Biological Conservation, Volume 244, April 2020, 108536

Winner of the Atlas Award in April 2020, this journal article addresses goals 13 and 14 by discussing priority areas where it would be optimal to locate Marine Protected Areas for recovery of marine biodiversity within and outside a country's Exclusive Economic Zones, thus providing a map that will aid both national and international planning of where to protect marine biodiversity as a whole.
This article addresses goals 7 and 13 by providing an in-depth understanding of Chinese policy design in the environment and energy fields and contributing to the public policy literature by filling a research gap.
This book chapter addresses goals 7, 13 and 11 by looking at ecological technologies that transform natural resources into anthropocentric goods and services.
This book chapter addresses goals 14, 13 and 6 by looking at the ecology and species conservation of freshwater habitats.

Current Opinion in Insect Science, Volume 38, April 2020, Pages 107-114

This journal article addresses goals 15 and 13 by exploring effective strategies to protect the global health and diversity of insects.

Environmental Science & Policy, Volume 106, April 2020, Pages 68-76

This journal article addresses goals 11, 12, 13 and 15 by looking at how land-based mitigation options potentially affect biodiversity.
This article addresses goals 7, 9 and 13 by presenting a novel methodology to integrate both CO2 mitigation goals and the impacts of climate change into simulations of a power system expansion.

One Earth, Review, Volume 2, Issue 2, p. 143-156, February 21 2020

This article addresses goals 10, 11, and 13 by showing how to build resilience to the impacts of climate change in informal settlements, focusing on those located in cities in low- and middle-income countries and how these settlements concentrate at-risk populations.

Veterinary Anaesthesia and Analgesia, Volume 46, Issue 4, July 2019, Pages 409-420.

This paper looks at a number of ways that veterinary anaesthetists can reduce their environmental impact, including by minimizing release of halogenated anaesthetics (which are potent greenhouse gases). This relates to SDGs 12 and 13.
Nitrate and lipids have been recognized as effective dietary additives to reduce enteric methane (CH4) production. The objective of this experiment was to evaluate the effects of nitrate and canola oil, alone or in combination, on enteric CH4, volatile fatty acid (VFA) concentrations, digesta kinetics and outflow of DM and microbial non-ammonia nitrogen (MicNAN) from the rumen of cattle. The article contributes to SDG 13.