COMPARATIVE CHARACTERISTICS OF PHYSICOCHEMICAL PARAMETERS OF MEAT AND BIOCHEMICAL COMPOSITION OF HEMOLYMPH IN THREE SPECIES OF CRAYFISHES
DOI: http://dx.doi.org/10.30970/sbi.2002.887
Abstract
Background. Crayfish farming is a promising direction in the development of aquaculture. Compared with marine crustacean species, freshwater crayfish require lower cultivation costs, while their meat is regarded as an additive dietary delicacy with a high nutritional value. The aim of this study was to compare the morphological and physiological data (slaughter yield, taste quality, physicochemical composition of meat, and some biochemical indexes of hemolymph) of three species of adult crayfishes, i.e. Australian red claw crayfish (Cherax quadricarinatus), narrow-clawed crayfish (Astacus leptodactylus), and marbled crayfish (Procambarus fallax forma virginalis), which were cultivated in a recirculating aquaculture system.
Materials and Methods. Organoleptic and physicochemical methods were used to assess meat quality, while biochemical methods were applied to determine hemolymph parameters in the abovementioned crayfish species.
Results. The results showed that the edible portion relative to live weight was 15.16 ± 0.20 % in the Australian redclaw crayfish, 12.16 ± 0,21 % in the Marbled crayfish, and 9.40 ± 0,19 % in the Narrow-clawed crayfish. The highest protein content in meat was observed in marbled crayfish (17.4 ± 0.84 %). The highest fat content was registered in Australian redclaw crayfish (0.95 ± 0.024 %); for the marble crayfish, this value was 0.9 ± 0.03 %, and for the narrow-clawed crayfish, it was 0.9 ± 0.35 %. No differences were found in carbohydrate content among the studied species; the value of this parameter was approximately 1.2 ± 0.02 % in all the crayfish species. The meat of Australian redclaw crayfish exhibited the highest energy value (76.1 ± 3.12 kcal/100 g), exceeding that of the other species by 1.3 – 2.2 kcal/100 g, marbled crayfish – 74.8 ± 3.69 kcal/100 g, and narrow-clawed crayfish ‒ 73.9 ± 3.52 kcal/100 g, respectively. In terms of hemolymph protein content, Australian redclaw crayfish showed the highest level (77.1 ± 2.87 g/L), for the narrow-clawed crayfish, this value was (64.9 ± 2.90 g/L), and for the marbled crayfish, it was (57.2 ± 2.41 g/L).
The highest calcium concentration in hemolymph was observed in narrow-clawed crayfish (9.52 ± 0.212 mmol/L), while comparable levels were recorded in Australian redclaw (7.99 ± 0.215 mmol/L) and marbled crayfish (7.42 ± 0.292 mmol/L). Differences in all studied indicators were considered statistically significant at p ≤ 0.05.
Conclusions. The study results obtained for Australian red claw crayfish, narrow-clawed crayfish and marbled crayfish allow us to evaluate their productivity and meat nutritional validity, as well as to propose the reference ranges of key indexes which can be used in optimizing aquaculture technologies and production of high-quality delicacies or supporting food products.
