Study on the biodegradability of alkaline pretreated custard apple peel (Annona squamosa Linn.) by using local cellulolytic bacteria
1
Faculty of Environment, Ha Long University, 258 Bach Dang street, Uong Bi city, Quang Ninh province, Viet Nam.
2
Environment and Sustainable Development Research Group, Dong Nai Technology University, Bien Hoa City, Vietnam
3
Faculty of Technology, Dong Nai Technology University, Bien Hoa City, Vietnam
4
VNU School of Interdisciplinary Sciences and Arts, Vietnam National University, Hanoi, Vietnam
5
University of Transport Technology, 100000, Hanoi, Vietnam
6
Institute of Science and Technology for Energy and Environment, Vietnam Academy of Science and Tech-nology, Cau Giay District, Hanoi 100000, Vietnam
These authors had equal contribution to this work
Corresponding author
Le Duy Khuong
VNU School of Interdisciplinary Sciences and Arts, Vietnam National University, Hanoi, Vietnam
VNU School of Interdisciplinary Sciences and Arts, Vietnam National University, Hanoi, Vietnam
KEYWORDS
cellulolytic bacteriaalkaline hydrolysiscustard apple peelFPase activityreducing sugars concentra-tion
TOPICS
ABSTRACT
This study explored custard apple peel (Annona squamosa Linn.) as a novel raw material for sugar production through combined chemical and biological hydrolysis. Thermal-alkaline pretreatment was first optimized using one-factor-at-a-time (OFAT) experiments, followed by Box–Behnken Design (BBD) with Response Surface Methodology (RSM). The optimal conditions, NaOH concentration 2.5 g/L, temperature 90 °C, and treatment time 70 min, yielded 3440 mg/L reducing sugars, 1.8-fold high-er than single-factor optimization (1862 mg/L). The model showed a strong fit (R² = 0.9774, P < 0.05), confirming the reliability of the predicted values. In the biological approach, four cellulolytic bacterial strains, namely Alcaligenes sp. KHM19, Staphylococcus gallinarum VC10, Bacillus safensis HL04, and Bacillus velezensis KH-08, were assessed for their enzymatic potential. Among them, B. velezensis KH-08 displayed the highest FPase activity (19.56 U/L) and produced up to 365.97 mg/L reducing sugars after 6 days. Overall, the findings provide the first evidence for the valorization of custard ap-ple peel through integrated hydrolysis strategies and identify B. velezensis KH-08 as a promising novel strain for future biotechnological applications.
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