This critical review aims to enhance the effectiveness and reliability of microplastic identification methods used within environmental research. This discussion advances SDG 9.5 (enhance scientific research) along with multiple SDGs in which microplastics impact, including SDGs 12 (responsible consumption and production), 14 (life below water) and 15 (life on land).
This article expresses the need for standardized analytical methods and techniques in microplastic research, supporting SDGs 9.5 (enhance scientific research), 12 (responsible consumption and production), 14 (life under water) and 15 (life on land).
Contributing to SDGs 9.5 (enhance scientific research), 14 (life under water) and 15 (life on land), this article identifies research priorities for current and future studies on microplastics and their interaction with organisms.
Elsevier,

TrAC Trends in Analytical Chemistry, Volume 111, 2019,Pages 173-184. 

Advancing SDG 9.5 (enhance scientific research), this review explores experimental techniques for the assessment of micro- and nanoplastics in the environment. Enhanced research into these environmental pollutants may further support SDGs 12 (responsible consumption and production), 14 (life below water) and 15 (life on land).
Advancing goals 7 and 14, this article examines the potential ecological effects of submarine power cables during installation, operation and decommissioning phases and sets recommendations for better monitoring and mitigation of the most significant impacts
Elsevier,

Trends in Ecology & Evolution, Volume 34, Issue 1, January 2019, Pages 57-68.

In support of global conservation targets SDG 14 (life below water) and SDG15 (life on land), the Aichi Targets of the Strategic Plan for Biodiversity have provided a set of clear conservation targets. The authors argue that scenarios and models are not currently being used to their full potential.
This article focuses on SDG 14 (life below water). This commentary discusses the recent United Nations meetings which prepare international legally binding instruments focussed on the protection of biodiversity in waters beyond National Jurisdiction.
Elsevier,

TrAC Trends in Analytical Chemistry,
Volume 112,
2019,
Pages 52-65

Supporting SDG 9.5 (enhance scientific research), this review provides a roadmap of current analytical methods for microplastic and nanoplastic research. Enhanced research capabilities in this area may in turn support progress towards SDGs 12 (responsible consumption and production), 14 (life below water) and 15 (life on land).
Elsevier,

TrAC Trends in Analytical Chemistry, Volume 110, January 2019, Pages 375-392.

This critical review develops SDG 12 (responsible consumption and production) and SDG 14 (life below water), exploring the impact of microplastics and smaller nanoplastics within freshwater ecosystems.
Elsevier,

TrAC Trends in Analytical Chemistry, Volume 110, January 2019, Pages 150-159.

This critical review evaluates environmental microplastic research methodologies. Developing standardized sampling techniques may advance the efficiency, accuracy and ease of future microplastic research. Improved understanding of microplastic impacts will advance progress towards multiple SDG's.

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