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Biofuels Volume 7, 2016 - Issue 5
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Articles

Statistical optimization of enzymatic saccharification of acid pretreated Parthenium hysterophorus biomass using response surface methodology

Shivani BhagwatSchool of Biotechnology, Devi Ahilya University, Khandwa Road, Indore-452001, India
,
Abebe Demissie GirmaSchool of Biotechnology, Devi Ahilya University, Khandwa Road, Indore-452001, India;Department of Biology, College of Natural and Computational Sciences, Arba Minch University, Arba Minch, Ethiopia
&
Anil KumarSchool of Biotechnology, Devi Ahilya University, Khandwa Road, Indore-452001, IndiaCorrespondence[email protected]
Pages 501-509 | Received 01 Oct 2015, Accepted 08 Feb 2016, Published online: 12 Apr 2016
 
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ABSTRACT

The Parthenium hysterophorus biomass has been pretreated using sulphuric acid to improve fermentable sugar recovery. In the first phase, a mild concentration of sulphuric acid was used for pretreatment of the biomass followed by enzymatic saccharification. The total carbohydrate content of the dry biomass was estimated to be approximately 51.14 ± 0.98 gm percent whereas the lignin content was calculated to be 26.60 ± 0.180 gm percent. The biomass complexity and structure was investigated using the X-ray diffraction method. Analysis revealed a 63.01% crystallinity index of acid pretreated biomass. Optimization of enzymatic saccharification was performed using a Box–Behnken design in response surface methodology (RSM). The variables taken were substrate concentration, working volume, temperature and enzyme loading to achieve maximum yield. It was observed that enzymatic saccharification worked well with 2.0 ml enzyme load, 2.0 g substrate concentration, 30 ml of working volume and incubation temperature of 35 °C for 72 h. The data obtained from RSM were validated using ANOVA. After optimization, the predicted values were in agreement with the experimental values. This study indicated that Parthenium hysterophorus can be used as a potential and inexpensive biomass source for the commercial production of biofuel.

Acknowledgments

The authors acknowledge the facilities of the Department of Biotechnology, Ministry of Science and Technology, Government of India, New Delhi (DBT) present in the School under MSc Biotechnology program and Bioinformatics Sub-Centre. Shivani Bhagwat acknowledges the award of Golden Jubilee Fellowship from the Devi Ahilya University, Indore (under funds of UGC). Authors are thankful to UGC-DAE Consortium for Scientific Research, Indore for XRD imaging.

Disclosure statement

No potential conflict of interest was reported by the author.

Conflict of interest

The authors declare that there is no conflict of interests regarding the publication of this paper.

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