The growth and stages of ontogenesis of Arabesque greenling in the waters of Primorie (Japan Sea)

Arabesque greenling Pleurogrammus azonus important commercial species in the waters of Russia and Japan. In the Russian waters of the Sea of Japan, a regular study of its biology carried out in the water area of Primorsky krai, where annual trawl surveys performed. Growth of this species is a coherent deterministic process with a pronounced staging of ontogenesis and a changing priority of physiological processes at different stages of development. The first two years dominated by the accumulation of matter, and then — the cyclic alternation of the phases of assimilation and dissimilation. In sexually mature individuals, the cyclicity of physiological processes is almost identical. Thus, somatic and generative growth go synchronously, as well as fat accumulation in combination with nutrition. The last two processes go with a month’s advance. The hereditary growth program of the Arabesque greenling does not define a rigidly assigned chronological rhythm, but is corrected by phenotypic self-adjustment to environmental conditions. In individuals of the same age, but of different biological states, physiological and migratory processes proceed in a similar way. The first five years of life, the mortality of individuals carried out by adaptive selection mechanisms. Clear signs of aging in some individuals do not appear even in the last year of life. The mortality in extreme ages is a consequence of “phenotype” — programmed death. The processes of body renewal in females are much more effective than in males, which contributes to their longer life. 

1. Brett D. R. 1983. Faktory sredy i rost [Environmental factors and growth] // Bioehnergetika i rost ryb. M.: Leg. i pishch. prom-st’. S. 275–345.

2. Brett D. R., Grouvs D. D. 1983. Fiziologicheskaya ehnergetika[Physiology energy] // Bioehnergetika i rost ryb. M.: Leg. i pishch. prom-st’. S. 203–274.

3. Brycov V. A., Kukhlevsky A. D., Shevlakov E. A., Kinas N.M, Zavarina L. O. 2008. Sex ratio control in pink salmon (Oncothyncus gorbusha) and chum salmon (O. keta) population: The possible and mechanisms of changes in the sex ratio // Russian Journal of Genetics. Vol. 7. Pp. 786–792.

4. Vasnetsov V. V. 1953. O zakonomernostyakh rosta ryb [Development stages of bony fishes] // Ocherki po obshchim voprosam ikhtiologii. M.-L.: AN SSSR. S. 218–226.

5. Vdovin A. N. 1988. Mnogofaktornyj analiz smertnosti yuzhnogo odnoperogo terpuga v vodakh Primor’ya [Multi-factored of mortality of Pleurogrammus azonus in Prymorye] // Izmenchivost’ sostava ikhtiofauny, urozhajnosti pokolenij i metody prognozirovaniya zapasov ryb v severnoj chasti Tikhogo okeana. Vladivostok: TINRO. S. 122–126.

6. Vdovin A. N. 1998. Biologiya i dinamika chislennosti yuzhnogo odnoperogo terpuga (Pleurogrammus azonus) [Life cycle and stock Dinamics of Atka mackerel Pleurogrammus azonus.] // Izvestiya TINRO. T. 123. S. 122–126.

7. Vdovin A. N. 2004. Okeanologicheskie aspekty raspredeleniya i dinamiki chislennosti massovykh i obychnykh vidov terpugovykh (Hexagrammidae) v severo-zapadnoj chasti Yaponskogo morya [Oceanological aspects of the distribution and dynamics of numbers of numerous and medium-sized species (Hexagrammidae) in the northwestern part of Japan Sea] // Gidrometeorologiya i gidrokhimiya morej. T. VIII. Yaponskoe more. Vyp. 2. S. 219–229.

8. Vdovin A. N., Vasil’kov V.P. 1982. Opredelenie vozrasta yuzhnogo odnoperogo terpuga Pleurogrammus azonus J ordan e t M etz ( Hexagrammidae) algoritmicheskimi metodami raspoznavaniya obrazov s obucheniem [Determination of the age of the Atka mackarel Pleurogrammus azonus Jordan et Metz (Hexagrammidae) by algorithmic methods of pattern recognition with training] // Voprosy ikhtiologii. T. 22. Vyp. 6. S. 1006–1014.

9. Vdovin A. N., Shvydkij G. V. 1993. Fiziologicheskie aspekty rosta odnoperogo terpuga Pleurogrammus azonus v vodakh Primor’ya [Physiological aspects of the growth of the Atka mackerel Pleurogrammus azonus in the water of Primorye] // Voprosy ikhtiologii. T. 33. № 1. S. 156–160.

