Climate change

Growing media (substrate) is a fundamental part of a green roof, providing water, nutrients and support to plants. However, little research has reviewed how it affects plant performances in different climatic regions. This study aims to analyse published research on green roof growing medium across world's climate zones. Findings are structured according to Köppen–Geiger climate classification, aiming to investigate the prevalence of research conducted in different climate zones. Results from full-scale studies and laboratory or greenhouse experiments were reviewed.
Elsevier, Renewable and Sustainable Energy Reviews, Volume 70, 1 April 2017
This literature review identifies the impacts of different renewable energy pathways on ecosystems and biodiversity, and the implications of these impacts for transitioning to a Green Economy. While the higher penetration of renewable energy is currently the backbone of Green Economy efforts, an emerging body of literature demonstrates that the renewable energy sector can affect ecosystems and biodiversity.
A number of property companies are going beyond traditional corporate responsibility to be net positive. Instead of opting for sustainability strategies that manage risk and reduce negative impacts, these companies are seeking to put back more into society, the environment and the global economy than they take out. Whilst the breadth and scope of these net positive commitments made by real estate leaders vary, there is enormous opportunity for this sector with sustainability and in supporting SDG 7 and 13.
Reducing large-scale deforestation in commodity frontiers remains a key challenge for climate change mitigation and the conservation of biodiversity. Public and private anti-deforestation policies have been shown to effectively reduce forest loss, but the conditions under which such policies get adopted are rarely examined. Here we propose a set of conditions that we expect to be associated with the adoption of effective anti-deforestation policies in commodity frontiers.
Sustainability theory shows that the sustainability problem is a value orientation problem. In a recent study, Klaas van Egmond identified an underlying pattern of a crossed circle, representing affirmative and adversative value orientations, whose disintegration engenders unsustainable tendencies. This article explicates how Shakespeare's allegories invite to quests for ‘values worthy of pursuit’, grounded upon a similar immanent cyclical pattern of value orientations, moving from and to the centre of Shakespeare's works.
Most conventional scheduling problems use production efficiency, cost and quality as their preeminent optimization objectives. However, because of increasing costs of energy and environmental pollution, “low-carbon scheduling” as a novel scheduling model has received increasing attention from scholars and engineers. This scheduling model focuses on reducing energy consumption and environmental pollution at the workshop level.
Elsevier is collaborating with the UC Davis John Muir Institute of the Environment on a data science initiative. As part of the programme, an Elsevier John Muir Institute of the Environment Fellow will apply data and information science to the center’s environmental science and sustainability programs focused on the most serious impacts of climate change and advance knowledge on SDG 13.

Agricultural Systems (Second Edition), Agroecology and Rural Innovation for Development, 2017, Pages 33-72

This book chapter addresses goals 11, 15, 12 and 13 by examining the ecological principles that provide a foundation for resilient and sustainable agriculture that supports rural livelihoods.
Natural World Heritage Sites (NWHS), via their formal designation through the United Nations, are globally recognized as containing some of the Earth's most valuable natural assets. Understanding changes in their ecological condition is essential for their ongoing preservation. Here we use two newly available globally consistent data sets that assess changes in human pressure (Human Footprint) and forest loss (Global Forest Watch) over time across the global network of terrestrial NWHS.
Elsevier, Current Opinion in Green and Sustainable Chemistry, Volume 3, 1 February 2017