Variation in beliefs about 'fracking' between the UK and US

In decision-making on the politically-contentious issue of unconventional gas development, the UK Government and European Commission are attempting to learn from the US experience. Although economic, environmental, and health impacts and regulatory contexts have been compared cross-nationally, public perceptions and their antecedents have not. We conducted similar online panel surveys of national samples of UK and US residents simultaneously in September 2014 to compare public perceptions and beliefs affecting such perceptions. The US sample was more likely to associate positive impacts with development (i.e., production of clean energy, cheap energy, and advancing national energy security). The UK sample was more likely to associate negative impacts (i.e., water contamination, higher carbon emissions, and earthquakes). Multivariate analyses reveal divergence cross-nationally in the relationship between beliefs about impacts and support/opposition – especially for beliefs about energy security. People who associated shale gas development with increased energy security in the UK were over three times more likely to support development than people in the US with this same belief. We conclude with implications for policy and communication, discussing communication approaches that could be successful cross-nationally and policy foci to which the UK might need to afford more attention in its continually evolving regulatory environment

International Sharing of Personal Health Data for Research: the ALLEA, EASAC and FEAM joint initiative on resolving the barriers of transferring public sector data outside the EU/EEA

Personal health data provide a vital resource for research to save and improve lives, reduce health inequalities and benefit society. Research data should be regarded as a global public good. Sharing of data is an essential part of public sector medical research for improved health care and disease prevention, for example to ensure sufficiently large sample sizes, identify complex pathways, and compare the determinants and outcomes of disease in different settings, thereby making the most of the contribution by patients and volunteers to research. It is important for EU citizens that their data are shared for health research, to ascertain whether research results from elsewhere are relevant to their particular genetic makeup and risk factors. At the same time, it is essential to provide appropriate protections for personal data privacy. The General Data Protection Regulation (GDPR) addresses the protection of personal data in the European Union (EU) and European Economic Area (EEA) and the international transfer of data to areas outside the region. It has become apparent that the implementation of the GDPR has introduced impediments to this international transfer of data to outside the EU/EEA, creating problems for academic researchers, healthcare professionals and others in the public sector. These problems affect patients and all citizens who are the ultimate beneficiaries of public sector health research

Plant conservation in the Anthropocene - challenges and future prospects

Despite the massive efforts that have been made to conserve plant diversity across the world during the past few decades, it is becoming increasingly evident that our current strategies are not sufficiently effective to prevent the continuing decline in biodiversity. As a recent report by the CBD indicates, current progress and commitments are insufficient to achieve the Aichi Biodiversity Targets by 2020. Threatened species lists continue to grow while the world's governments fail to meet biodiversity conservation goals. Clearly, we are failing in our attempts to conserve biodiversity on a sufficient scale. The reasons for this situation are complex, including scientific, technical, sociological, economic and political factors. The conservation community is divided about how to respond. Some believe that saving all existing biodiversity is still an achievable goal. On the other hand, there are those who believe that we need to accept that biodiversity will inevitably continue to be lost, despite all our conservation actions and that we must focus on what to save, why and where. It has also been suggested that we need a new approach to conservation in the face of the challenges posed by the Anthropocene biosphere which we now inhabit. Whatever view one holds on the above issues, it is clear that we need to review the effectiveness of our current conservation strategies, identify the limiting factors that are preventing the Aichi goals being met and at the same time take whatever steps are necessary to make our conservation protocols more explicit, operational and efficient so as to achieve the maximum conservation effect. This paper addresses the key issues that underlie our failure to meet agreed targets and discusses the necessary changes to our conservation approaches. While we can justifiably be proud of our many achievements and successes in plant conservation in the past 30 years, which have helped slow the rate of loss, unless we devise a more coherent, consistent and integrated global strategy in which both the effectiveness and limitations of our current policies, action plans and procedures are recognized, and reflect this in national strategies, and then embark on a much bolder and ambitious set of actions, progress will be limited and plant diversity will continue to decline

Neonicotinoids and their substitutes in sustainable pest control

ISBN 978-3-8047-4144-7, EASAC / FEAM REPORT (European Academies Science Advisory Council / Federation of Auropean Academies of Medicine

Food systems for delivering nutritious and sustainable diets: Perspectives from the global network of science academies

The triple burden of malnutrition, which encompasses undernutrition, micronutrient deficiencies and obesity, is a global challenge experienced by all nations, albeit in different forms. The Food and Nutrition Security and Agriculture (FNSA) project of the InterAcademy Partnership (IAP), a global network of over 130 academies of science and medicine, sought to determine the key challenges and opportunities for science and innovation to contribute to improved FNSA. Four parallel studies were carried out, one for each region (Africa, Europe, Asia and the Pacific and the Americas), which served as a resource for a fifth study focusing on science and policy issues that require international consideration and coordination. Addressing global food and nutrition security requires a food systems approach that considers issues pertaining both to sustainable production and sustainable consumption, to deliver healthy and nutritious diets with a minimal environmental impact. Developing a broad evidence base and building critical mass in research and innovation (scientific, social and in policy), and mobilising these resources in advising policy is critical. It is also important to integrate analysis at national, regional and global levels and focus on local-global linkages and inter-regional issues. This perspectives article discusses some of the key regional and global findings of the IAP FNSA studies, in the context of more recently available evidence on the topic.The IAP FNSA project was funded by the German Federal Ministry of Education and Research (BMBF) .https://www.elsevier.com/locate/gfshj2019Agricultural Economics, Extension and Rural Developmen