10. Vdovin A. N., Shvydkij G. V. 1994. Batimetricheskie migratsii terpuga Pleurogrammus azonus osen’yu v zalive Petra Velikogo [Bathymetric migrations of the Atka mackarel Pleurogrammus azonus in the autumn in Peter the Great Bay] // Biologiya morya. T. 20. № 5. S. 351–358.

11. Vdovin A. N., Kornienko E. S., Drozdov A. L. 1995. Osobennosti gametogeneza vpervye razmnozhayushchikhsya osobej yuzhnogo odnoperogo terpuga Pleurogrammus azonus [Peculiarities of gametogenesis of the first reproducing individuals of the Atka mackerel Pleurogrammus azonus] // Biologiya morya. T. 21. № 5. S. 329–332.

12. Vdovin A. N., Zuenko Yu.I. 1997. Vertikal’naya zonal’nost’ i ehkologicheskie gruppirovki ryb zaliva Petra Velikogo [Vertical zoning and ecological groupings of the fishes of Peter the Great Bay] // Izvestiya TINRO. T. 122. S. 152–176.

13. Vdovin A. N., Shvydkij G. V., Kalchugin P. V. 2001. Sezonnoe raspredelenie kolyuchej kambaly Acanthopsetta nadeshnyi v severo-zapadnoj chasti Yaponskogo morya [Seasonal distribution of the Sealyeye plaice Acanthopsetta nadeshnyi in the northwestern p art o f t he S ea o f J apan] // Voprosy ikhtiologii. T. 41. № 1. S. 36–41.

14. Vdovin A. N., Shvydkij G. V., Kalchugin P. V. 2004. Sezonnoe raspredelenie yaponomorskoj paltusovidnoj kambaly Hippoglossoides dubius (Pleuronectidae) v severo-zapadnoj chasti YAponskogo morya [Seasonal distribution of the Flathead flounder Hippoglossoides dubius in the northwestern part of the S ea of Japan] // Voprosy ikhtiologii. T. 44. № 3. S. 370–374.

15. Vdovin A. N., Chernoivanova L. A. 2006. Long-Term Dynamics of Certain Parameters of Pacific Herring Clupea pallasii (Clupeidae) in Peter the Great Bay // Journal of Ichthyology. Vol. 46. No. 1. S. 50–57.

16. Vdovin A. N., Chetyrbotskij A. N., Chetyrbotskij V. A. 2015. Komp’yuternoe modelirovanie dinamiki rosta ryb (na primere yuzhnogo odnoperogo terpuga Pleurogrammus azonus). Chast’ II [The Computer Simulation of the Dynamics of the Length and Weight of Fish (on the Example of Atka mackerel Pleurogrammus azonus] // Informatsionnye tekhnologii. T. 21. № 3. S. 187–192.

17. Vdovin A. N., Chetyrbotsky A. N., Boiko M. I. 2017. Growth Dynamics of the Barfin Plaice Liopsetta pinnifasciata (Pleuronectidae) in Peter the Great Bay (Sea of Japan) // Journal of Ichthyology. Vol. 57. No. 3. S. 365–371.

18. Dgebuadze Yu. Yu. 2001. Ehkologicheskie zakonomernosti izmenchivosti rosta ryb. [Ecological aspects of fifh growth variability]. M. Nauka. 276 s.

19. Dgebuadze Ju. Ju. 2010. Ocenki vozrasta i rosta v populjacionnyh issledovanijah ryb [Estimates of age and growth in population-based fish studies] // Aktual’nye problemy sovremennoj ihtiologii. M.: Tovarishhestvo nauchnyh izdanij KMK. S. 96–123.

20. Gavrilov G. M. 1998. Sostav, dinamika chislennosti i promysel ryb v ehkonomicheskoj zone Rossii i prilegayushchikh vodakh Yaponskogo morya [Fish species composition, stocks dynamics and fisheries in Russian EEZ of the Japan Sea and adjacent waters] // Izvestiya TINRO. T. 124. S. 271–319.

21. Gomeljuk V. E. 1987. Nerestovoe povedenie juzhnogo odnoperogo terpuga Pleurogrammus azonus v zal. Petra Velikogo [The spawning behavior of Arabesque grenling Pleurogrammus azonus in the Peter the Great bay] // Voprosy ihtiologii. T. 27. Vyp. 6. S. 991–999.

