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All Journal BIOTROPIA - The Southeast Asian Journal of Tropical Biology Jurnal Sumberdaya Hayati Jurnal Entomologi Indonesia
Okky Setyawati Dharmaputra
Institut Pertanian Bogor SEAMEO BIOTROP
Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Immunology & microbiology Veterinary

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POSTHARVEST QUALITY IMPROVEMENT OF SORGHUM (Sorghum bicolor (L.) Moench) GRAINS DHARMAPUTRA, OKKY SETYAWATI
BIOTROPIA Vol. 19 No. 2 (2012): BIOTROPIA Vol. 19 No. 2 December 2012
Publisher : SEAMEO BIOTROP

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (114.92 KB) | DOI: 10.11598/btb.2012.19.2.255

Abstract

The objectives of this study were (a) to investigate the effect of postharvest handling (threshing and storage) methods on the quality of sorghum (Sorghum bicolor (L) Moench) grains variety Numbu, in terms of the percentages of damaged grains and seed germination, population growth of S. zeamais, F. proliferatum and F. verticillioides; fumonisin B1 and carbohydrate contents, and the percentage of weight loss during storage. The change of moisture contents of sorghum grains was also recorded. Threshing was conducted using a stick of wood and a paddy thresher. Sorghum grains were packed in hermetic plastic bags. The conditions inside of the bags were  airtight and normal conditions. Each bag with different conditions inside of the bag was introduced with 10 pairs of Sitophilus zeamais (1-14 days old). Sorghum was stored for one, two and three months of storage under warehouse conditions. The results showed, that during storage the moisture contents of sorghum were  lower than that its standard safe moisture content (
FUNGAL INFECTION OF STORED ARABICA COFFEE (Coffea arabica) BEANS IN SOUTH SULAWESI PROVINCE, INDONESIA Dharmaputra, Okky Setyawati; Ambarwati, Santi; Retnowati, Ina; Nurfadila, Nijma
BIOTROPIA Vol. 26 No. 2 (2019): BIOTROPIA Vol. 26 No. 2 August 2019
Publisher : SEAMEO BIOTROP

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11598/btb.2019.26.2.900

Abstract

Indonesia is the world's fourth-largest coffee producer after Brazil, Vietnam, and Colombia, in which one of its well-known coffee originates from the Toraja region, South Sulawesi. As such, Indonesia has to compete with these countries in producing good quality coffee beans. Consequently, this research aimed (a) to obtain information on the postharvest handling methods of Arabica coffee (C. arabica) beans in Tana Toraja Regency, North Toraja Regency, and Makassar Municipality, Indonesia, and (b) to investigate the occurrence of fungi (including ochratoxin A producing fungi) in stored Arabica coffee beans collected from various stages of the delivery chain. The data collection process included surveys, interviews, and sample collections conducted in May and July 2016 at each level of the delivery chain. The moisture content (MC) and the physical quality of the beans were also measured to determine its quality. Sixty-four (64) coffee bean samples were collected, consisting of 27 samples from the farmers, 15 samples from the collectors, 13 samples from the traders, and 9 samples from the exporters. The results showed that the moisture contents of coffee beans collected from the farmers and bean collectors (42.5%) were significantly higher than the maximum tolerable limit determined by the Indonesian National Standard (SNI) (13%), while the MC of the beans from the traders and exporters (9.7–10.9%) was significantly lower. Based on the total defective values, coffee beans from the farmers had more diverse grades (1–6) than those at other levels. Penicillium citrinum was the dominant fungus found in those beans collected from the farmers, collectors, and traders, while Aspergillus niger was the dominant fungus found in those beans from the exporters. At trader level, 46% of the samples were infected by Aspergillus ochraceus and A. niger, which are known as ochratoxin A (OTA) producing fungi. At exporter level, 44% of the samples were infected by A. ochraceus, while 78% of the samples were infected by A. niger. Thus, the postharvest handling methods conducted especially by farmers and collectors of Arabica coffee beans should be improved to reduce the moisture content and to increase the grade quality of the coffee beans.
POSTHARVEST QUALITY IMPROVEMENT OF NUTMEG (Myristica fragrans) Dharmaputra, Okky Setyawati; Ambarwati, Santi; Retnowati, Ina; Nurfadila, Nijma
BIOTROPIA Vol. 29 No. 3 (2022): BIOTROPIA Vol. 29 No. 3 Desember 2022
Publisher : SEAMEO BIOTROP

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11598/btb.2022.29.3.1393

Abstract

Nutmeg (Myristica fragrans) or fragrant nutmeg is an important commodity that has been used in the food and pharmaceutical industries, hence its quality should be monitored. The objectives of this study were to: 1) identify Critical Control Points (CCP) in nutmeg’s postharvest handling process and prepare nutmeg HACCP (Hazard Analysis and Critical Control Point) System and 2) provide a recommendation on GHP (Good Handling Practices) of nutmeg in order to maintain its quality in relation to food safety issue which is very important for international trade. Ripe fruits of nutmeg were collected after the fruits had reached maturity and fallen from their trees. A paranet was placed under each nutmeg tree to prevent the ripe nutmeg fruits from falling on the ground. The subsequent processes were taking out the nutmeg seeds from the fruits and separating the nutmeg seeds from the pulps and maces. After that, the nutmeg seeds underwent the drying process by using the smoke- and oven-dried methods until the moisture content of the nutmeg seeds was reduced by 10%. Subsequently, the nutmeg seeds were divided into two parts, prior to the storing process. The first part was fumigated by using phosphine (2 g/m3) for eight days and the second part was not fumigated. The sampling of nutmeg seeds was conducted at the beginning of storage and after four months of storage. The parameters observed were moisture content, percentage of damaged kernels, the population of each fungal species, and aflatoxin content. The results showed that moisture content, fungal population, aflatoxin B1, and total aflatoxin contents of nutmeg kernels having been dried by using the smoke- and oven-dried methods with and without fumigation still complied with the requirements related to food safety, although the nutmegs were stored for four months. The results of this research could also determine the Critical Control Point (CCP) in the postharvest handling process of nutmegs, i.e., 1) choosing only ripe nutmeg fruits to be harvested; 2) harvesting method by preventing the ripe nutmeg fruits from falling on the ground; 3) drying process of nutmeg seeds should be conducted immediately after separating the nutmegs from the maces by using the smoke- or oven-dried methods; and 4) nutmeg seeds were stored with the shells.
Co-Authors Amanda Windyarani Ina Retnowati INA, INA RETNOWATI Lisdar Idwan Sudirman Miftahuddin Nijma Nurfadila, Nijma RANTJE LILLY WORANG Rizal Syarief Rosita, Iros Santi Ambarwati SANTI, SANTI AMBARWATI Sunjaya Sunjaya