like and how we might get there. Findings suggest that envisioned future systems will need to be much more collaborative, open, diverse, egalitarian, and able to work with values and systemic issues. They will also need to go beyond producing knowledge about our world to generating wisdom about how to act within it. To get to envisioned systems we will need to rapidly scale methodological innovations, connect innovators, and creatively accelerate learning about working with intractable challenges. We will also need to create new funding schemes, a global knowledge commons, and challenge deeply held assumptions. To genuinely be a creative force in supporting longevity of human and non-human life on our planet, the shift in knowledge systems will probably need to be at the scale of the enlightenment and speed of the scientific and technological revolution accompanying the second World War. This will require bold and strategic action from governments, scientists, civic society and sustained transformational intent.
BASE
In: Fazey , I , Schapke , N , Caniglia , G , Hodgson , A , Kendrick , I , Lyon , C , Page , G , Patterson , J , Riedy , C , Strasser , T , Verveen , S , Adams , D , Goldstein , B , Klaes , M , Leicester , G , Linyard , A , McCurdy , A , Ryan , P , Sharpe , B , Silvestri , G , Abdurrahim , A Y , Abson , D , Adetunji , O S , Aldunce , P , Alvarez-Pereira , C , Amparo , J M , Amundsen , H , Anderson , L , Andersson , L , Asquith , M , Augenstein , K , Barrie , J , Bent , D , Bentz , J , Bergsten , A , Berzonsky , C , Bina , O , Blackstock , K , Boehnert , J , Bradbury , H , Brand , C , Bohme , J , Bojer , M M , Carmen , E , Charli-Joseph , L , Choudhury , S , Chunhachoti-ananta , S , Cockburn , J , Colvin , J , Connon , I L C , Cornforth , R , Cox , R S , Cradock-Henry , N , Cramer , L , Cremaschi , A , Dannevig , H , Day , C T , Hutchison , C D L , de Vrieze , A , Desai , V , Dolley , J , Duckett , D , Durrant , R A , Egermann , M , Elsner (Adams) , E , Fremantle , C , Fullwood-Thomas , J , Galafassi , D , Gobby , J , Golland , A , Gonzalez-Padron , S K , Gram-Hanssen , I , Grandin , J , Grenni , S , Gunnell , J L , Gusmao , F , Hamann , M , Harding , B , Harper , G , Hesselgren , M , Hestad , D , Heykoop , C A , Holmen , J , Holstead , K , Hoolohan , C , Horcea-Milcu , A-I , Horlings , L G , Howden , S M , Howell , R A , Huque , S I , Canedo , M L I , Iro , C Y , Ives , C D , John , B , Joshi , R , Juarez-Bourke , S , Juma , D W , Karlsen , B C , Kliem , L , Klaey , A , Kuenkel , P , Kunze , I , Lam , D P M , Lang , D J , Larkin , A , Light , A , Luederitz , C , Luthe , T , Maguire , C , Mahecha-Groot , A-M , Malcolm , J , Marshall , F , Maru , Y , McLachlan , C , Mmbando , P , Mohapatra , S , Moore , M-L , Moriggi , A , Morley-Fletcher , M , Moser , S , Mueller , K M , Mukute , M , Muhlemeier , S , Naess , L O , Nieto-Romero , M , Novo , P , O'Brien , K , O'Connell , D A , O'Donnell , K , Olsson , P , Pearson , K R , Pereira , L , Petridis , P , Peukert , D , Phear , N , Pisters , S R , Polsky , M , Pound , D , Preiser , R , Rahman , M S , Reed , M S , Revell , P , Rodriguez , I , Rogers , B C , Rohr , J , Rosenberg , M N , Ross , H , Russell , S , Ryan , M , Saha , P , Schleicher , K , Schneider , F , Scoville-Simonds , M , Searle , B , Sebhatu , S P , Sesana , E , Silverman , H , Singh , C , Sterling , E , Stewart , S-J , Tabara , J D , Taylor , D , Thornton , P , Tribaldos , T M , Tschakert , P , Uribe-Calvo , N , Waddell , S , Waddock , S , van der Merwe , L , van Mierlo , B , van Zwanenberg , P , Velarde , S J , Washbourne , C-L , Waylen , K , Weiser , A , Wight , I , Williams , S , Woods , M , Wolstenholme , R , Wright , N , Wunder , S , Wyllie , A & Young , H R 2020 , ' Transforming knowledge systems for life on Earth : Visions of future systems and how to get there ' , Energy Research & Social Science , vol. 70 , 101724 . https://doi.org/10.1016/j.erss.2020.101724
Formalised knowledge systems, including universities and research institutes, are important for contemporary societies. They are, however, also arguably failing humanity when their impact is measured against the level of progress being made in stimulating the societal changes needed to address challenges like climate change. In this research we used a novel futures-oriented and participatory approach that asked what future envisioned knowledge systems might need to look like and how we might get there. Findings suggest that envisioned future systems will need to be much more collaborative, open, diverse, egalitarian, and able to work with values and systemic issues. They will also need to go beyond producing knowledge about our world to generating wisdom about how to act within it. To get to envisioned systems we will need to rapidly scale methodological innovations, connect innovators, and creatively accelerate learning about working with intractable challenges. We will also need to create new funding schemes, a global knowledge commons, and challenge deeply held assumptions. To genuinely be a creative force in supporting longevity of human and non-human life on our planet, the shift in knowledge systems will probably need to be at the scale of the enlightenment and speed of the scientific and technological revolution accompanying the second World War. This will require bold and strategic action from governments, scientists, civic society and sustained transformational intent.
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