Many origin of life theories argue that molecular self-organization explains the spontaneous emergence of structural and dynamical constraints. However, the preservation of these constraints over time is not well-explained because ofthe self-undermining and self-limiting nature of these same processes. A process called autogenesis has been proposed in which a synergetic coupling between self-organized processes preserves the constraints thereby accumulated. Thispaper presents a computer simulation of this process (the AutogenicAutomaton) and compares its behavior to the same self-organizing processes when uncoupled. We demonstrate that this coupling produces a second-order constraint that can both resist dissipation and become replicated in new substrates over time.
MULTIFILE
Muscle fiber-type specific expression of UCP3-protein is reported here for the firts time, using immunofluorescence microscopy
According to the critics of conventional sustainability models, particularly within the business context, it is questionable whether the objective of balancing the social, economic and environmental triad is feasible, and whether human equality and prosperity (as well as population growth) can be achieved with the present rate of natural degradation (Rees 2009). The current scale of human economic activity on Earth is already excessive; finding itself in a state of unsustainable ‘overshoot’ where consumption and dissipation of energy and material resources exceed the regenerative and assimilative capacity of supportive ecosystems (Rees 2012). Conceptualizing the current ‘politics of unsustainability’, reflected in mainstream sustainability debates, Blühdorn (2011) explores the paradox of wanting to ‘sustain the unsustainable, noting that the socio-cultural norms underpinning unsustainability support denial of the gravity of our planetary crises. This denial concerns anything from the imminence of mass extinctions to climate change. As Foster (2014) has phrased it: ‘There was a brief window of opportunity when the sustainability agenda might, at least in principle, have averted it’. That agenda, however, has failed. Not might fail, nor even is likely to fail – but has already failed. Yet, instead of acknowledging this failure and moving on from the realization of the catastrophe to the required radical measures, the optimists of sustainable development and ecological modernization continue to celebrate the purported ‘balance' between people, profit and planet. This is an Accepted Manuscript of a book chapter published by Routledge/CRC Press in "A Future Beyond Growth: Towards a Steady State Economy" on 4/14/16 ,available online: https://doi.org/10.4324/9781315667515 LinkedIn: https://www.linkedin.com/in/helenkopnina/
MULTIFILE
The project virtually breaks down a large timber structure into pieces and simultaneously simulates and tests each piece in a different laboratory or facility. In this way, unique aspects of each facility can be used at the same time. The experiments take place in a synchronized way, which is a difficult task considering 4 countries (UK, Canada, Greece and the Netherlands) will work at the same time for testing one hypothetical timber structure. Geographically distributed hybrid testing blue sky research, timber structure testing including soil-structure-interactionHYSTERESIS project aims to use geographically distributed hybrid testing for providing experimental evidence for energy dissipation and SSI response of buildings composed of mass timber and CLT panels. The project outcomes will give a boost to the efforts of building multi-story timber structures in areas with wind and/or earthquake loading conditions. The particularities of the problem in hand and the need for testing in large scale while taking into account the SSI, dictate using a novel hybrid testing approach.
