The global threat from plastic pollution

MacLeod, Matthew; Arp, Hans Peter H.; Tekman, Mine Banu; Jahnke, Annika

doi:10.1126/science.abg5433

Cited by 1,428 publications

(654 citation statements)

References 64 publications

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“…Both of these options have significant negative environmental effects. Discarded plastics are a major global concern with plastic waste, both macro and micro, found in every environment globally [57,61,62]. The very slow rate of degradation means that plastic waste will remain present for unacceptably long periods of time.…”

Section: Backsheet Polymersmentioning

confidence: 99%

Reshaping the Module: The Path to Comprehensive Photovoltaic Panel Recycling

Isherwood

2022

Sustainability

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The market for photovoltaic modules is expanding rapidly, with more than 500 GW installed capacity. Consequently, there is an urgent need to prepare for the comprehensive recycling of end-of-life solar modules. Crystalline silicon remains the primary photovoltaic technology, with CdTe and CIGS taking up much of the remaining market. Modules can be separated by crushing or cutting, or by thermal or solvent-based delamination. Separation and extraction of semiconductor materials can be achieved through manual, mechanical, wet or dry chemical means, or a combination. Crystalline silicon modules are currently recycled through crushing and mechanical separation, but procedures do exist for extraction and processing of intact wafers or wafer pieces. Use of these processes could lead to the recovery of higher grades of silicon. CdTe panels are mostly recycled using a chemical leaching process, with the metals recovered from the leachate. CIGS can be recycled through oxidative removal of selenium and thermochemical recovery of the metals, or by electrochemical or hydrometallurgical means. A remaining area of concern is recycling of the polymeric encapsulant and backsheet materials. There is a move away from the use of fluorinated backsheet polymers which may allow for improved recycling, but further research is required to identify materials which can be recycled readily whilst also being able to withstand outdoor environments for multi-decadal timespans.

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Section: Backsheet Polymersmentioning

confidence: 99%

Reshaping the Module: The Path to Comprehensive Photovoltaic Panel Recycling

Isherwood

2022

Sustainability

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“…However, to date, no certification scheme for 'AD-able' material exists, and even some of the most biodegradable EN 13432 materials (industrial composting certification scheme) were shown not to meet the physical contaminant criteria of the PAS 110 specification, the national quality standard for the digestate market in the UK [51]. This is alarming, especially in light of microplastic and plasticiser accumulation reported in agricultural soils [67,68]. Soil biodiversity and, consequently, soil fertility could be severely undermined with increasing levels of plastic pollution [68].…”

Section: Legislative Economic and Environmental Challengesmentioning

confidence: 99%

“…This is alarming, especially in light of microplastic and plasticiser accumulation reported in agricultural soils [67,68]. Soil biodiversity and, consequently, soil fertility could be severely undermined with increasing levels of plastic pollution [68].…”

Section: Legislative Economic and Environmental Challengesmentioning

confidence: 99%

Two Birds with One Stone: Bioplastics and Food Waste Anaerobic Co-Digestion

2022

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Following the BBC’s Blue Planet II nature documentary series on marine ecosystems, plastic packaging has come under public fire, with consumers demanding greener alternatives. The biodegradable properties of some bioplastics have offered a potential solution to the global challenge of plastic pollution, while enabling the capture of food waste through anaerobic digestion as a circular and energy-positive waste treatment strategy. However, despite their increasing popularity, currently bioplastics are being tested in environments that do not reflect real-life waste management scenarios. Bioplastics find their most useful, meaningful and environmentally-sound application in food packaging—why is there so little interest in addressing their anaerobic co-digestion with food waste? Here, we provide a set of recommendations to ensure future studies on bioplastic end-of-life are fit for purpose. This perspective makes the link between the environmental sustainability of bioplastics and the role of food waste anaerobic digestion as we move towards an integrated food–energy–water–waste nexus. It shines light on a novel outlook in the field of bioplastic waste management while uncovering the complexity of a successful path forward. Ultimately, this research strives to ensure that the promotion of bioplastics within a circular economy framework is supported across waste collection and treatment stages.

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“…Noteworthy, the situation has substantially worsened as a consequence of the COVID-19 outbreak [30,31] . Land dumped plastic waste is transported by the river network [32] with an annual estimated amount of 1.2-2.4 million tons in 2016 [33] . Under business-as-usual scenarios, these emission rates could be doubled by 2025 [34] .…”

Section: Broadening the Scope Of Water Contaminants: Micro-and Nano-plasticsmentioning

confidence: 99%

Emerging contaminants and nanoplastics in the water environment: a matter of rising concern

Ginebreda¹

2021

WECN

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The global threat from plastic pollution

Cited by 1,428 publications

References 64 publications

Reshaping the Module: The Path to Comprehensive Photovoltaic Panel Recycling

Reshaping the Module: The Path to Comprehensive Photovoltaic Panel Recycling

Two Birds with One Stone: Bioplastics and Food Waste Anaerobic Co-Digestion

Emerging contaminants and nanoplastics in the water environment: a matter of rising concern

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