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Sains Malaysiana 51(2)(2022): 547-558
http://doi.org/10.17576/jsm-2022-5102-18
Physicochemical Characteristics and
Microbiological Quality of Silkworm (Bombyx
mori) Larval and Pupae Powder: Comparative Study
(Pencirian Fizikokimia dan Kualiti Mikrobiologi Larva dan Pupa Ulat Sutera (Bombyx mori): Kajian Perbandingan)
LOO YUET YING1, LIM HUI
YING1, NOOR-SOFFALINA SOFIAN-SENG1, 2, WAN AIDA WAN
MUSTAPHA1, 2 & NOORUL SYUHADA MOHD RAZALI1, 2*
1Department of Food Sciences, Faculty of Science and
Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
2Innovation Centre for Confectionery (MANIS), Faculty of
Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi,
Selangor Darul Ehsan, Malaysia
Received: 26 March 2021/Accepted: 29
June 2021
ABSTRACT
Silkworm (Bombyx mori) has been reported to exhibit diverse health benefits. A comparative
study was conducted to evaluate the physicochemical (colour,
water activity, pH, water solubility, proximate, mineral, amino acid, and
fatty acid composition) and microbiological qualities of Bombyx mori silkworm powder produced from two
developmental stages (larvae and pupae). Silkworm pupae powder (SPP) had
significantly higher (p<0.05) lightness (L*) and yellowness (b*) values than
silkworm larval powder (SLP). SPP had significantly higher (p<0.05) water
activity and solubility than SLP. The pH values of both silkworm powders were
not statistically different. SLP had significantly higher (p<0.05) protein
and moisture but significantly lower (p<0.05) fat, ash, fibre,
and total calorie content as compared to SPP. The total amino acid content of
SPP was significantly higher (p<0.05) than SLP. SLP had significantly higher
(p<0.05) protein efficiency ratio than SPP, indicating that SLP contained
higher amount of essential amino acid. Both silkworm powder contained 20 types
of fatty acids with SPP exhibited significantly higher (p<0.05) polyunsaturated
fatty acid composition than SLP. Both silkworm powders had a low n-6/n-3 ratio,
which may be beneficial to human health. Both SLP and SPP could be a good
source of iron and rich in magnesium and zinc. SPP had a significantly lower
(p<0.05) yeast and mould count as compared to SLP.
The finding of this study suggested that silkworm powder produced from two
different developmental stages may provide beneficial health effects in humans
derived from the protein, minerals, fatty acids, and amino acids content.
Keywords: Amino acid; fatty acid;
mineral; proximate composition
ABSTRAK
Ulat sutera(Bombyx
mori) telah menunjukkan banyak kebaikan kepada kesihatan manusia. Kajian perbandingan telah dijalankan untuk menilai kualiti fizikokimia (warna, aktiviti air, pH, keterlarutan dalam air, komposisi proksimat, mineral, asid amino
dan asid lemak) dan mikrobiologi serbuk ulat suteraBombyx mori yang diperbuat daripada dua peringkat perkembangan yang berbeza (larva dan pupa). Serbuk ulat sutera pupa (SPP) mempunyai nilai kecerahan (L*) dan kekuningan (b*) yang tinggi secara signifikan (p<0.05) berbanding serbuk ulat sutera larva (SLP). SPP mempunyai aktiviti air dan keterlarutan dalam air lebih tinggi secara signifikan (p<0.05) berbanding SLP. Nilai pH untuk kedua-dua serbuk ulat sutera tidak berbeza secara signifikan. SLP mempunyai kandungan protein dan
air yang tinggi secara signifikan (p<0.05) tetapi kandungan lemak, abu, serat dan jumlah kalori yang lebih rendah secara signifikan (p<0.05) berbanding SPP. Jumlah asid amino SPP adalah lebih tinggi secara signifikan (p<0.05) berbanding SLP. SLP mempunyai nilai nisbah kecekapan protein yang lebih tinggi secara signifikan (p<0.05) berbanding SPP dan menunjukkan SLP mempunyai kandungan asid amino perlu yang lebih tinggi. SLP dan SPP mempunyai 20 jenis asid lemak. SPP mempunyai kandungan asid lemak politaktepu yang lebih tinggi secara signifikan (p<0.05) berbanding SLP. Kedua-dua serbuk ulat sutera mempunyai nilai nisbah n-6/n-3 yang rendah yang berpotensi untuk memberi manfaat kepada kesihatan pengguna. SLP dan SPP juga boleh menjadi sumber zat besi dan kaya dengan magnesium dan zink. SPP mempunyai kiraan yis dan kulat yang lebih rendah secara signifikan (p<0.05) berbanding SLP. Penemuan ini menunjukkan serbuk ulat sutera daripada dua peringkat perkembangan yang berbeza boleh memberi manfaat kepada manusia kerana mengandungi protein, mineral, asid amino dan asid lemak.