Keywords
Full Text:
PDFReferences
| Anbuchezhian, R. M., Ravichandran, S., Rameshkumar, G., & Ajithkumar, T. T. (2009). Influence of crab haemolymph on clinical pathogens. Advances in Biological Research, 3(3-4), 104-109. Google Scholar | ||||
| ||||
| Azhar, M. H., Suciyono, S., Budi, D. S., Ulkhaq, M. F., Anugrahwati, M., & Ekasari, J. (2020). Biofloc-based co-culture systems of Nile tilapia (Oreochromis niloticus) and redclaw crayfish (Cherax quadricarinatus) with different carbon-nitrogen ratios. Aquaculture International, 28(3), 1293-1304. doi:10.1007/s10499-020-00526-z Crossref ● Google Scholar | ||||
| ||||
| Ben Yahkoub, Y., Fekhaoui, M., El Qoraychy, I., & Yahyaoui, A. (2019). Current state of knowledge on Louisiana crawfish (Procambarus clarkii Girard, 1852) in Morocco. Aquaculture, Aquarium, Conservation & Legislation, 12(2), 618-628. https://bioflux.com.ro/docs/2019.618-628.pdf Google Scholar | ||||
| ||||
| Crandall, K. A., & Buhay, J. E. (2007). Global diversity of crayfish (Astacidae, Cambaridae, and Parastacidae - Decapoda) in freshwater. In E. V. Balian, C. Lévêque, H. Segers, & K. Martens (Eds.), Freshwater animal diversity assessment (Developments in Hydrobiology, Vol. 198, pp. 295-301). Springer. doi:10.1007/978-1-4020-8259-7_32 Crossref ● Google Scholar | ||||
| ||||
| Dammannagoda, L. K., Pavasovic, A., Hurwood, D. A., & Mather, P. B. (2013). Effects of soluble dietary cellulose on specific growth rate, survival and digestive enzyme activities in three freshwater crayfish (Cherax) species. Aquaculture Research, 46(3), 626-636. doi:10.1111/ are.12209 Crossref ● Google Scholar | ||||
| ||||
| El-Sherif, S. A. & Abd El-Ghafour, S. (2016). Investigation of the quality properties and nutritional values of four fish species from Lake Qaroun, Egypt. International Journal of ChemTech Research, 9(4), 16-26. Google Scholar | ||||
| ||||
| Fedorovych, E. I., Muzhenko, A. V., Slusar, N. V., & Kovalchuk, I. I. (2022). Characteristics of the moulting process of different crayfish species. Taurian Scientific Herald, (126), 230-237. doi:10.32851/2226-0099.2022.126.32 (In Ukrainian) Crossref ● Google Scholar | ||||
| ||||
| Food and Agriculture Organization of the United Nations (FAO). (2024). World food and agriculture - Statistical yearbook 2024. doi.org/10.4060/cd2971en Crossref ● Google Scholar | ||||
| ||||
| Harlioğlu, M. M., Köprücü, K., Harlioğlu, A. G., Yilmaz, Ö., Aydin, S., Mişe Yonar, S., Çakmak Duran, T., & Özcan, S. (2012). The effects of dietary n-3 series fatty acid on the fatty acid composition, cholesterol and fat-soluble vitamins of pleopodal eggs and stage 1 juveniles in a freshwater crayfish, Astacus leptodactylus (Eschscholtz). Aquaculture, 356-357, 310-316. doi:10.1016/j.aquaculture.2012.05.001 Crossref ● Google Scholar | ||||
| ||||
| Holthuis, L. B. (1986). The freshwater crayfish of New Guinea. Freshwater Crayfish, 6(1), 48-56. Google Scholar | ||||
| ||||
| Hrynevych, N. E., Zharchynska, V. S., Svitelskyi, M. M., Khomiak, O. A., & Sliusarenko, A. O. (2022). Promising object of aquaculture of crustaceans Cherax quadricarinatus (von Martens, 1868): biology, technology (review). Water Bioresources and Aquaculture, 1, 47-62. doi:10.32851/wba.2022.1.4 (In Ukrainian) Crossref ● Google Scholar | ||||
| ||||
