Nutritional Contribution of Awaous sp Small Indigeneous Fish Powder Important for the First 1000 Days of Life

https://doi.org/10.33860/jik.v17i3.3034

Authors

  • Bahja Bahja Politeknik Kesehatan Kemenkes Palu, Palu, Central Sulawesi, Indonesia
  • Diah Ayu Hartini Politeknik Kesehatan Kemenkes Palu, Palu, Central Sulawesi, Indonesia
  • Ansar Politeknik Kesehatan Kemenkes Palu, Palu, Central Sulawesi, Indonesia

Keywords:

Awaous sp, Small Indigeneous Fish, Fish Protein Powder, Bio-Mineral

Abstract

Research facts prove that small-sized fish are essential nutrition during the first 1000 days of life. Central Sulawesi Province has an endemic small-sized marine fish species locally known as duo or penja fish (Awaous sp), which has not been studied for its bio-mineral content. This study aimed to analyze the moisture, ash, protein, calcium, iron, and zinc content in Awaous sp protein flour. This research was a descriptive laboratory study conducted at the Ilmu Bahan Makanan Laboratory Department of Nutrition Poltekkes Kemenkes Palu and PT. Saraswanti Indo Genetech Laboratory, Bogor, West Java, from January to September 2023. The sampling technique used purposive sampling, which involved purchasing fish from the local market in Palu city. Awaous sp protein flour had a moisture, ash, protein, Ca, Fe, and Zn content of 3.89%, 9.71%, 73.53%, 2316.88 mg/100g, 24.54 mg/100g, and 8.97 mg/100g, respectively. The contribution per serving of 145 grams of Awaous sp fish flour met the nutritional requirements (Recommended Dietary Allowances - RDA) for protein, Ca, Fe, and Zn per person per day for infants aged 6-11 months, children aged 1-3 years, pregnant women, and lactating women. Awaous sp protein flour had higher protein and Fe content compared to other small fish and had the potential to meet RDA requirements. Therefore, consuming Awaous sp protein flour as part of the daily diet can be a suitable strategy to address nutritional deficiencies during the first 1000 days of life for residents in Central Sulawesi.

References

Mahmud N, Al-Fuad S, Satya SI, Al Mamun A, Ahmed S, Karim A, Islam M, Ferdaus J, Islam S, Sakib N, Yeasmin J. Development and biochemical composition assessment of fish powders from Bangladeshi indigenous fish species and shelf-life characteristics evaluation during 90 Days of room temperature (27 C-30 C) storage. Food and Nutrition Sciences. 2019 Aug 16;10(08):963.

SNI 01-2715-1996/Rev.92. Tepung Ikan Bahan Baku Pakan. 1996.

Gowele VF, Kinabo J, Jumbe T, Rybak C, Stuetz W. High prevalence of stunting and anaemia is associated with multiple micronutrient deficiencies in school children of small-scale farmers from Chamwino and Kilosa districts, Tanzania. Nutrients. 2021 May 8;13(5):1576. https://doi.org/10.3390/nu13051576.

Byrd KA, Pincus L, Pasqualino MM, Muzofa F, Cole SM. Dried small fish provide nutrient densities important for the first 1000 days. Maternal & Child Nutrition. 2021 Oct;17(4):e13192. https://doi.org/10.1111/mcn.13192.

Reksten AM, Somasundaram T, Kjellevold M, Nordhagen A, Bøkevoll A, Pincus LM, Rizwan AA, Mamun A, Thilsted SH, Htut T, Aakre I. Nutrient composition of 19 fish species from Sri Lanka and potential contribution to food and nutrition security. Journal of Food Composition and Analysis. 2020 Aug 1;91:103508. https://doi.org/10.1016/j.jfca.2020.103508.

Mohanty BP, Sankar TV, Ganguly S, Mahanty A, Anandan R, Chakraborty K, Paul BN, Sarma D, Dayal JS, Mathew S, Asha KK. Micronutrient composition of 35 food fishes from India and their significance in human nutrition. Biological Trace Element Research. 2016 Dec;174:448-58.

Abbey L, Glover‐Amengor M, Atikpo MO, Atter A, Toppe J. Nutrient content of fish powder from low value fish and fish byproducts. Food Science & Nutrition. 2017 May;5(3):374-9.

Kasozi N, Asizua D, Iwe G, Namulawa VT. Nutrient composition of fish protein powder developed from Brycinus nurse (Rüppell, 1832). Food Science & Nutrition. 2018 Nov;6(8):2440-5.

La Frano MR, Cai Y, Burri BJ, Thilsted SH. Discovery and biological relevance of 3, 4-didehydroretinol (vitamin A2) in small indigenous fish species and its potential as a dietary source for addressing vitamin A deficiency. International journal of food sciences and nutrition. 2018 Apr 3;69(3):253-61. https://doi.org/10.1080/09637486.2017.1358358.

Shaviklo AR. Development of fish protein powder as an ingredient for food applications: a review. Journal of food science and technology. 2015 Feb;52(2):648-61.

Chen D, Mu X, Huang H, Nie R, Liu Z, Zeng M. Isolation of a calcium-binding peptide from tilapia scale protein hydrolysate and its calcium bioavailability in rats. Journal of Functional Foods. 2014 Jan 1;6:575-84. http://dx.doi.org/10.1016/j.jff.2013.12.001.

Sun X, Sarteshnizi RA, Boachie RT, Okagu OD, Abioye RO, Pfeilsticker Neves R, Ohanenye IC, Udenigwe CC. Peptide–mineral complexes: Understanding their chemical interactions, bioavailability, and potential application in mitigating micronutrient deficiency. Foods. 2020 Oct 2;9(10):1402.