Kata kunci: Asid amino; asid lemak; komposisi proksimat; mineral
REFERENCES
Adámková, A., Mlček, J., Kouřimská, L., Borkovcová,
M., Bušina, T., Adámek, M., Bednářová, M. & Krajsa,
J. 2017. Nutritional potential of selected insect species reared on the island
of Sumatra. International Journal of
Environmental Research and Public Health 14(5): 521.
Ademola,
O.A., Omolara, A.H. & Abioye,
O.R. 2017. Amino acids profile of bee brood, soldier termite, snout beetle
larva, silkworm larva, and pupa: Nutritional implications. Advances in Analytical Chemistry 7: 31-38.
Ahmad
Jelani, N., Azlan, A., Khoo, H. & Razman, M. 2019. Fatty acid profile and antioxidant
properties of oils extracted from dabai pulp using
supercritical carbon dioxide extraction. International
Food Research Journal 26(5): 1587-1598.
Akande,
A.O., Jolayemi, O.S., Adelugba,
V.A. & Akande, S.T. 2020a. Silkworm pupae (Bombyx mori) and locusts as alternative protein sources for
high-energy biscuits. Journal of
Asia-Pacific Entomology 23(1): 234-241.
Akande,
O.A., Falade, O.O., Badejo,
A.A. & Adekoya, I. 2020b. Assessment of mulberry silkworm pupae and African
palm weevil larvae as alternative protein sources in snack fillings. Heliyon Journal 6(4): e03754.
Anootthato, S., Therdthai, N. & Ritthiruangdej, P. 2019. Characterization of protein
hydrolysate from silkworm pupae (Bombyx
mori). Journal of Food Processing and
Preservation 43(8): e14021.
Anuduang, A., Loo, Y.Y., Jomduang, S., Lim, S.J.
& Wan Mustapha, W.A. 2020. Effect of thermal processing on physico-chemical and antioxidant properties in mulberry
silkworm (Bombyx mori L.) powder. Foods 9(7): 1-11.
AOAC.
1990. Official Methods of Analysis of AOAC International. Association of
Official Analytical Chemists (AOAC).
Beuchat, L.R., Komitopoulou, E., Beckers, H., Betts, R.P., Bourdichon,
F., Fanning, S., Joosten, H.M. & Ter Kuile, B.H.
2013. Low-water
activity foods: Increased concern as vehicles
of foodborne pathogens. Journal of Food
Protection 76(1): 150-172.
Braide,
W., Oranusi, S., Udegbunam,
L., Oguoma, O., Akobondu,
C. & Nwaoguikpe, R. 2011. Microbiological quality
of an edible caterpillar of an emperor moth, Bunaea alcinoe. Journal of Ecology and the Natural Environment 3(5): 176-180.
Chang,
L.S., Karim, R., Abdulkarim, S.M. & Ghazali, H.M.
2018. Production and characterization of enzyme‐treated spray‐dried
soursop (Annona muricata L.) powder. Journal of Food Process
Engineering 41(5): e12688.
Chieco, C., Morrone, L., Bertazza,
G., Cappellozza, S., Saviane,
A., Gai, F., Di Virgilio, N. & Rossi, F. 2019. The effect of strain and
rearing medium on the chemical composition, fatty acid profile and carotenoid
content in Silkworm (Bombyx mori)
pupae. Animals 9(3): 103.
Chitrakar, B., Zhang, M. & Adhikari, B. 2019. Dehydrated foods: Are they
microbiologically safe? Critical Reviews
in Food Science and Nutrition 59(17): 2734-2745.
Devi,
A. & Khatkar, B.S. 2016. Physicochemical,
rheological and functional properties of fats and oils in relation to cookie
quality: A review. Journal of Food Science and Technology 53(10): 3633-3641.
Dewi, E.N., Amalia, U. & Mel, M. 2016. The effect of different
treatments to the amino acid contents of micro algae Spirulina sp. Aquatic
Procedia 7: 59-65.
Ekpo, K., Onigbinde, A. & Asia, I. 2009.