| Huner, V., & Romaire, R. (1990). Crawfish culture in the Southeastern USA. World Aquaculture, 21(4), 58-65. Google Scholar | ||||
| ||||
| Iwar, M., & Amu, C. M. (2021). Nutrient and anti-nutrient composition of processed crayfish (Atya gabonensis) from river Benue, Nigeria. Sustainability, Agri, Food and Environmental Research, 9(1), 205-215. doi:10.7770/safer-v9n2-art2257 Crossref ● Google Scholar | ||||
| ||||
| Jackson, C., & van Staaden, M. (2019). Characterization of locomotor response to psychostimulants in the parthenogenetic marbled crayfish (Procambarus fallax forma virginalis): a promising model for studying the neural and molecular mechanisms of drug addiction. Behavioural Brain Research, 361, 131-138. doi:10.1016/j.bbr.2018.12.024 Crossref ● PubMed ● Google Scholar | ||||
| ||||
| Kaldre, K., Meženin, A., Paaver, T., & Kawai, T. (2015). A preliminary study on the tolerance of marble crayfish Procambarus fallax f. virginalis to low temperature in nordic climate. In T. Kawai, Z. Faulkes, & G. Scholtz (Eds.), Freshwater crayfish. A global overview (pp. 54-62). CRC Press. doi:10.1201/b18723-6 Crossref ● Google Scholar | ||||
| ||||
| Lawrence, C., & Jones, C. (2002). Cherax. In D. M. Holdich (Ed.), Biology of freshwater crayfish (pp. 635-669). Blackwell Science. Google Scholar | ||||
| ||||
| Lazarević, J., Čabarkapa, I., Rakita, S., Banjac, M., Tomičić, Z., Škrobot, D., Radivojević, G., Kalenjuk Pivarski, B., & Tešanović, D. (2022). Invasive crayfish Faxonius limosus: meat safety, nutritional quality and sensory profile. International Journal of Environmental Research and Public Health, 19(24), 16819. doi:10.3390/ijerph192416819 Crossref ● PubMed ● PMC ● Google Scholar | ||||
| ||||
| Lu, X., Peng, D., Chen, X., Wu, F., Jiang, M., Tian, J., Liu, W., Yu, L., Wen, H., & Wei, K. (2020). Effects of dietary protein levels on growth, muscle composition, digestive enzymes activities, hemolymph biochemical indices and ovary development of pre-adult red swamp crayfish (Procambarus clarkii). Aquaculture Reports, 18, 100542. doi:10.1016/j.aqrep.2020.100542 Crossref ● Google Scholar | ||||
| ||||
| Rida, R., Zein-Eddine, R., Kreydiyyeh, S., Garza de Yta, A., & Saoud, I. P. (2020). Influence of salinity on survival, growth, hemolymph osmolality, gill sodium potassium ATPase activity, and sodium potassium chloride co-transporter expression in the redclaw crayfish Cherax quadricarinatus. Journal of the World Aquaculture Society, 52(2), 466-474. doi:10.1111/ jwas.12762 Crossref ● Google Scholar | ||||
| ||||
| Romano, N., & Sinha, A. K. (2020). Husbandry of aquatic animals in closed aquaculture systems. In F. S. B. Kibenge & M. D. Powell (Eds.), Aquaculture health management: design and operation approaches (pp. 17-73). Academic Press. doi:10.1016/b978-0-12-813359-0.00002-6 Crossref ● Google Scholar | ||||
| ||||
| Schainost, S. C. (2016). The crayfish of Nebraska. Nebraska Game and Parks Commission. https://digitalcommons.unl.edu/nebgamewhitepap/69 Google Scholar | ||||
| ||||
| Sepici-Dinçel, A., Alparslan, Z. N., Benli, A. Ç. K., Selvi, M., Sarıkaya, R., Özkul, İ. A., & Erkoç, F. (2013). Hemolymph biochemical parameters reference intervals and total hemocyte counts of narrow clawed crayfish Astacus leptodactylus (Eschscholtz, 1823). Ecological Indicators, 24, 305-309. doi:10.1016/j.ecolind.2012.07.002 Crossref ● Google Scholar | ||||
