Abstract
Biogas production is one of the means to manage the cassava pulp waste obtained from the cassava processing plants. The success of the process is determined by the hydrolysis in an anaerobic digester. When the digester failure is found, the new microbial consortium inoculum is introduced to the system with the long period of set up time. This research aimed to construct the endemic microbial consortium by re-cultivating the cellulolytic microbial consortia obtained from cassava pulp and digester wastewater with the expected shorter set up time. Modifications of enrichment and re-cultivation methods by varying the nutrients, pH and temperature improved the enzymatic hydrolysis yields, as reducing sugars, of CMC, rice straw and cassava pulp substrates approximately 9, 3, and 13 times, respectively. To analyze the enzymatic activities of the selected microbial consortia, the cellulase enzyme was extracted, partially purified and analyzed on CMC-zymogram. The ~130 kDa-sized cellulase enzyme was identified with endocellulase activity, and it was considered as a relatively large molecular size molecule compared to most bacterial endocellulases. The selected microbial consortia were tested for their biomass degradation capacities, and the optimal operational condition was obtained at pH 7.0 and 30 °C. This optimal condition showed the proof of the concept that this re-cultivated consortium could be applied in on-site digester with high efficiency.
Highlights
One of the major concerns of agricultural industries is involved in the waste management, especially processing by-products, for example, cassava pulp, corn cobs, sugarcane leaves
This research aimed to recultivate and enrich the cellulolytic microbial consortium obtained from cassava pulp and on-site digester to be used as inoculum seeds for using when the digester’s failure occurs with the expected shorter set up time than an alien microbial consortium
A total of 8 microbial consortia isolated from cassava pulp and digester wastewater of cassava processing plant was re-cultivated and enriched in different culturing conditions, including types of carbon source, pH and temperature
Summary
One of the major concerns of agricultural industries is involved in the waste management, especially processing by-products, for example, cassava pulp, corn cobs, sugarcane leaves. These sources of agricultural waste mostly have lignocellulosic biomass as common components. Cassava pulp is currently used as feeds for dairy farms. It could be used as raw materials in the biofuel production, mostly in the forms of biogas and bioethanol [5]. The efficiency of biogas production is normally determined by the rates of hydrolysis and methanogenesis reactions
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