Abstract
This work aimed to analyze the physicochemical properties of cellulose from OPT used in the fabrication of CMF and evaluate the efficacy of the hydrogel CMF as an encapsulant for L. fermentum InaCC B1295 stored at room temperature and in the refrigerator. The Kjeldahl method was used to evaluate the protein content; the gravimetric method was used to determine OPT's ash, moisture, and fiber contents; the Soxhlet method was used to determine the fat content carbohydrates were computed using the difference method. The levels of holocellulose, lignin, and cellulose were also determined. Viability, acid and bile resistance of strain B1295 were evaluated at various temperatures for 35 days. The most abundant component of OPT fiber was cellulose, followed by hemicellulose and lignin. XRD examination revealed that OPT cellulose has a crystal index of 83.40%. FTIR analysis was used to detect the stretching vibrations of the –OH group on cellulose at 3419.03 cm-1. CMF hydrogel from OPT sustained L. fermentum InaCC B1295 survival for up to 28 days at room and refrigerated temperatures. At acidic conditions and in the presence of bile, the viability of L. fermentum InaCC B1295 was excellent, with a drop in cell population of less than 0.2 log CFU/g over 35 days at room and refrigerated temperatures. CMF obtained from OPT can be used as an encapsulant to maintain viability, acid resistance and bile of probiotics. There is still a need for research into the usage of CMF from OPT in combination with other encapsulants to extend the storage life of L. fermentum InaCC B1295. Doi: 10.28991/ESJ-2022-06-01-08 Full Text: PDF
Highlights
Indonesia is the world's top palm oil producer, with 16.37 million hectares of land and 45.8 million tons of CPO production in 2020
Lactobacillus fermentum InaCC B1295 was obtained from the Indonesian Culture Collection (InaCC), Research Center for Biology, Indonesian Institute of Sciences (LIPI), West Java, Indonesia. 89% polyvinyl alcohol was purchased from SigmaAldrich, Steinheim, Germany
XRD examination revealed that Oil palm trunk (OPT) cellulose has a crystal index of 83.40%
Summary
Indonesia is the world's top palm oil producer, with 16.37 million hectares of land and 45.8 million tons of CPO production in 2020. There is a high likelihood of palm oil waste with such a vast oil palm plantation, including empty fruit bunches, oil palm trunks, oil palm fronds, and oil palm leaves. Only 10% of an oil palm tree is oil; 90% is biomass such as the trunk, frond, leaves, palm oil shells, and empty fruit bunches [1]. Oil palm trunk (OPT) waste is generally obtained during replanting when the oil palm plants have reached 25-30 years. About 2.76 million hectares of oil palm will be replanted in Indonesia [2]. OPT waste is abundant from replanting today and the few years. Today and in the future, OPT can be used to make various high-value products, including medium-density panels, laminated veneer wood, nanocomposites, pulp and paper [4,5,6]. OPT can be used as a source of starch [7, 8] and feed for ruminants [9]
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