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.

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.

Sustainable Cities and Society, Volume 28, 2017, Pages 450-452

This paper discusses the CO2 footprint of California’s drought during 2012–2014. The authors show that California drought significantly increased CO2 emissions of the energy sector by around 22 million metric tons, indicating 33% increase in the annual CO2 emissions compared to pre-drought conditions. They argue that CO2 emission of climate extremes deserve more attention, because their cumulative impacts on CO2 emissions are staggering. Most countries, including the United States, do not have a comprehensive a nationwide energy-water plan to minimize their CO2 emissions, therefore the authors argue that developing a national water-energy plan under a changing climate should be prioritized in the coming years.

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).
This chapter considers the developments in agricultural technology required to fully achieve SDG 2 (zero hunger) can sometimes be detrimental to the environment. Climate smart technologies are needed.
This study describes a natural experiment on attitudes about a critical social issue, global warming, showing how political ideology moderates views on climate change: SDG 13. In the process, it provides convincing evidence about an important question concerning cognition: how we form beliefs.

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.

Challenges and Opportunities in Urban Public Transportation, Chapter 7, 2017, Pages 95–107

Green innovations will be significant in reducing climate change impacts and contributing to goals 9 (industry, innovation and infrastructure), 11 (sustainable cities and communities) and 13 (climate action). This chapter considers a number of sustainable and innovative transport and infrastructure options to support these goals.
This paper uses ‘Medieval’ drought conditions from the 12th Century to simulate the implications of severe and persistent drought for the future of water resource management in metropolitan Phoenix, one of the largest and fastest growing urban areas in the southwestern USA. Anticipatory models enable long-term policy analysis for climate change. Mega-drought results in unsustainable groundwater use between 2000 and 2060. Aggressive drought management policies can produce sustainable yield. The time to manage droughts is before they occur. This relates to SDG 6, SDG 11 and SDG 13.
Polluted air was responsible in 2015 for 6·4 million deaths worldwide. Can walking or cycling in polluted cities negate the health benefits of exercise by increasing exposure to airborne pollutants? This systematic review in The Lancet Public Health by Magda Cepeda and colleagues provides a clear answer to this question: it compares exposure to carbon monoxide, black carbon, nitrogen dioxide, and fine and coarse particles between commuters using active and motorised transport. The study provides important insights to support target SDG 3.9 to substantially reduce the number of deaths and illnesses from hazardous chemicals and air.