1 AIT Asian Institute of Technology

Assessment of fungal contamination in peanuts and its prevention by chitosan incorporated with essential oils during various storage conditions

AuthorSu Hlaing Chein
Call NumberAIT Diss no.FB-19-04
NoteA dissertation submitted in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Food Engineering and Bioprocess Technology, School of Environment, Resources and Development
PublisherAsian Institute of Technology
Series StatementDissertation ; no. FB-19-04
AbstractFungi are commonly present in the environment and can grow under favorable conditions on the extensive variety of agricultural commodities. Aflatoxin, a highly toxic and carcinogenic chemical substance, is produced by Aspergillus spp. on a variety of agricultural commodities. The objective of the study was to determine the factors associated with the fungal contamination of peanut samples from Myanmar. Majority of the farmers are unaware of the fungal contamination in peanut kernels. The survey, based on post-harvest handling and storage practices questionnaires, was conducted by interviewing 178 respondents that included 140 farmers from 11 villages, 28 collectors and 10 wholesalers. The result indicated poor handling and inadequate storage conditions along with poor processing detrimentally affected the crop contents and the farmers lack in understanding the problem and importance of managing the fungal contamination. The results indicated that 42, 21, 20, and 17% of the farmers dried their peanut plants for 3, 4, 7, and 10 days, respectively. Due to lack of the standard criteria, farmers aim to sell the pods with higher weight with higher moisture content. The study found that only 17% farmers dried peanut pods within safe moisture content range and sold to collectors. In this study, peanut kernels were found to be contaminated by Aspergillus flavus and Aspergillus niger with 3 and 4 days stored products compared with 7, 10, 30 and 60 days stored peanut kernels, indicating the occurrence of fungal contamination under improper drying practice and relatively short storage time at the farm level. Furthermore, 90 and 120 days stored peanut kernels were more contaminated by A. flavus, A. niger and A. terreus than 30 and 60 days stored peanuts at the farmer, collector and wholesaler’s stores. Overall, A. flavus and A. niger were isolated at higher occurrence than A. terreus and P. citrinum in all the collected samples. Aspergillus flavus was the highest (19.4%) in its frequency followed by A. niger (13.5%) at the collector’s stores, while these two species of fungi were the second highest in their frequencies at the farmer’s stores. A. terreus and P. citrinum were the least in their frequencies at each store. The result indicates a potential risk of fungal contamination under improper storage practices and there is an immediate attention to improve the postharvest handling and storage practice to prevent fungal contamination. Secondly, the DNA extraction protocol described in the study could provide a tool of DNA from the fungal species and could be used for the identification of other morphological forms of filamentous fungi. Based on morphological characteristics, 85 isolates were tentatively identified and compared with the references as A. flavus (38), A. niger (20), A. terreus (15), and P. citrinum (12). Molecular identification using internal transcribed spacer and β-tubulin sequences supported morphological identification which were molecularly identified as Aspergillus flavus, A. niger, A. terreus, and P. citrium. The BLAST data showed that the isolate G1 from the study was related to A. flavus strain AG14 beta-tubulin gene partial cds with a similarity of 100%, whereas the isolate B1 matched CBS 132413 A. niger, N3: rDNA sequences ITS with a 100% similarity. However, the isolate Y1 was more closely related to A. terreus isolate 3.1 18S ribosomal RNA gene, partial sequence; internal transcribed spacer 1, 5.8S ribosomal RNA gene, and internal transcribed spacer 2, complete sequence; and 28S ribosomal RNG gene, partial sequence with a 99% similarity. The isolate G2 was related to P. citrinum strain 139P beta-tubulin gene, partial sequence with a similarity 100%. Phylogenetic tree showed that the isolates from the same species were grouped in the same clade. v Further objective of this study was to determine the effect of chitosan which incorporated with thyme, lemongrass and cinnamon bark essential oils by coating on peanut kernels in order to prevent fungal growth and the chitosan films incorporated with different essential oils were developed and characterized in terms of morphology, physical, mechanical and antifungal properties. The control of postharvest pathogens, while maintaining the peanut kernel during storage has been implemented by the application of chitosan and essential oils coating peanut kernel. The study investigated the effect of chitosan with essential oils (cinnamon bark, lemongrass and thyme white, respectively). In vitro studies indicated that the essential oils and chitosan tested were active against Aspergillus flavus, A. niger, A. terreus, and Penicillium citrinum. The radial growth inhibition assay demonstrated that thyme white, lemongrass and cinnamon bark EOs showed that the antifungal activity against each fungus with MIC of 80, 80 and 40 μl/ml respectively. Excellent disease control was achieved with the chitosan coating with cinnamon bark essential oil while during storage indicated that the fungal growth was completely inhibited on all replicates was recorded.
Year2019
Corresponding Series Added EntryAsian Institute of Technology. Dissertation ; no. FB-19-04
TypeDissertation
SchoolSchool of Environment, Resources, and Development (SERD)
DepartmentDepartment of Food, Agriculture and Natural Resources (Former title: Department of Food Agriculture, and BioResources (DFAB))
Academic Program/FoSFood Engineering and Bioprocess Technology (FB)
Chairperson(s)Anal, Anil Kumar;
Examination Committee(s)Datta, Avishek ;Loc Thai Nguyen ;Panesar, Parmjit Singh ;
Scholarship Donor(s)Ministry of Foreign Affairs, Norway;
DegreeThesis (Ph.D.) - Asian Institute of Technology, 2019


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