22. Gorbunova N. N. 1962. Razmnozhenie i razvitie ryb semejstva terpugovykh (Hexagrammidae) [Reproduction and development of fish of the family (Hexagrammidae)] // Trudy IOAN SSSR. T. 59. S. 118–182.

23. D’yakonov V., Kruglov V. 2002. MATLAB. Analiz, indetifikatsiya i modelirovanie sistem. Spetsial’nyj spravochnik. [Analysis, indetification and modeling of systems. Special reference book]. SPb.: Piter. 448 s.

24. Zotin A. I., Zotina R. S. 1993. Fenomenologicheskaya teoriya razvitiya, rosta i stareniya organizmov [Phenommenological theory of development, growth and aging]. M.: Nauka. 364 c.

25. Ivankov V. N. 1976. Ovogenez, polovoj tsikl i kharakter ikrometaniya yuzhnogo odnoperogo terpuga [Ovogenesis, the sexual cycle and the character of spawning of the Atka mackerel] // Issledovaniya po biologii ryb i promyslovoj okeanografii. Vladivostok: TINRO. Vyp. 7. S. 46–51.

26. Ivankov V. N. 1987. Stroenie yajtsekletok i sistematika ryb. [Structure of ova and systematics of fish]. Vladivostok: DVGU. 160 s.

27. Krivobok M. N., Tarkovskaya O. N. 1962. Opredelenie zhira v tele ryb [Determination of fat in the body of fish] // Rukovodstvo po metodike issledovanij fiziologii ryb. M.: Izd-vo AN SSSR. S. 134–142.

28. Konovalov S. M. 1980. Populyatsionnaya biologiya tikhookeanskikh lososej [Populational biology of Pacific salmon]. L.: Nauka. 238 c.

29. Kuznetsova E. N. 2003. Rost ryb i strategii ikh zhiznennykh tsiklov. [Growth of fish and strategies for their life cycles]. Avtoref. dis. … dokt. biol. nauk. M.: VNIRO. 54 s.

30. Kushing D. Kh. 1979. Morskaya ehkologiya i rybolovstvo [Marine Ecology and Fisheries]. M.: Pishch. prom-st’. 288 s.

31. Libertini G. 2014. The Programmed Aging Paradigm: How We Get Old // Biochemistry (Moscow). Vol. 79. No. 10. S. 1004–1016.

32. Maksimenko V. P., Antonov N. P. 2003. Kolichestvennye metody otsenki rybnykh zapasov. [Quantitative Methods of Fish Reserves Evalution] Petropavlovsk-Kamchatskij: KamchatNIRO. 256 s.

33. Mina M. V., Klevezal’ G.A. 1976. Rost zhivotnykh. Analiz na urovne organizma [Growth of animals. Analysis at the level of the body]. M.: Nauka. 291 s.

34. Mina M. V., Klevezal’ G.A. 1980. Ritmy rosta i razvitiya zhivotnykh [Rhythms of growth and development of animals] // Problemy kosmicheskoj biologii. T. 41. Biologicheskie ritmy. S. 139–159.

35. Nikol’skij G.V. 1974. Teoriya dinamiki stada ryb kak biologicheskaya osnova ratsional’noj ehkspluatatsii i vosproizvodstva rybnykh resursov [Theory of fish population dynamics as the biological background for rational explotation and management of fishery resources]. M.: Pishchevaya prom-st’. 447 s.

36. Nuzhdin V. A. 2001. Osobennosti rosta mintaya Theragra chalcogramma (Gadidae) v vodakh yuzhnogo Primor’ya [Peculiarities of Alaska pollock growth Theragra chalcogramma (Gadidae) in the waters of southern Primorye] // Voprosy ikhtiologii. T. 41. № 1. S. 274–277.

37. Pravdin I. F. 1966. Rukovodstvo po izucheniyu ryb [Guide to the study of fish]. M.: Pishch. prom-st’. 376 s.

38. Pushchina O. I. 2000. Osobennosti pitaniya yuzhnogo odnoperogo terpuga Pleurogrammus azonus v vodakh Primor’ya [Feeding habits of the atka mackerel Pleurogrammus azonus in Primorye coastal waters] // Izvestiya TINRO. T. 127. S. 203–208.

