TITLE:
Insect oil and protein: Biochemistry, food and other uses: Review
AUTHORS:
Abdalbasit Adam Mariod
KEYWORDS:
Agonoscelis pubescens; Aspongopus vidiuatus; Insects; Biochemistry; Food; Biodeisel; Melon Bug; Sorghum Bug
JOURNAL NAME:
Agricultural Sciences,
Vol.4 No.9B,
November
6,
2013
ABSTRACT:
In searching for new sources of oil, protein and gelatin researchers have investigated
many wild plants, but our research group took a different approach: We looked at
insects as oil, protein and gelatin source for both nutritional and industrial applications.
According to Sudanese indigenous knowledge, many insects have food and medicinal
uses. We targeted two of these insects for our research:Aspongopus vidiuatus(melon bug) and Agonoscelis pubescens(sorghum bug). The two insects showed 27.0% and 28.2%
crude protein, 45% and 60% oil, respectively. The oils contained 46.5% and 40.9%
oleic acid, 3.4% and 34.5% linoleic acid, 44.2% and 12.1% palmitic acid and traces
of linolenic acid,respectively. The tocopherol
content of theseoils amounted to 0.3 and 34.0 mg/100g oil, respectively.
The total content of sterols in the two oils was 17 and 450 mg/100g oil, respectively,
whereasβ-sitosterol was determined as the main compound in all oils with
about 60% of the totalsterol. The oxidative
stability of the oils, asmeasured by the Rancimat test at 120°C, was 38
and 5.1 h, respectively. Edible gelatin was extracted from the two insect using
hot water and mild acid and distilled water. SDS-PAGE patterns ofthe insect gelatins had very low molecularweight
chains, and the two gelatins contained 40 kDa asmain component, differential scanning calorimetry results confirmed the difference betweenextraction methods concerning the extracted gelatin quality. FTIR spectra of melon
and sorghum bug gelatins were similar and the absorption bands were situated in
more than 6 bands in melon bug gelatin and only 6 bands in sorghum bug gelatin.
Microstructures of the insect gelatinexamined
with the scanning electron microscope showed that melon bug exhibited the
finest gelatin network with very small voids. Melon bug
gelatin showed the finer
structure with smallerprotein strands and voids
than sorghum buggelatin. Ice cream was made by using 0.5% insect’sgelatine and compared with that made using 0.5%commercial gelatine as stabilizing agent. The properties of the obtained ice cream
produced using insects gelatine were found to be acceptable for the panelists, and
no significant differences between ice cream made using insect gelatine when compared
with that made using commercial gelatine in their general preferences The behavior
of the crude Sorghum bug oil during deep-frying of par-fried potatoes was studied
with regard to chemical, physical, and sensory parameters, such as the content ofFFA, tocopherols, polar compounds, oligomerTG, volatile compounds, oxidative stability, and totaloxidation (TOTOX) value. The results showed that the oil was suitable
for deep-frying of potatoes. The oxidative stability of sunflower kernel oil was
improved by blending with melon bug oil, the oxidative stability in the Rancimat
test was improved from 5% to 68% compared to the control, with increasing parts
of MBO, respectively. The insect oils were transesterified using methanol or ethanol
in the presence of sulfuricacid to obtain biodiesel.
The obtained insectbiodiesel characteristics
were studied in accordance with the DIN EN 14214 specifications for biodiesel.
It was possible to prepare the methyl and ethyl esters catalyzed by H2SO4 from the two insect oils.