Science

The role of science in achieving the United Nations' Sustainable Development Goals (SDGs) cannot be overstated. Science, technology, and innovation are instrumental to addressing the significant challenges encompassed within the 17 SDGs, ranging from poverty and inequality to climate change and biodiversity loss.

Science underpins our understanding of the challenges our world faces and is pivotal in SDG 13 (Climate Action) and SDG 14 (Life Below Water) and 15 (Life on Land), where understanding ecosystems, environmental degradation, and climate change is paramount. Research in the Earth and environmental sciences provides us with knowledge about the severity of these issues and potential mitigation and adaptation strategies.

Furthermore, in SDG 3 (Good Health and Well-being), science in the form of medical research and biotechnology contributes to the development of treatments and preventive measures for various diseases. Vaccines, therapeutic drugs, and disease prevention techniques have been made possible due to advancements in biological and health sciences.

Moreover, technological advancements and innovative solutions, often rooted in science, are essential to achieving SDG 7 (Affordable and Clean Energy), SDG 6 (Clean Water and Sanitation), and SDG 9 (Industry, Innovation, and Infrastructure). From developing renewable energy technologies to creating systems that enhance water and sanitation accessibility, science serves as the bedrock of these innovations.

Science also plays a critical role in SDG 2 (Zero Hunger) by improving agricultural methods, crop yields, and food storage. Through genetic engineering and modern farming techniques, scientists can help increase food security and reduce world hunger.

Finally, science is integral to SDG 4 (Quality Education). A well-rounded education should include a robust scientific curriculum that fosters critical thinking, problem-solving, and a deep understanding of the world. Furthermore, by promoting scientific literacy, societies are better equipped to make informed decisions about policies and practices that affect sustainable development.

To make strides in achieving the SDGs, the scientific community, policymakers, and society must work together. The integration of science into policy-making processes is fundamental in developing and implementing sustainable and impactful strategies that move us closer to accomplishing these ambitious yet achievable goals.

This article and video highlights a project between Elsevier and Wageningen University which examines how research impacts society, with a particular focus on SDG 2.
Elsevier, Marine Pollution Bulletin, Volume 136, November 2018
Increasing accessibility of coral reefs from the latter third of the 20th century led quickly to recognition of the vulnerability of coral reef communities to a combination of direct and indirect human impacts. Coral reefs are confronted by the stark threats of climate and ocean changes from the increasing number, intensity and forms of human use impacting global and marine systems. Management, particularly of accessible coral reefs, occurs in the context of multiple scale transboundary water column linkages of lifecycle processes and increasing human use of coastal and marine space.
Microplastics pollution in aquatic ecosystems has aroused increasing global concern, leading to an explosive growth of studies regarding microplastics published in the past few years. To date, there is still a lack of standardized methodologies used for the detection of microplastics within environmental samples, thus hampering comparison of the reported data.
Elsevier,

Multimodal Behavior Analysis in the Wild, Advances and Challenges, Computer Vision and Pattern Recognition, 2019, Pages 79-102

This chapter addresses SDGs 3 and 9 by examining the technologies devised in Glassense—Wearable technologies for sensory supplementation. This regional project aimed to develop a proof of concept prototype of a sensorized pair of glasses to assist users with limited technology skills and multiple disabilities.
This chapter contributes to goals 7 and 9 by looking in-depthly at the various structures of nanocomposaite proton exchange membranes (PEMs) using carbon nanotubes, graphene, and graphene oxide as fillers.
To advance goals 7 and 9, this chapter examines the properties of Polyaniline-Graphene Nanocomposite and considers its suitability as an energy storage material.
Elsevier,

Introduction to Petroleum Biotechnology, 2018, Pages 259-286.

This chapter contributes to goal 7 by examining the effects of petroleum and its by-products on the environment and the Biotechnological remedies for such situations.
Clarifying the scope and activity within the large field of artificial intelligence (AI) can help research leaders, policymakers, funders and investors, and the public navigate AI and understand how it has evolved over time. In doing so, this report provides clues to where AI is headed and how policies might be shaped to continue making advances in a responsible way, contributing to SDG 9.
Advancing Global Goal 17, Partnerships for the Goals, INGSA is a global forum for policy-makers, practitioners, academies, and academics to share experience, build capacity, and develop theoretical and practical approaches to the use of scientific evidence in informing policy at all levels of government. 
Elsevier,

Foundations for Sustainability, A Coherent Framework of Life-Environment Relations, 2019, Pages 231-247

This book chapter addresses goals 15, 11 and 13 by exploring how systems and network ecology can contribute towards the larger goal of sustainability.

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