39. Pushchina O. I. 2005. Pitanie i pishchevye vzaimootnosheniya massovykh vidov donnykh ryb v vodakh Primor’ya v vesennij period [Feeding and food relations of mass bottom fishes in the waters of Primorye in spring] // Izvestiya TINRO. T. 127. S. 203–208.

40. Riker W. E. 1983. Kolichestvennye pokazateli i modeli rosta ryb [Growth rates and model. Fish physiology] // Bioehnergetika i rost ryb. M.: Legkaya i pishch. prom-st’. S. 346–405.

41. Semenchenko A. Yu. 1989. Primorskaya sima: populyatsionnaya ehkologiya, mor fologiya, vosproizvodstvo [Primorye Cherry salmon: population ecology, morphology, reproduction]. Vladivostok: DVO AN SSSR. 192 s.

42. Skulachev V. P. 1999. Fenoptoz: zaprogrammirovannaya smert’ organizma [Fenoptosis: programmed death of an organism] // Biokhimiya. T. 64. № 12. S. 1418–1426.

43. Skulachev M. V., Skulachev V. P. 2014. New Data on Programmed Aging — Slow Phenoptosis // Biochemistry (Moscow). Vol. 79. No. 10. PP. 977–993.

44. Solbrig O., Solbrig D. 1982. Populyatsionnaya biologiya i ehvolyutsiya [Introduction to Population Biology and Evolution]. M.: Mir. 488 s.

45. Tuponogov V. N., Kodolov L. S. 2014. Polevoj opredelitel’ promyslovykh i massovykh vidov ryb dal’nevostochnykh morej Rossii [Field determinant of commercial and mass fish species in the Far Eastern seas of Russia]. Vladivostok: Russkij ostrov. 336 s.

46. Timofeev-Resovskij N.V., Vorontsov N. N., Yablokov A. V. 1977. Kratkij ocherk teorii ehvolyutsi [Brief essay on the theory of evolution i]. M.: Nauka. 297 s.

47. Shatunovskij M. I. 1980. Ehkologicheskie zakonomernosti obmena veshchestv morskikh ryb [Ecological regularities in the metabolism of marine fish]. M.: Nauka. 288 s.

48. Shilov I. A. 2001. Ehkologiya. [Ecology] M.: Vysshaya shkola. 512 s.

49. Shmal’gauzen I.I. 1984. Rost i differentsirovka. [Growth and differentiation]. Kiev: Naukova dumka. T. 2. 168 s.

50. Shmidt-Nielsen K. 1987. Razmery zhivotnykh: pochemu oni tak vazhny? [Scaling: why is animal size to important?] M.: Mir. 259 s.

51. Shul ’man G.I. 1972. Fiziologo-biokhimicheskie osobennosti godovykh tsiklov ryb. [Physiological and biochemical features of annual fish cycles]. M.: Pishch. prom-st’. 368.

52. Khalyavkin A. V., Krutko V. N. 2014. Aging Is a Simple Deprivation Syndrome Driven by a Quasi-programmed Preventable and Reversible Drift of Control System Set Points Due to Inappropriate Organism-Environment Interaction // Biochemistry (Moscow). Vol. 79. No. 10. S. 1133–1135.

53. Yarzhombek A. A. 2011. Zakonomernosti rosta promyslovykh ryb [Regularities in the growth of commercial fish]. M.: Izd-vo VNIRO. 182 s.

54. Yarzhombek A. A., Gomel’skij B.I. 1992. Solyubizatsiya metiltestosterona karpom [Solubilization of methyltestosterone by carp] // Voprosy ikhtiologii. T. 32. Vyp. 4. S. 167–168.

55. Irie T. 1986. Stock Assessment of Hokke (Pleurogrammus azonus) and estimation of the effect of fishing Regulation for the Stock // Report of fish. Res. Invest. Japan. Gov. No. 25 (Nov.). P. 74–97 (in Japanese with English abstract).

56. Takashima T., Okada N., Asami H. et al., 2016. Maturation process and reproductive biology of female Arabesque greenling Pleurogrammus azonus in the Sea of Japan, off the west coast of Hokkaido // Fisheries science. V. 82. No. 2. PP. 225–240.

57. Vdovin A., Antonenko D. 2014. Correlation between fat content and features of generative growth of arabesque greenling Pleurogrammus azonus // Journal of Coastal Life Medicine. V. 2. No. 9. PP. 679–683.