Older employees' declining attitudes over 20 years and across classes

British employers, under increasing competitive pressures, and applying new technology and work organization, have sought to reduce labour costs, resulting in work intensification and precarity. Older employees as a result are exposed to work demands that conflict with expectations of favourable treatment in late career. National survey data for Britain in the years 1992, 2001, 2006 and 2012 demonstrate a decline in overall job attitude among older employees following the changed conditions of the 1990s and across the major recession that began in 2008. To assess whether this decline is unequally distributed, decomposition by socio-economic class is carried out. This shows that older employees in the ‘service class’ of managerial and professional employees are affected at least as much as older employees in intermediate and less-skilled classes, thus underlining the age effect and showing that ‘service-class’ employees are not invulnerable to a changing economic environment

The nature of organic records in impact excavated rocks on Mars

Impact ejected rocks are targets for life detection missions to Mars. The Martian subsurface is more favourable to organic preservation than the surface owing to an attenuation of radiation and physical separation from oxidising materials with increasing depth. Impact events bring materials to the surface where they may be accessed without complicated drilling procedures. On Earth, different assemblages of organic matter types are derived from varying depositional environments. Here we assess whether these different types of organic materials can survive impact events without corruption. We subjected four terrestrial organic matter types to elevated pressures and temperatures in piston-cylinder experiments followed by chemical characterisation using whole-rock pyrolysis-gas chromatography-mass spectrometry. Our data reveal that long chain hydrocarbon-dominated organic matter (types I and II; mainly microbial or algal) are unresistant to pressure whereas aromatic hydrocarbondominated organic matter types (types III and IV; mainly land plant, metamorphosed or degraded, displaying some superficial chemical similarities to abiotic meteoritic organic matter) are relatively resistant. This suggests that the impact excavated record of potential biology on Mars will be unavoidably biased, with microbial organic matter underrepresented while metamorphosed, degraded or abiotic meteoritic organic matter types will be selectively preserved

In-situ TEM observation of the response of ultrafine- and nanocrystalline-grained tungsten to extreme irradiation environments

The accumulation of defects, and in particular He bubbles, can have significant implications for the performance of materials exposed to the plasma in magnetic-confinement nuclear fusion reactors. Some of the most promising candidates for deployment into such environments are nanocrystalline materials as the engineering of grain boundary density offers the possibility of tailoring their radiation resistance properties. In order to investigate the microstructural evolution of ultrafine- and nanocrystalline-grained tungsten under conditions similar to those in a reactor, a transmission electron microscopy study with in He1 ion irradiation at 9506C has been completed. A dynamic and complex evolution in the microstructure situ 2 keV was observed including the formation of defect clusters, dislocations and bubbles. Nanocrystalline grains with dimensions less than around 60 nm demonstrated lower bubble density and greater bubble size than larger nanocrystalline (60–100 nm) and ultrafine (100–500 nm) grains. In grains over 100 nm, uniform distributions of bubbles and defects were formed. At higher fluences, large faceted bubbles were observed on the grain boundaries, especially on those of nanocrystalline grains, indicating the important role grain boundaries can play in trapping He and thus in giving rise to the enhanced radiation tolerance of nanocrystalline materials

Contemplative sustainable futures : The role of individual inner dimensions and transformation in sustainability research and education

Humanity is facing increasingly complex sustainability challenges. It is now clear that they cannot be resolved by new technology, policy or governance approaches alone. They require a broader, cultural shift. Consequently, the role of human beings' "inner dimensions" (e.g., their mindsets, worldviews, beliefs, social values, and motivations) and their potential "inner transformation" (embodied in notions such as mindfulness and compassion) are increasingly attracting attention from practitioners and researchers alike. As a result, in 2015, the "Contemplative Sustainable Futures Program" was set up at the Lund University Centre for Sustainability Studies to explore the role of inner dimensions and transformation for sustainability. It aims to create space and opportunities for learning, networking, and knowledge development on this topic, which entails the creation of closer linkages between sustainability and the humanities (e.g., philosophy, theology, spirituality). The Program consists of different building blocks, including research and teaching activities. This chapter presents the outcomes, as well as the institutional and academic challenges encountered in setting up the Program. The outcomes so far include the establishment of (i) a new Masters-level course on "Sustainability and Inner Transformation", (ii) an Experimental Learning Lab on mindfulness in sustainability science, practice, and teaching, (iii) a professional knowledge database and network, and (iv) different research studies and resultant frameworks for future, more integrated research. Finally, the lessons learned, ongoing gaps, and the future work needed to overcome these gaps are presented