Climate change

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.
The article summarises research conducted in different climate zones related to green roof design that is correlated with roles of substrate in promoting plant growth. From the review, it will serve as a guideline for selection of substrate suitable for green roofs in different climates worldwide. From the recommendation made, the success of plant growth in addressing food security needs a concerted effort worldwide through development of standard guidelines related to green roof design for close comparison across the world region. The review supports SDG 11: Sustainable cities and communities, SDG 17: Partnerships for the goals and SDG 13: Climate action.
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.
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. This paper proposes a set of conditions for the adoption of effective anti-deforestation policies. Such conditions will help to advance SDG 15.2 to promote the implementation of sustainable management of all types of forests and halt deforestation.
Shakespeare’s allegory can be employed to articulate sustainable strategies in many of the SDG themes. For example, SDG 3 (Good health and well-being); SDG 7 (Affordable and clean energy); SDG 8 (Decent Work and economic growth); SDG 13 (Climate Action) and SDG 16 (Peace, Justice and Strong Institutions). This article examines how Shakespeare's works anticipate sustainability narratives for society at large and its individual actors.
This is the first global quantitative assessment of how humanity is negatively affecting Natural World Heritage Sites (NWHS) by analysing human footprint and forest loss . The lessons being learnt from this research on NWHS is clearly related to how we need to protect our natural ecosystems, directly advancing knowledge for SDG 15, which is about the sustainable use of terrestrial ecosystems. This article has also won the February 2017 Atlas award.
Elsevier,

Sustainable Shale Oil and Gas, Chapter 3, 2017, Pages 29–43

This chapter advances SDGs 7 and 13 by discussing detection methods for fugitive methane and whether these gases can be captured and used for commercial opportunity.
The Blueprint for Business Leadership on the SDGs aims to inspire all business — regardless of size, sector or geography — to take leading action in support of the achievement of the Sustainable Development Goals (SDGs). It illustrates how the five leadership qualities of Ambition, Collaboration, Accountability, Consistency, and Intentional can be applied to a business' strategy, business model, products, supply chain, partnerships, and operations to raise the bar and create impact at scale. The Blueprint is a tool for any business that is ready to advance its principled approach to SDG action to become a leader. This chapter relates specifically to SDG 13.
Elsevier,

Climate Risk Management, Volume 16, 2017, Pages 59-72

As the climate continues to change, climate scientists have projected changes in water quantities available for human and other uses. This quantitative study examines how in the US, state water plans and state hazard mitigation plans address climate change. The primary objective of this study is to determine what drives states to plan for the impacts of a changing climate, addressing SDG 13 on climate action.
Elsevier,

Current Opinion in Chemical Engineering, Volume 17, Pages 22-34, August 2017

This paper deals with carbon capture and storage. It provides an overview of the different technologies that have been trialled and the technological gaps that need to be bridged to make this a viable option in the long term and therefore working towards SDG 7 (affordable and clean energy) and SDG 13 (climate action).

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