Chemical Composition of Parenchyma and Vascular Bundle from Elaeis guineensis

Elaeis guineensis [Working Title] Pub Date : 2021-11-07 DOI:10.5772/intechopen.98421

Sitti Fatimah Mhd. Ramle

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引用次数: 1

Abstract

Elaeis guineensis is an alternative source of raw materials for renewable energy in Malaysia. Thus, to enhance the use of the abundant biomass generated by the oil palm industry in Malaysia, a study was conducted in view of exploring the chemical composition such as sugar potential of this industrial byproduct. In this context, oil palm trunks were separated into individual cell that are parenchyma and vascular bundle to investigate the fundamental research about oil palm trunk. The aim of this study was to examine the chemical composition of parenchyma and vascular bundle of oil palm trunk. The oil palm trunk was kept under shade at room temperature of 28–30°C for 0, 45, and 60 days. The chemical composition analysis was carried out according to TAPPI methods. Based on storage time and different part of oil palm trunk, the result has shown that the sugar content was higher in parenchyma compared to vascular bundle and increase at the storage time of 0, 45, and 60 days while amount of starch showed decrease at the same storage time. It shows that conversion or fermentation of starch to sugar occur in oil palm trunk during storage times of 0, 45, and 60 days, respectively.

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豚鼠薄壁组织和维管束的化学成分

几内亚Elaeis guineensis是马来西亚可再生能源的另一种原材料来源。因此，为了加强对马来西亚油棕工业产生的丰富生物质的利用，为了探索这种工业副产品的化学成分，如糖势，进行了一项研究。在此背景下，将油棕树干分离成薄壁细胞和维管束细胞，进行油棕树干的基础研究。研究了油棕树干薄壁组织和维管束的化学成分。油棕树干在28-30℃的室温下遮荫保存0、45和60天。采用TAPPI法进行化学成分分析。通过对油棕树干不同部位的贮藏时间分析，结果表明:在贮藏0、45和60 d时，薄壁组织中糖含量高于维管束，且糖含量有所增加，而淀粉含量则有所减少。结果表明，油棕树干在贮藏0、45、60天期间，淀粉转化或发酵为糖。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Elaeis guineensis [Working Title]

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