The Influence of the Temperature Factor on the Changes in the Growth Parameters of Sprat (2000 - 2020)

Bagenal, T. B., Tesch, F. W. (1978): Methods for Assessment of Fish Production in Fresh Waters. In: Age and growth (еd. T. Bagenal), IBP Handbook No. 3, 3rd edition pp. 101–136. Oxford:Blackwell Sci. Publ. Search in Google Scholar

Bellido, J. M., Pierce, G. J., Romero, J. L. and Millan, M. (2000): Use of frequency analysis methods estimate growth of anchovy in the Gulf of Cadis (SW Spain). Fisheries Research, 48, 107-115. Search in Google Scholar

Bertalanffy, L., Von. (1938): A quantitative theory of organic growth (Inquiries on growth laws II). Human Biology, 10, 181−213. Search in Google Scholar

Dagtekin, M., Genc, Y., Kasapoglu, N., Erik, G. (2022): Length-weight relationships of 28 fish species caught from demersal trawl survey in the Middle Black Sea, Turkey. Turk J Zool., 46, 67–73. Search in Google Scholar

Dakhno, V. D., Perevalov, O. A. (2013): The current state of the herd of the Black Sea sprat living in the Russian part of the Black Sea. J Questions of Fishing, 14 (4), 644–650. Search in Google Scholar

Daskalov, G. M. (2002): Overfishing drives a trophic cascade in the Black Sea. Mar. Ecol. Prog. Ser., 225, 53–63. Search in Google Scholar

Froese, R. (2006): Cube law, condition factor and weight-length relationships: history, meta-analysis and recommendations. Journal of Applied Ichthyology, 22, 241–253. Search in Google Scholar

Giragosov, V. E., Zuyev, G. V., Repetin, L. N. (2006): Variability of the reproductive potential of the Black Sea sprat (Sprattus sprattus phalericus) in relation to the temperature conditions of the environment. Marine Environmental Journal, 4, 5–22. Search in Google Scholar

Glushchenko, T. I. (2011): Nutrition and assessment of the diet of the Black Sea sprat in 2009-2010. J. YuGNIRO, 49, 34–39. Search in Google Scholar

Goulding, I. C., Stobberup, K. A., O’Higgins, T. (2014): Potential economic impacts of achieving good environmental status in Black Sea fisheries. Ecol. Soc., 19 (3), 32. Search in Google Scholar

Gucu, A. C., Genc, Y., Dagtekin, M., Sakinan, S., Ak, O., Ok, M. (2017): On Black Sea Anchovy and Its Fishery. Rev. Fish. Sci. Aquac., 25, 230–244. Search in Google Scholar

Kideys, A. E. (2002): Fall and rise of the Black Sea ecosystem. Science, 297, 1482–1484. Search in Google Scholar

Klyashtorin, L. B., Lyubushin, A. A. (2005): Cyclic climate changes and fish productivity. Moscow. VNIRO. 235 p. Search in Google Scholar

Mel’nikova, E. B. (2011): Determination of the age composition of catches in the conditions of fishing. Fisheries science of Ukraine, 1, 27–32. Search in Google Scholar

Melnikova, E., Kuzminova N. (2022): Influence of Abiotic Environmental Factors on the Growth Rate of Red Mullet. Croatian Journal of Fisheries, 80 (20), 87-95. Search in Google Scholar

Oguz, T. (2005): Black Sea ecosystem response to climatic teleconnections. Oceanography, 18 (2), 122–133. Search in Google Scholar

Özsandıkçı, U. (2020): Estimation of Exploitable Sprat (Sprattus sprattus, Linnaeus, 1758) Biomass along Black Sea Coasts of Turkey (Samsun Region): This Paper is Dedicated to the Memory of Sedat GÖNENER. Journal of New Results in Science (JNRS), 9 (3), 1–8. Search in Google Scholar

Panov, B. N., Spiridonova, E. O., Piatinskii, M. M., Stytsyuk, D. R. (2020): On the role of temperature as a factor influencing the behavior of the European Sprat and the efficiency of its fishing. Aquatic Bioresources and Environment, 3 (1), 106–113. Search in Google Scholar

Pauly, D., Moreau, J., Prein, M. (1988): A comparison of overall growth performance of tilapia in open waters and aquaculture. ICLARM Conf. Proc., 15, 469–479. Search in Google Scholar

Polonsky, A. B., Mel’nikova, E. B., Serebrennikov, A. N., Tokarev, Yu. N. (2018): Regional peculiarities of hydrobiont bioluminescence intensity and chlorophyll a concentration in Black Sea Waters. Atmospheric and Oceanic Optics, 31 (4), 365-371. Search in Google Scholar

Pravdin, I. F. (1966): Manual to the study of fish. Moscow. 376 pp. Search in Google Scholar

Riker, W. E. (1979): Methods of estimation and interpretation of biological parameters of fish populations. Moscow. 408 pp. Search in Google Scholar

Sahin, T., (1999): Some biological characteristics of sprat (Sprattus sprattus phalericus Risso, 1826) on the Eastern Black Sea coast. Turkish Journal of Zoology, 23(5), 249–255. Search in Google Scholar

Satilmis, H. H., Sumer, C., Ozdemir, S., Bayrakli, B. (2014): Length-weight relationships of the three most abundant pelagic fish species caught by mid-water trawls and purse seine in the Black Sea. Cah. Biol. Mar., 55, 259-265. Search in Google Scholar

Shlyakhov, V. A., Shlyakhova, O. V. (2011): Dynamics of the structure of sprat trawl catches on the Ukranian shelf of the Black Sea and the impact of natural factors and fishing on it. J. YugNIRO, 49, 12–33. Search in Google Scholar

Shulman, G. E, Nikolsky, V. N., Yuneva, T. V. (2007): Impact of global climatic and regional factors on small pelagic fish of the Black Sea. Marine Environmental Journal, 6 (4), 18–30. Search in Google Scholar

Sinovčić, G. (2004): Growth and length-weight relationship of the juvenile anchovy, Engraulis encrasicolus, in the nursery ground (Zrmanja River estuary-eastern Adriatic Sea). Journal of Applied Ichthyology, 20 (1), 79–80. Search in Google Scholar

Yankova, M., Pavlov, D., Raykov, V., Mihneva, V. (2022): Length-weight relationships of ten fish species from the Bulgarian Black Sea waters. Turkish Journal of Zoology, 35, 265-270. Search in Google Scholar

Zuyev, G. V., Mel’nikova, E. B., Salekhova, L. P., Shevchenko, N. F. (2002): A new approach to studying the age structure of the Black Sea sprat (Spratuss sprattus phalericus) (Pisces: Clupeidae). Marine Environmental Journal, 1 (1), 90–98. Search in Google Scholar

Zuyev, G. V., Mel’nikova, E. B., Repetin, L. N., Gutsal, D. K. (2004): Influence of water temperature on the survival of juveniles and the formation of the commercial stock of the Black Sea sprat Sprattus sprattus phalericus (Risso); (Pisces: Clupeidae). Marine Environmental Journal, 3 (2), 45–53. Search in Google Scholar