This chapter aligns with Goal 14: Life Below Water and Goal 3: Good Health and Wellbeing by highlighting some of the many beneficial nutritional applications of marine-derived lipids.
This chapter aligns with Goal 14: Life Below Water and Goal 9: Industry, Innovation and Infrastructure by highlighting some of the many beneficial biocomposite applications of marine-derived byproducts.
This chapter aligns with Goal 14: Life Below Water and Goal 13: Climate Action by exploring the potential of marine renewables, including wind, wave, and solar, for providing long-term sustainable energy sources.
Elsevier,

Emerging Contaminants in the Environment: Challenges and Sustainable Practices, Volume 1, 1 January 2022

This chapter aligns with Goal 6: Clean water and sanitation and Goal 14: Life below water by prodiving an overview of environmental plastic abundance, sources and mitigation strategies.
Elsevier,

The Physical Oceanography of the Arctic Mediterranean Sea, Exploration, Observations, Interpretations, 2022, Pages 433-477

This book chapter advances SDG 14 by explaining the significant change in the exploration, study, and understanding of the oceanography of the Arctic Mediterranean. The first SCISEX cruise with USS Pargo 1993 indicated that the salinity and temperature in the upper layer of the Eurasian Basin were higher than previously reported, while the upper layer salih upward-looking sonars, and when the newly observed thicknesses were compared with those measured 30 years earlier, they indicated that the mean ice thickness had been reduced by about 40%. Suddenly change rather than constancy became the focus, and observations spread over time, which previously had been used to describe the mean circulation and the mean state, now acquired a time dimension.
Elsevier,

Laboratory Fish in Biomedical Research, 2021, pp 101-117

This chapter aligns with Goal 3: Good Health and Wellbeing and Goal 14: Life under Water by discussing the ethical considerations and welfare needs of zebrafish in laboratory settings.
This chapter examines how PPCPs are often termed as micropollutants or trace organics, as these compounds are present in the µg/L range in the environment. PPCPs may pose a serious threat to aquatic life, having acute and chronic toxicity responses. As a result, there is a need for evolving technologies to detect, identify, and remediate compounds from these micropollutants.
Elsevier,

Freshwater Fishes of the Eastern Himalayas, 2021, pp 1-13

This content aligns with Goal 14: Life under Water by emphasizing the significance of freshwater habitats as repositories of aquatic biodiversity.
This chapter aligns with Goal 14: Life Below Water and Goal 13: Climate Action by discussing the impacts of ocean acidification on marine biological processes and highlighting future research directions to understand and preserve marine biodiversity.
This chapter aligns with Goal 14: Life Below Water and Goal 13: Climate Action by highlighting how past marine ecosystem changes can improve our understanding of future climactic and chemical conditions of global oceans.

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