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  • The biodegradation of four poly(l-lactic acid) (PLA) samples with molecular weights (MW) ranging from approximately 34 to 160kgmol-1 was investigated under composting conditions. The biodegradation rate decreased, and initial retardation was discernible in parallel with the increasing MW of the polymer. Furthermore, the specific surface area of the polymer sample was identified as the important factor accelerating biodegradation. Microbial community compositions and dynamics during the biodegradation of different PLA were monitored by temperature gradient gel electrophoresis, and were found to be virtually identical for all PLA materials and independent of MW. A specific PLA degrading bacteria was isolated and tentatively designated Thermopolyspora flexuosa FTPLA. The addition of a limited amount of low MW PLA did not accelerate the biodegradation of high MW PLA, suggesting that the process is not limited to the number of specific degraders and/or the induction of specific enzymes. In parallel, abiotic hydrolysis was investigated for the same set of samples and their courses found to be quasi-identical with the biodegradation of all four PLA samples investigated. This suggests that the abiotic hydrolysis represented a rate limiting step in the biodegradation process and the organisms present were not able to accelerate depolymerization significantly by the action of their enzymes.
  • The biodegradation of four poly(l-lactic acid) (PLA) samples with molecular weights (MW) ranging from approximately 34 to 160kgmol-1 was investigated under composting conditions. The biodegradation rate decreased, and initial retardation was discernible in parallel with the increasing MW of the polymer. Furthermore, the specific surface area of the polymer sample was identified as the important factor accelerating biodegradation. Microbial community compositions and dynamics during the biodegradation of different PLA were monitored by temperature gradient gel electrophoresis, and were found to be virtually identical for all PLA materials and independent of MW. A specific PLA degrading bacteria was isolated and tentatively designated Thermopolyspora flexuosa FTPLA. The addition of a limited amount of low MW PLA did not accelerate the biodegradation of high MW PLA, suggesting that the process is not limited to the number of specific degraders and/or the induction of specific enzymes. In parallel, abiotic hydrolysis was investigated for the same set of samples and their courses found to be quasi-identical with the biodegradation of all four PLA samples investigated. This suggests that the abiotic hydrolysis represented a rate limiting step in the biodegradation process and the organisms present were not able to accelerate depolymerization significantly by the action of their enzymes. (en)
Title
  • Identification of important abiotic and biotic factors in the biodegradation of poly(l-lactic acid)
  • Identification of important abiotic and biotic factors in the biodegradation of poly(l-lactic acid) (en)
skos:prefLabel
  • Identification of important abiotic and biotic factors in the biodegradation of poly(l-lactic acid)
  • Identification of important abiotic and biotic factors in the biodegradation of poly(l-lactic acid) (en)
skos:notation
  • RIV/70883521:28610/14:43871925!RIV15-MSM-28610___
http://linked.open...avai/riv/aktivita
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  • P(ED2.1.00/03.0111), P(GAP108/10/0200), S
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  • Neuveden
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  • 20289
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  • RIV/70883521:28610/14:43871925
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  • Polylactic acid; Biodegradation; Abiotic hydrolysis (en)
http://linked.open.../riv/klicoveSlovo
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  • NL - Nizozemsko
http://linked.open...ontrolniKodProRIV
  • [03E4FF125438]
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  • International Journal of Biological Macromolecules
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  • 71
http://linked.open...iv/tvurceVysledku
  • Commereuc, Sophie
  • Husárová, Lucie
  • Koutný, Marek
  • Kucharczyk, Pavel
  • Stloukal, Petr
  • Verney, Vincent
  • Pekařová, Silvie
  • Ramone, Audrey
issn
  • 0141-8130
number of pages
http://bibframe.org/vocab/doi
  • 10.1016/j.ijbiomac.2014.04.050
http://localhost/t...ganizacniJednotka
  • 28610
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