1. Production efficiency and properties of poly(3hydroxybutyrate-co-3hydroxyvalerate) generated via a robust bacterial consortium dominated by Zoogloea sp. using acidified discarded fruit juices as carbon source.
- Author
-
Kora, Elianta, Tsaousis, Panagiotis C., Andrikopoulos, Konstantinos S., Chasapis, Christos T., Voyiatzis, George A., Ntaikou, Ioanna, and Lyberatos, Gerasimos
- Subjects
- *
FRUIT juices , *RANDOM copolymers , *POLYHYDROXYALKANOATES , *BIODEGRADABLE plastics , *CIRCULAR economy , *ORGANIC acids , *SOLVENT extraction - Abstract
In the current study, a mixed microbial culture (MMC) of polyhydroxyalkanoates (PHAs) producers was developed under nutrient stress and was assessed as biocatalyst for the production of high-yielding PHAs from fermented (acidified) discarded fruit juices (DFJ). The structure of the MMC was analyzed periodically to determine its microbial dynamics, revealing that Zoogloae sp. dominated throughout the operation of the system. The efficiency of PHAs production from the MMC was further optimized in batch mode by altering the ratio of C to N, the ratio of carbon sources (propionate and butyrate), and the initial pH, and subsequently different fermentation mixtures of acidified DFJ were assessed as substrates at optimal conditions. Upon solvent extraction, the properties of recovered PHAs were analyzed, showing that in all cases P(3HB-co-3HV) was produced, with T m ranging from 90.5 to 168.8 °C, and maximum obtained yields 54.61 ± 4.31 % and 43.27 ± 2.13 %, from synthetic substrates and DFJ, respectively. Overall, it was shown that the developed MMC can be efficiently applied as biocatalyst for the exploitation of sugary wastewaters, such as DFJ, towards bio-based and biodegradable plastics bearing the required properties to substitute fossil plastics, into the concept of a circular economy. • A PHAs producing consortium dominated by Zoogloae was developed under nutrient stress. • The accumulation capacity of the consortium excided 50 % g PHAs/g dry biomass. • Random copolymers of HB and HV were synthesized from organic acids and acidified juices. • The HV content of the copolymers was linked to the propionate content of the substrate. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF