2021
DOI: 10.1128/mbio.02155-21
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Plastic-Degrading Potential across the Global Microbiome Correlates with Recent Pollution Trends

Abstract: Utilization of synthetic biology approaches to enhance current plastic degradation processes is of crucial importance, as natural plastic degradation processes are very slow. For instance, the predicted lifetime of a polyethylene terephthalate (PET) bottle under ambient conditions ranges from 16 to 48 years.

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Cited by 76 publications
(61 citation statements)
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References 114 publications
(211 reference statements)
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“…However, the amount of plastic estimated to enter into marine ecosystems does not correlate with the accumulation found by sampling techniques (Eriksen et al, 2014; Jambeck et al, 2015). Although there could be biases in sampling specific areas, this fact could also indicate that either physical or chemical plastic degradation is taking place in these ecosystems and/or microbial biodegradation is involved (Auta et al, 2017; Gewert et al, 2015; Sole et al, 2017; Zrimec et al, 2021). In recent years, plastic debris has proved a niche for specific plastic‐associated microbial communities to flourish, generally known as the “plastisphere” (Agostini et al, 2021; Zettler et al, 2013).…”
Section: Introductionmentioning
confidence: 99%
“…However, the amount of plastic estimated to enter into marine ecosystems does not correlate with the accumulation found by sampling techniques (Eriksen et al, 2014; Jambeck et al, 2015). Although there could be biases in sampling specific areas, this fact could also indicate that either physical or chemical plastic degradation is taking place in these ecosystems and/or microbial biodegradation is involved (Auta et al, 2017; Gewert et al, 2015; Sole et al, 2017; Zrimec et al, 2021). In recent years, plastic debris has proved a niche for specific plastic‐associated microbial communities to flourish, generally known as the “plastisphere” (Agostini et al, 2021; Zettler et al, 2013).…”
Section: Introductionmentioning
confidence: 99%
“…By reapplying evolutionarily optimized and, maybe, cautiously engineered biosynthetic or catabolic pathways that work at atmospheric pressure and with normal surrounding temperature for application purposes, environmentally sustainable production solutions can become not only possible but a reality. For example, how complex waste materials could be processed, and especially dispersed in nature such as plastic debris or dangerous chemical compounds, synthetic biology approaches might offer unprecedented ways out of accumulated problems (Zrimec et al, 2021). As microbial and fungal organisms, to some extent plants, have a demonstrated large diversity of biochemical pathways and signs of continued evolution of chemical processing variety (rather in contrast to higher eukaryote animals); they are prime targets for scientific research to learn from their pathway richness how to tackle new metabolites and xenobiotics.…”
Section: Editorial On the Research Topicmentioning
confidence: 99%
“…By reapplying evolutionarily optimized and, maybe, cautiously engineered biosynthetic or catabolic pathways that work at atmospheric pressure and with normal surrounding temperature for application purposes, environmentally sustainable production solutions can become not only possible but a reality. For example, how complex waste materials could be processed, and especially dispersed in nature such as plastic debris or dangerous chemical compounds, synthetic biology approaches might offer unprecedented ways out of accumulated problems ( Zrimec et al, 2021 ).…”
mentioning
confidence: 99%
“…Over the past decade, 4.8–12.7 million metric tons (MMT) of plastic has been reported to enter the world’s oceans on an annual basis, a figure which could accumulate to 250 MMT by 2025 ( Yakimov et al, 2022 ). The “plastisphere,” which refers to the microbial communities colonizing plastic debris, has attracted particular attention in the context of marine ecosystems ( Amaral-Zettler et al, 2020 ; Li et al, 2021 ; Yakimov et al, 2022 ), with recent multi-omics analyses on the plastisphere highlighting this habitat as a promising source of plastic-degrading microorganisms ( Suzuki et al, 2021 ; Wright et al, 2021 ; Zrimec et al, 2021 ).…”
Section: Introductionmentioning
confidence: 99%