FDCCS16 A novel methodology for assessing the environmental sustainability of ionic liquids used for CO₂ capture

Ionic liquids (ILs) have been proposed as suitable sorbents for CO2 capture because of their high CO2 absorption capacity, thermal stability, negligible vapour pressure and physico-chemical tunability. However, environmental implications of ILs are currently largely unknown because of a lack of data. The issue is further complicated by their complex chemical structures and numerous precursors for which environmental data are scarce or non-existent. In an attempt to address this issue, this paper presents a new methodology for estimating life cycle environmental impacts of novel ILs, with the aim of aiding synthesis and selection of more sustainable CO2 sorbents. The methodology consists of four main steps: 1) selection of an appropriate IL and synthesis route; 2) construction of a life cycle tree; 3) life cycle assessment; and 4) recommendations for improvements. The application of the methodology is illustrated using trihexyltetradecylphosphonium 1,2,4-triazolide ([P66614][124Triz]), a promising ILs for CO2 caption currently under development. Following the above steps, the paper demonstrates how the data obtained in laboratory synthesis of the IL can be scaled up to industrial production to estimate life cycle impacts and identify environmental hotspots. In this particular case, the main hotspots are the precursors used in the synthesis of the IL. Comparison of impacts with monoethanolamine (MEA), currently the most-widely used CO2 sorbent, suggests that [P66614][124Triz] has much higher impacts than MEA, including global warming potential. However, human toxicity potential is significantly higher for MEA. Therefore, the proposed methodology can be used to optimise design of ILs and to guide selection of more sustainable CO2 sorbents. Although the focus is on ILs, the methodology is generic and can be applied to other chemicals under development

Carbon sequestration potential of the South Wales Coalfield

This paper presents a preliminary evaluation of the carbon dioxide (CO2) storage capacity of the unmined coal resources in the South Wales Coalfield, UK. Although a significant amount of the remaining coal may be mineable through traditional techniques, the prospects for opening new mines appear poor. Also, many of the South Wales coal seams are lying unused since they are too deep to be mined economically using conventional methods. There is instead a growing worldwide interest in the potential for releasing the energy value of such coal reserves through alternative technologies – for example through carbon dioxide sequestration with enhanced coal bed methane recovery. In this study, geographical information systems and three-dimensional interpolation are used to obtain the total unmined coal resource below 500 m deep, where the candidate seams for carbon dioxide sequestration are found. The ‘proved’, ‘probable’ and ‘possible’ carbon dioxide storage capacities of the South Wales Coalfield are then obtained using an established methodology. Input parameters are based on statistical distributions, considering a combination of laboratory coal characterisation results and literature review. The results are a proved capacity of 70·1 Mt carbon dioxide, a probable capacity of 104·9 Mt carbon dioxide and a possible capacity of 152·0 Mt carbon dioxide

MEDEAS: a new modeling framework integrating global biophysical and socioeconomic constraints

Producción CientíficaA diversity of integrated assessment models (IAMs) coexists due to the different approaches developed to deal with the complex interactions, high uncertainties and knowledge gaps within the environment and human societies. This paper describes the open-source MEDEAS modeling framework, which has been developed with the aim of informing decision-making to achieve the transition to sustainable energy systems with a focus on biophysical, economic, social and technological restrictions and tackling some of the limitations identified in the current IAMs. MEDEAS models include the following relevant characteristics: representation of biophysical constraints to energy availability; modeling of the mineral and energy investments for the energy transition, allowing a dynamic assessment of the potential mineral scarcities and computation of the net energy available to society; consistent representation of climate change damages with climate assessments by natural scientists; integration of detailed sectoral economic structure (input–output analysis) within a system dynamics approach; energy shifts driven by physical scarcity; and a rich set of socioeconomic and environmental impact indicators. The potentialities and novel insights that this framework brings are illustrated by the simulation of four variants of current trends with the MEDEAS-world model: the consideration of alternative plausible assumptions and methods, combined with the feedback-rich structure of the model, reveal dynamics and implications absent in classical models. Our results suggest that the continuation of current trends will drive significant biophysical scarcities and impacts which will most likely derive in regionalization (priority to security concerns and trade barriers), conflict, and ultimately, a severe global crisis which may lead to the collapse of our modern civilization. Despite depicting a much more worrying future than conventional projections of current trends, we however believe it is a more realistic counterfactual scenario that will allow the design of improved alternative sustainable pathways in future work.Ministerio de Economía, Industria y Competitividad (Project CO2017-85110-R)Ministerio de Economía, Industria y Competitividad (Project JCI-2016–28833)MEDEAS project, funded by the European Union’s Horizon2020 research and innovation programme under grant agree-ment no. 691287.LOCOMOTION project, funded by the EuropeanUnion’s Horizon 2020 research and innovation programmeunder grant agreement no. 82110

Circular economy: a commentary from the perspectives of the natural and social sciences

n May 2015, the European Academies’ Science Advisory Council (EASAC) started a review of issues related to the ‘circular economy’. The circular economy involves many aspects of science, technology and social science but this commentary is intended to contribute to the debate between stakeholders on the principles and objectives of the European Commission’s policy. This has been compiled by a Working Group of scientists and economists nominated by member academies of EASACnonPeerReviewe