Pharmaceutical potentials of the oils of some popular insects consumed in
southern Nigeria. African Journal of
Pharmacy and Pharmacology 3(2): 051-057.
FAO
& WHO. 2007. Codex Alimentarius, Food Labelling: Fifth edition. Food and
Agriculture Organization (FAO) and World Health Organization (WHO).
Gurjar, T.S., Siddhapara, M.R. & Surani, P.M. 2018. Biology of mulberry silkworm, Bombyx mori L. on mulberry, Morus alba L. Journal of Entomology 6(4): 276-280.
HMSO.
1994. Nutritional Aspects of Cardiovascular Disease. Her Majesty's Stationery Office (HMSO).
Hu,
M.B., Wang, J.L., Liu, Y.J., Yuan, X., Li, J.H., Wu, C.J. & Li, L. 2018.
Structure characterization and antioxidant properties of proteins extracted
from the larva of Bombyx mori L. Tropical Journal of Pharmaceutical Research 17(11): 2177-2182.
Ji,
S.D., Kim, N.S., Kweon, H., Choi, B.H., Kim, K.Y.
& Koh, Y.H. 2016a. Nutrition composition differences among steamed and
freeze-dried mature silkworm larval powders made from 3 Bombyx mori varieties weaving different colored cocoons. International Journal of Industrial
Entomology 33(1): 6-14.
Ji,
S.D., Kim, N.S., Kweon, H., Choi, B.H., Yoon, S.M.,
Kim, K.Y. & Koh, Y.H. 2016b. Nutrient compositions of Bombyx mori mature silkworm larval powders suggest their possible
health improvement effects in humans. Journal
of Asia-Pacific Entomology 19(4): 1027-1033.
Jintasataporn, O. 2012. Production performance of broiler chickens fed with
silkworm pupa (Bombyx mori). Journal of Agricultural Science and
Technology B 2: 505-510.
Kenneth,
Y. 2013. Revised Guidelines for the Assessment
of Microbiological Quality of Processed Foods. Department of Health Food and Drugs Administration, Republic of
Philippines.
Kim,
H.W., Setyabrata, D., Lee, Y.J., Jones, O.G. &
Kim, Y.H.B. 2016. Pre-treated mealworm larvae and silkworm pupae as a novel
protein ingredient in emulsion sausages. Innovative
Food Science & Emerging Technologies 38: 116-123.
Kim,
J.E., Lee, M.R., Choi, J.Y., Park, J.J., Kim, H.R., Song, B.R., Choi, Y.W.,
Kim, K.M. & Hwang, D.Y. 2018. Anti-obesity effect of ethanol extracts from
silkworm (Bombyx mori) pupae powder
fermented with Cordyceps militaris in the primary adipocytes and high fat
diet-induced obesity model mice. Journal
of Life Science 28(7): 786-794.
Köhler,
R., Kariuki, L., Lambert, C. & Biesalski, H.
2019. Protein, amino acid and mineral composition of some edible insects from
Thailand. Journal of Asia-Pacific
Entomology 22(1): 372-378.
Kweon, H., Jo, Y.Y., Kim, H., Ju, W.T. & Lee, J.H. 2019. Proximate
and nutritional compositions of freeze-dried silkworm powder as edible insect
resources. Journal of Sericultural and Entomological Science 55(2): 33-39.
Lança de Morais, I., Lunet,
N., Albuquerque, G., Gelormini, M., Casal, S., Damasceno, A., Pinho, O., Moreira, P., Jewell, J. & Breda, J. 2018.
The sodium and potassium content of the most commonly available street foods in
Tajikistan and Kyrgyzstan in the context of the FEEDCities Project. Nutrients 10(1): 98.
Lenzi, A., Orlandini, A., Bulgari, R.,
Ferrante, A. & Bruschi, P. 2019. Antioxidant and
mineral composition of three wild leafy species: A comparison between microgreens
and baby greens. Foods 8(10): 487.
Mariotti, F. 2017. Vegetarian and Plant-Based Diets in Health and Disease Prevention. Massachusetts:
Academic Press. pp. 621-642.
Maturin,
L. & Peeler, J. 2001. BAM Aerobic Plate Count. Food and Drug Administration (FDA).
Muanghorn, W., Konsue, N., Sham, H., Othman, Z.,
Mohamed, F., Noor, N.M., Othman, N., Akmal, N.S.S.M.N., Fauzi,
N.A. & Solomen, M.M.P.D. 2018. Effects of gamma
irradiation on tropomyosin allergen, proximate composition and mineral elements
in giant freshwater prawn (Macrobrachium rosenbergii). Journal
of Food Science and Technology 55(5): 1960-1965.
