Beyond surface: Unveiling ecological and economic ramifications of microplastic pollution in the oceans

Kurniawan, Tonni Agustiono; Mohyuddin, Ayesha; Othman, Mohd Hafiz Dzarfan; Goh, Hui Hwang; Zhang, Dongdong; Anouzla, Abdelkader; Aziz, Faissal; Casila, Joan C.; Ali, Imran; Pasaribu, Buntora

doi:10.1002/wer.11070

Water Environment Research

2024

DOI: 10.1002/wer.11070

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Beyond surface: Unveiling ecological and economic ramifications of microplastic pollution in the oceans

Tonni Agustiono Kurniawan,

Ayesha Mohyuddin,

Mohd Hafiz Dzarfan Othman

et al.

Abstract: Every year, the global production of plastic waste reaches a staggering 400 million metric tons (Mt), precipitating adverse consequences for the environment, food safety, and biodiversity as it degrades into microplastics (MPs). The multifaceted nature of MP pollution, coupled with its intricate physiological impacts, underscores the pressing need for comprehensive policies and legislative frameworks. Such measures, alongside advancements in technology, hold promise in averting ecological catastrophe in the oc… Show more

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Cited by 5 publications

References 244 publications

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Microplastics and heavy metals in the coastal areas: Marine health assessment and ecosystem services values

Motlagh,

Tavakoli,

Sayadi

2025

Environmental Development

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Microplastics and heavy metals in the coastal areas: Marine health assessment and ecosystem services values

Motlagh,

Tavakoli,

Sayadi

2025

Environmental Development

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Landfill mining: A step forward to reducing CH4 emissions and enhancing CO2 sequestration from landfill

Kurniawan,

Hassan,

Al-Hazmi

et al. 2024

Journal of Hazardous Materials Advances

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Strengthening Climate Resilience: Urban Water Technologies for Heat-Resilient Physical Infrastructure in Southeast Asia Cities Amidst Extreme Temperature Events and El Niño Challenges

Kurniawan,

Goh,

Goh

et al. 2024

ACS EST Water

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In the face of escalating climate change impacts, Southeast Asia is witnessing a growing urgency to fortify regional cities against extreme temperatures and the exacerbating effects of El Niño events. This work delves into the role of urban water technologies in bolstering heat-resilient infrastructure across the region. This work also assesses urban water technologies that can contribute to the development of heat-resilient infrastructure in urban areas. This involves examining innovative approaches that can help mitigate the impacts of extreme temperatures on water infrastructure and enhance its resilience to climate change. They include green infrastructure, decentralized water systems, and advanced cooling technologies that have the potential to improve the resilience of urban water infrastructure to heat stress and extreme temperatures. Through empirical studies, this study underscores the imperative for proactive measures to enhance urban resilience in the region. The implications of this work offer practical insights for policymakers, urban planners, and stakeholders to bolster climate resilience in the region, emphasizing the role of water technologies in mitigating risks and enhancing adaptive capacity. By integrating urban technologies such as advanced cooling systems and green infrastructure, cities in the southeast Asia region not only can mitigate heat-related risks but also foster sustainable development pathways.

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Beyond surface: Unveiling ecological and economic ramifications of microplastic pollution in the oceans

Cited by 5 publications

References 244 publications

Microplastics and heavy metals in the coastal areas: Marine health assessment and ecosystem services values

Microplastics and heavy metals in the coastal areas: Marine health assessment and ecosystem services values

Landfill mining: A step forward to reducing CH4 emissions and enhancing CO2 sequestration from landfill

Strengthening Climate Resilience: Urban Water Technologies for Heat-Resilient Physical Infrastructure in Southeast Asia Cities Amidst Extreme Temperature Events and El Niño Challenges

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