Production of PHB from Chicory Roots – Comparison of Three Cupriavidus necator Strains

Chicory roots from hydroponic salad cultivation are an abundant food residue in Navarra (Spain) that are underutilized to date. Aiming at a holistic utilization of resources, we report here the first process using chicory root hydrolysate for the production of poly(®-3-hydroxybutyrate) (PHB). The po...

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Bibliographic Details
Published inChemical and Biochemical Engineering Quarterly Vol. 29; no. 2; pp. 99 - 112
Main Author Haas, C.
Format Journal Article Paper
LanguageEnglish
Published Croatian Association of Chemical Engineers 2015
Hrvatsko društvo kemijskih inženjera i tehnologa
Subjects
batch fermentation
by-product
Cichorium intybus
Cupriavidus necator
food residue
fructose
hydrolysate
inulin
P3HB
Physiological aspects
Polyhydroxybutyrate
polymer characterisation
pre-treatment
Proteobacteria
Spain
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ISSN0352-9568
1846-5153
DOI10.15255/CABEQ.2014.2250

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Summary:Chicory roots from hydroponic salad cultivation are an abundant food residue in Navarra (Spain) that are underutilized to date. Aiming at a holistic utilization of resources, we report here the first process using chicory root hydrolysate for the production of poly(®-3-hydroxybutyrate) (PHB). The polymer can be used for packaging material made for the locally produced vegetables. In the first step, we developed a pre-treatment process to obtain a hydrolysate, which contained 34 g [L.sup.-1] sugars and 0.7 g [L.sup.-1] total Kjeldahl nitrogen. This hydrolysate was used as fermentation substrate for three PHB-producing strains. Cupriavidus necator DSM 428 reached a dry biomass concentration of 11.3 g [L.sup.-1] with a PHB content of 66 % in dry mass within 5 days. C. necator DSM 531 yielded 3.5 g [L.sup.-1] dry biomass containing 46 % PHB within the same period. C. necator DSM 545 was superior over the other two in that 14.0 g [L.sup.-1] of biomass containing 78 % PHB after only 3 days were obtained. These results show that even within the same species, the productivities on natural substrates are very different. The produced polymers were extracted using chloroform, and several thermo-physical parameters are in good accordance with published data. Overall, our holistic approach and the encouraging results prove that chicory roots are a viable fermentation substrate for PHB-production. Key words: Cichorium intybus, fructose, inulin, by-product, food residue, pre-treatment, hydrolysate, batch fermentation, Cupriavidus necator, P3HB, polymer characterisation
Bibliography:141905
ISSN:0352-9568
1846-5153
DOI:10.15255/CABEQ.2014.2250