This experiment was conducted to investigate the effect of dietary supplementation of the Black Soldier Fly(BSF) larvae on growth performance, carcass rate, and fatty acid profile of chicken meat in broiler chicks. Four hundred eighty 1-d-old broilers(Ross 308) were distributed into 3 treatments with 4 pens at 30 birds per replicate. Treatments were corn-soybean meal based broiler diet (control) and the basal diet replaced with BSF at the level of 3 and 6% respectively. Viability was not different significantly. Body weight gain was higher in control than other treatments. Feed intake was not statistically different of treatments. Feed conversion ratio was lower in ontrol than other treatments. Relative weight of breast meat was significantly increased in all treated groups than in control. But, another relative weights of chicken meat cuts (thigh, wing, neck, back) were not significantly different among the groups. In conclusion, it could be suggested that dietary supplementation of Black Soldier Fly larvae could beneficially improved the performance on broiler
This study was conducted to investigated the distribution and ecological character of Black Soldier Fly(BSF), Hermetia illucens, to determine effects of BSF on composing ability to waste-food. The distribution of BSF was defined in all parts of the country in Korea. Its main habitat was found to be areas near cattle sheds, manure sheds, living waste dump grounds, and food waste dump grounds.
Observed characteristics of BSF by developmental stage may be summarized as follows: eggs were a long oval shape of 886.9±19.7 ㎛ in major axis and 190.1±9.7 ㎛ in minor axis; they were 24.0±1.6 ㎍ in weight. One adult insect laid 1001±247 eggs in quantity; days to hatch from eggs (27℃, 60% R.H.) were 81.3±12.5 hours. Larvae which were hatched appeared to be close to white and turned into pale yellow as being last instar larva. Last instar larva ranged from 20.7±1.1 mm in size, the length of larval stage was approximately 15~20 days. Pupae exhibited red brown, 19.2±1.1 mm in size; pupal state lasted 15.5±1.4 days for female, 14.7±1.4 days for male, exhibiting the tendency of males having shorter period than females. Adult insects were sized about 13~20 mm and colored black.
The black soldier fly, Hermetia illucens (BSF), has a worldwide distribution in the tropics and warm temperate regions and is active in the Korea from May through October. This species colonize a wide variety of decomposing vegetable and animal matter and oviposit in a variety of decomposing materials. In this study, how the BSF molting, adult emergence and mating rate changed by seasonal condition at the artificial rearing system was investigated. The black soldier fly larvae and pupae were reared under laboratory condition (27℃, 60% R.H.). Under the laboratory condition, molting and adult emergence were not influenced by seasonal factors such as climate, radiation intensity. But it is known that the sunlight is the most important factor of the mating. In the previous study the time of day, temperature, and humidity is significantly correlated with oviposition and mating. The rearing of BSF throughout the year is restricted by sunlight. In this study, the data shows definitely different mating numbers throughout whole year. The time of the day and sunlight density are changed with season and it influence on artificial rearing. To culture the black soldier fly throughout the year in Korea needs a more deep study under the artificial rearing system.
Protease from various sources have been studied biotecnologically. For biotechnological applications, one highly preferred enzyme is protease. There have been no reports of cloned genes encoding digestive proteases in the Laccotrephes japonenis, Ranatra unicolor, Muljarus japonicus. These insects are considered to be a predator of aquatic insects. RT-PCR was used to amplify cDNA fragments for digestive proteases from total RNA the hole body of the insects. The flanking sequences of the 5'- and 3'- end of the these genes were characterized by RACE-PCR. Sequence analysis showed that these genes contained complete ORF. The deduced amino acid sequences of these protease showed 62% identity to the serine protease of Creontiades dilutus, 58% to Lygus loneolaris trypsin-like serine proteinase, 54% to Triatonatoma infestans salivary trypsin. To generate Laccotrephes japonensis serine protease, the DNA fragment coding for serine protease is cloning into suttle vector pBACⅠ, named pBAC1-JG and infected to Spodoptera frugiperda (sf9) insect cell. The cDNA encoding JG was expressed as a 32-kDa polypeptide in baculovirus infected insect cells and the recombinant protein showed activity in the protease enzyme assay using gelatin as a substrate.
A multiplex polymerase chain reaction (PCR) was developed for the simultaneous detection and differentiation among Nosema apis and Nosema ceranae in honeybee. Three sets of primers were selected from different genomic sequences to specifically amplify a 831 bp amplicon within the SSU rRNA gene, specific for both N. apis and N. ceranae (MSSR primer); a 375 bp amplicon within the SSU rRNA gene, specific for N. apis (NA primer); and a 1,131 bp amplicon with in SSU rRNA gene, specific for N. ceranae (NC primer). Using the primers in conjunction (multiplex PCR) we were able to N. apis and N. ceranae and to differentiate between them. The sensitivity of this PCR assay was approximately 102spores per milliliter. We proposed that the multiplex PCR was sensitive, specific and rapid tool that can serve as a useful differential diagnostic tool for detecting N. apis and N. ceranae in honeybee.
In order to establish artificial indoor rearing techniques for the black soldier fly (BSF), we developed indoor rearing instructions and collection manual for each developmental stage of the fly. The fly collection was conducted between June and October at 1 month interval. Calf feed and food waste were most effective to attract adults. Collection efficiency is higher from the trap installed in a shady spot than that in an open spot. It was highest to collect flies in August and September. As the egg-laying medium for the artificial egg collection, calf feed and food waste were most effective. The optimal number of the medium (W*D*H=60*40*15cm) was 8 for 2000 adults (male:Female=1:1) in the egg-laying net (W*D*H=4*2*2m). Flower foams and wooden blocks with holes were used as egg-laying sites. Adult females preferred the holes on average 3~5mm in diameter and 7~10mm in depth for oviposition. Larvae reared in low density (2~4 individuals/㎠) showed superior practical traits than those reared in an overcrowded environment (6~10 individuals/㎠). It is important to place the fly pupae in moist sawdusts (humidity: 20~40%), since a pupa tends to hide in a refuge. Adult insects should be employed for laying eggs for food waste processing immediately after emergence. When treated at 10℃ for 10 days after pupation, emergence rate of the insect was still 93.3%. By keeping pupae at the low temperature, emergence timing could be manipulated with about 10 day flexibility.
This study was conducted to investigated the distribution, ecological character and life cycle of Black Soldier Fly(BSF), Hermetia illucens. The distribution of BSF was defined in all parts of the country in Korea. Its main habitat was found to be areas near cattle sheds, manure sheds, living waste dump grounds, and food waste dump grounds. Observed characteristics of BSF by developmental stage may be summarized as follows: eggs were a long oval shape of 886.9±19.7 ㎛ in major axis and 190.1±9.7 ㎛ in minor axis; they were 24.0±1.6 ㎍ in weight. One adult insect laid 1001±247 eggs in quantity; days to hatch from eggs (27℃, 60% R.H.) were 81.3±12.5 days. Last instar larva ranged from 20.7±1.1 mm in size, the length of larval stage was approximately 15~20 days. Pupae exhibited red brown, 19.2±1.1 mm in size; pupal state lasted 15.5±1.4 days for female, 14.7±1.4 days for male, exhibiting the tendency of males having shorter period than females. Adult insects were sized about 13~20 mm and colored black. Mating started 2 days after emergence and was most active during the 3rd day. Mating mostly occurred between 10:00 and 16:00 during which light intensity is high. Laying eggs started 3 days after emergence and was most frequent during days 4~6. Time of laying eggs during the day was similar to copulation time, showing the highest laying rate between 10:00 and 16:00.