| ||||
| Sharylo, Yu. Ye., Vdovenko, N. M., Gherasymchuk, V. V., Poplavska, O. S., Fedorenko, M. O., Makhyboroda, K. V., Neboha, H. I., Dmytryshyn, R. A., Misar, M. O., Mykhalchychyna, L. H., Sinenok, I. O., Dombrovska, T. O., Yefimenko, O. A., & Shepeliev, S. S. (2020). Zbirnyk tekhnolohii vyrobnytstva riznykh vydiv ryb z vykorystanniam instrumentiv vplyvu na popyt ta propozytsiiu ryby, inshykh vodnykh zhyvykh resursiv dlia zabezpechennia konkurentnykh perevah rybnoho hospodarstva [Collection of technologies for the production of various fish species using tools to influence the demand and supply of fish and other aquatic living resources to ensure competitive advantages in the fisheries sector]. NUBiP. https://dglib. nubip.edu.ua/items/4d2d3583-8db1-4d22-8f93-dde67ed20a90 (In Ukrainian) Google Scholar | ||||
| ||||
| Slusar, M., Muzhenko, A., Kovalchuk, I., Borshchenko, V., & Verbelchuk, T. (2023). Study of the embryonic period of female crayfish egg development in different species. Scientific Horizons, 26(12), 22-31. doi:10.48077/scihor12.2023.22 Crossref ● Google Scholar | ||||
| ||||
| Śmietana, N., Panicz, R., Sobczak, M., Śmietana, P., & Nędzarek, A. (2020). Spiny-cheek crayfish, Faxonius limosus (Rafinesque, 1817), as an alternative food source. Animals, 11(1), 59. doi:10.3390/ani11010059 Crossref ● PubMed ● PMC ● Google Scholar | ||||
| ||||
| Soares, M. C., Banha, F., Cardoso, S., Gama, M., Xavier, R., Ribeiro, L., & Anastácio, P. (2022). Haemolymph glycaemia as an environmental stress biomarker in the invasive red swamp crayfish (Procambarus clarkii). Physiological and Biochemical Zoology, 95(3), 265-277. doi:10.1086/719857 Crossref ● PubMed ● Google Scholar | ||||
| ||||
| Stanek, M., Borejszo, Z., Dąbrowski, J., & Janicki, B. (2011). Fat and cholesterol content and fatty acid profiles in edible tissues of spiny-cheek crayfish, Orconectes limosus (Raf.) from Lake Gopło (Poland). Archives of Polish Fisheries, 19(4), 241-248. doi:10.2478/v10086-011- 0030-7 Crossref ● Google Scholar | ||||
| ||||
| Vogt, G., Dorn, N. J., Pfeiffer, M., Lukhaup, C., Williams, B. W., Schulz, R., & Schrimpf, A. (2019). The dimension of biological change caused by autotriploidy: a meta-analysis with triploid crayfish Procambarus virginalis and its diploid parent Procambarus fallax. Zoologischer Anzeiger, 281, 53-67. doi:10.1016/j.jcz.2019.06.006 Crossref ● Google Scholar | ||||
| ||||
| Volpe, M. G., Santagata, G., Coccia, E., Di Stasio, M., Malinconico, M., & Paolucci, M. (2014). Pectin-based pellets for crayfish aquaculture: structural and functional characteristics and effects on redclaw Cherax quadricarinatus performances. Aquaculture Nutrition, 21(6), 814- 823. doi:10.1111/anu.12204 Crossref ● Google Scholar | ||||
| ||||
| Zaglol, N. F., & Eltadawy, F. (2009). Study on chemical quality and nutrition value of fresh water cray fish (Procambarus clarkii). Journal of the Arabian Aquaculture Society, 4(1), 1-18. http://arabaqs.org/journal/vol_4/1/Text%2009%20-%2001.pdf Google Scholar | ||||
Refbacks
- There are currently no refbacks.
Copyright (c) 2026 Mykola Slusar, Andrii Muzhenko, Iryna Kovalchuk, Yelyzaveta Fedorovych, Oksana Ishchuk, Vitaliy Mamchenko, Mykola Svitelskyi
This work is licensed under a Creative Commons Attribution 4.0 International License.