Sharma V, Srivastava A, Vashistha VK. The Effect of Ultraviolet Light Exposure on Proximate Composition, Amino Acid, Fatty Acid, and Micronutrients of Cold Water Fish,“Barilius Vagra”. Oriental Journal Of Chemistry. 2019;35(3):1220. http://dx.doi.org/10.13005/ojc/350344.

Tavdidisvili DR, Pkhakadze MD, Lomsianidze TA. Technology development for producing calcium-containing foods. Annals of Agrarian Science. 2017 Sep 1;15(3):361-4.

Wu W, He L, Liang Y, Yue L, Peng W, Jin G, Ma M. Preparation process optimization of pig bone collagen peptide-calcium chelate using response surface methodology and its structural characterization and stability analysis. Food Chemistry. 2019 Jun 30;284:80-9.

Zhang K, Li J, Hou H, Zhang H, Li B. Purification and characterization of a novel calcium-biding decapeptide from Pacific cod (Gadus Macrocephalus) bone: Molecular properties and calcium chelating modes. Journal of Functional Foods. 2019 Jan 1;52:670-9.

Zhao L, Huang S, Cai X, Hong J, Wang S. A specific peptide with calcium chelating capacity isolated from whey protein hydrolysate. Journal of Functional Foods. 2014 Sep 1;10:46-53.

Lv Y, Liu H, Ren J, Li X, Guo S. The positive effect of soybean protein hydrolysates—calcium complexes on bone mass of rapidly growing rats. Food & function. 2013;4(8):1245-51.

Wang L, Chen S, Liu R, Wu H. A novel hydrolytic product from flesh of Mactra veneriformis and its bioactivities in calcium supplement. Journal of Ocean University of China. 2012 Sep;11:389-96.

Charoenphun N, Cheirsilp B, Sirinupong N, Youravong W. Calcium-binding peptides derived from tilapia (Oreochromis niloticus) protein hydrolysate. European Food Research and Technology. 2013 Jan;236:57-63.

Wu H, Liu Z, Zhao Y, Zeng M. Enzymatic preparation and characterization of iron-chelating peptides from anchovy (Engraulis japonicus) muscle protein. Food Research International. 2012 Oct 1;48(2):435-41.

Miao J, Lin H, Zhang S, Huo J, Deng S. Effect on amino acid and mineral content of the loach (Misgurnus anguillicaudatus) by adding Fe (II) chelating hairtail protein hydrolysates (Fe (II)‐HPH) to the feed. Food Science & Nutrition. 2020 Mar;8(3):1575-82.

Lin S, Hu X, Li L, Yang X, Chen S, Wu Y, Yang S. Preparation, purification and identification of iron-chelating peptides derived from tilapia (Oreochromis niloticus) skin collagen and characterization of the peptide-iron complexes. Lwt. 2021 Sep 1;149:111796. https://doi.org/10.1016/j.lwt.2021.111796.

Chen L, Shen X, Xia G. Effect of molecular weight of tilapia (oreochromis niloticus) skin collagen peptide fractions on zinc-chelating capacity and bioaccessibility of the zinc-peptide fractions complexes in vitro digestion. Applied Sciences. 2020 Mar 17;10(6):2041.

Huda N, Abdullah R, Santana P, Yang TA. Effects of Different Dryoprotectants on Functional Properties of. Journal of Fisheries and Aquatic Science. 2012;7(3):215-23.

Zhou Y, Yang H. Effects of calcium ion on gel properties and gelation of tilapia (Oreochromis niloticus) protein isolates processed with pH shift method. Food Chemistry. 2019 Mar 30;277:327-35. https://doi.org/10.1016/j.foodchem.2018.10.110.

Permenkes RI. Peraturan Menteri Kesehatan Republik Indonesia Nomor 28 Tahun 2019 tentang Angka Kecukupan Gizi yang Dianjurkan untuk Masyarakat Indonesia. Kementerian Kesehatan Republik Indonesia, 2019.

Hasselberg AE, Wessels L, Aakre I, Reich F, Atter A, Steiner-Asiedu M, Amponsah S, Pucher J, Kjellevold M. Composition of nutrients, heavy metals, polycyclic aromatic hydrocarbons and microbiological quality in processed small indigenous fish species from Ghana: Implications for food security. PLoS One. 2020 Nov 12;15(11):e0242086. https://doi.org/10.1371/journal.pone.0242086.

Akther S, Islam MB, Rahman H, Bhuiyan AS. Proximate composition and nutritional value of fish powder composition (FPC) from different dried SIS fishes in Bangladesh. Res. J. Food Sci. Nutr. 2018 Feb;3:9-14.https://doi.org/10.31248/RJFSN2017.030.

Jayadi YI, Rahman A. Analisis kandungan gizi makro pada ikan duo (penja) hitam dan putih sebagai pangan lokal Kota Palu. GHIDZA: Jurnal Gizi dan Kesehatan. 2018;2(1):31-8.

Larson, H. Awaous grammepomus (errata version published in 2020). The IUCN Red List of Threatened Species; 2019.

Published

2023-11-17

How to Cite

Bahja, B., Hartini, D. A. ., & Ansar. (2023). Nutritional Contribution of Awaous sp Small Indigeneous Fish Powder Important for the First 1000 Days of Life. Poltekita : Jurnal Ilmu Kesehatan, 17(3), 735–740. https://doi.org/10.33860/jik.v17i3.3034

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