Ng,
S.R., Noor, H.S.M., Ramachandran, R., Tan, H.Y., Ch, S.E., Chang, L.S., Babji, A.S. & Lim, S.J. 2020. Recovery of glycopeptides by enzymatic hydrolysis of edible bird’s
nest: The
physicochemical characteristics and protein profile. Journal of Food Measurement and Characterization 14(5): 2635-2645.
Nguyen,
P., Kim, K.Y., Kim, A.Y., Kim, N.S., Kweon, H., Ji,
S.D. & Koh, Y.H. 2016. Increased healthspan and
resistance to Parkinson's disease in Drosophila by boiled and freeze-dried
mature silkworm larval powder. Journal of
Asia-Pacific Entomology 19(2): 551-561.
NutritionValue.Org. 2020.
Nutritional value of product (USDA national nutrient database for standard
reference). https://www.nutritionvalue.org/.
Omotoso, O.T. 2015. An evaluation of the nutrients and some anti-nutrients
in silkworm, Bombyx mori L. (Bombycidae: Lepidoptera). Jordan Journal of Biological Sciences 8(1): 45-50.
Rodríguez-Ortega,
A., Pino-Moreno, J.M., Ángeles-Campos, S.C.,
García-Pérez, Á., Barrón-Yánez, R.M. & Callejas-Hernández, J. 2016. Nutritional value of larvae
and pupae of silkworm (Bombyx mori) (Lepidoptera: Bombycidae). Revista Colombiana de Entomología 42(1): 69-74.
Rumpold, B.A. & Schlüter, O.K. 2013. Potential and challenges of
insects as an innovative source for food and feed production. Innovative Food Science & Emerging
Technologies 17: 1-11.
Ryu,
K.S., Lee, H.S., Kim, K.Y., Kim, M.J., Sung, G.B., Ji, S.D. & Kang, P.D.
2013. 1-Deoxynojirimycin content and blood glucose-lowering effect of silkworm
(Bombyx mori) extract powder. International Journal of Industrial
Entomology 27(2): 237-242.
Sheikh,
I., Banday, M., Baba, I., Adil, S., Nissa, S.S., Zaffer, B. &
Bulbul, K. 2018. Utilization of silkworm pupae meal as an alternative source of
protein in the diet of livestock and poultry: A review. Journal of Entomology and Zoology Studies 6(4): 1010-1016.
Tamanna,
N. & Mahmood, N. 2015. Food processing and Maillard reaction products: Effect on
human health and nutrition. International
Journal of Food Science 2015: 526762.
Tchabo, W., Ma, Y., Kaptso, G.K., Kwaw, E., Cheno, R.W., Wu, M., Osae, R., Ma, S. & Farooq, M. 2018. Carrier effects on
the chemical and physical properties of freeze-dried encapsulated mulberry leaf
extract powder. Acta Chimica Slovenica 65(4): 823-835.
Trattner, S., Becker, W., Wretling, S., Öhrvik, V. & Mattisson, I.
2015. Fatty acid composition of Swedish bakery products, with emphasis on
trans-fatty acids. Food Chemistry 175:
423-430.
Trina,
A., Kusharto Clara, M.K. & Muntikah,
A.E.T. 2014. Pury, a fine powder made from silkworm
pupae: Utilization
and it’s effects on
nutritive value and organoleptic quality of traditional snack foods. Journal of Food and Nutrition Research 2(9): 582-586.
Yang,
Y., Tang, L., Tong, L. & Liu, H. 2009. Silkworms culture as a source of
protein for humans in space. Advances in
Space Research 43(8): 1236-1242.
Yu,
Y., Li, H., Zhang, B., Wang, J., Shi, X., Huang, J., Yang, J., Zhang, Y. &
Deng, Z. 2018. Nutritional and functional components of mulberry leaves from
different varieties: Evaluation of their potential as food materials. International Journal of Food Properties 21(1): 1495-1507.
Zhao,
F., Zhuang, P., Song, C., Shi, Z.H. & Zhang, L.Z. 2010. Amino acid and
fatty acid compositions and nutritional quality of muscle in the pomfret, Pampus punctatissimus. Food Chemistry 118(2): 224-227.
*Corresponding author; email: syuhada_ns@ukm.edu.my
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