2009
DOI: 10.1016/j.ibiod.2009.03.003
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Biofouling and stability of synthetic polymers in sea water

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Cited by 246 publications
(127 citation statements)
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References 33 publications
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“…Increasing ratios of oxidized to non-oxidized carbon, associated with surface oxidation of polymers exposed to natural sunlight, can be related to polymer chain scission reactions, leading to polymer deterioration (Stark and Matuana, 2004). An increase in carbonyl index followed by a decrease was considered as an indication of biodegradation by Artham et al (2009) which was verified by a weight loss of 1.6% for HDPE (1.9% for LDPE) after 12 months.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Increasing ratios of oxidized to non-oxidized carbon, associated with surface oxidation of polymers exposed to natural sunlight, can be related to polymer chain scission reactions, leading to polymer deterioration (Stark and Matuana, 2004). An increase in carbonyl index followed by a decrease was considered as an indication of biodegradation by Artham et al (2009) which was verified by a weight loss of 1.6% for HDPE (1.9% for LDPE) after 12 months.…”
Section: Discussionmentioning
confidence: 99%
“…Weight loss of almost 40% has been observed in plastics buried in soil (Accinelli et al, 2012), while Müller et al (2012) estimated degradation rates between 3 and 9% for biodegradable bags in simulated sea turtle gastrointestinal conditions. Microorganisms have also been used for the biodegradation of weathered plastics (Shah et al, 2008), including polyethylene (Artham et al, 2009;Restrepo-Flórez et al, 2014;Kumar Sen and Raut, 2015).…”
Section: Introductionmentioning
confidence: 99%
“…fouling and degradation) can alter the structure of the plastic debris (e.g. increasing their surface area and/or charge; Artham et al 2009;Holmes et al 2012Holmes et al , 2014, changing the way of how chemicals accumulate on the material.…”
Section: Process Of Accumulationmentioning
confidence: 99%
“…In the marine environment, the surface properties of the plastic debris consistently change. As plastic debris weathers it gains surface area, generates oxygen groups (increasing polarity; Mato et al 2001;Fotopoulou and Karapanagioti 2012) and fouls (increasing their charge, roughness and porosity) (Artham et al 2009)-all allowing plastic debris to accumulate increasingly larger concentrations of chemical contaminants (Holmes et al 2012;Fotopoulou and Karapanagioti 2012;Rochman et al 2013cRochman et al , 2014a. Thus, in general, the longer the plastic is in the water, the greater concentrations of chemical contaminants it will accumulate (Engler et al 2012), suggesting that plastic debris may become more hazardous the longer it remains at sea.…”
Section: Rate Of Accumulationmentioning
confidence: 99%
“…The abiotic phase can be induced by thermal, photolytic, chemical, catalytic and mechanical degradation processes (Singh and Sharma 2008). The second step takes place only if the abiotically degraded plastic faces proper conditions for microbial growth (Kumanayaka et al 2010) Biodeterioration and biodegradation of HDPE, LDPE, PP, and polycarbonate (PC) without additives exposed to sea water have been shown before (Artham et al 2009). In studies focused on the mechanisms of degradation, it has been found that LDPE can be partially degraded by marine bacteria from pelagic waters (Harshvardhan and Jha 2013).…”
Section: Introductionmentioning
confidence: 99%