Using the camera traps for permanent monitoring and fi guring out the time of spawning migration and spawn of early morph of sockeye salmon in the Azabachye Lake in 2023

Efficiency of using camera trap to monitor spawning sockeye salmon on small spring-type spawning grounds is evaluated and optimal criteria for installation are determined in the paper. The time of sock- eye salmon migration in different sections of spawning route from Kamchatka Gulf to the spawning grounds in the Azabachye Lake is clarified, and recommendations on the timing of aerial surveys in the lake basin were given.

1. Bugayev V.F., Ostroumov A.G. O tipakh nerestilishch i razmerakh tela proizvoditeley nerki v basseyne r. Kamchatka [On the types of spawning grounds and body sizes of sockeye salmon spawners in the river basin Kamchatka]. Voprosy geografii Kamchatki, 1990, no. 10, pp. 56–66. (In Russ.) EDN: DKYXNK

2. Bugayev V.F., Ostroumov A.G. The influence of the number of sockeye salmon spawners Oncorhynchus nerka on the number of brown bear Ursus ursus arctos and some bird species in the lake basin Azabachy (Kamchatka River basin). Conservation of biodiversity of Kamchatka and adjacent seas: Materials of the V scientific conference. Petropavlovsk-Kamchatsky, 2004, pp. 264–267. (In Russ.) EDN: CBRHAV

3. Bugaev V.F., Vronsky B.B., Zavarina L.O., Zorbidi Zh. h., Ostroumov A.U., Tiller I.V. Ryby reki Kamchatka [Pisces of the Kamchatka River]. Petropavlovsk-Kamchatsky: KamchatNIRO, 2007, 459 p.

4. Zaporozhets O.M., Zaporozhets G.V. Using the photo- and video records for assessment of pacific salmon escapement on migration routes and spawning grounds: some of methodical approaches. The researchers of the aquatic biological resources of Kamchatka and the north-west part of the Pacific Ocean, 2017, vol. 47, pp. 77–90. (In Russ.) EDN: YVPUYM. doi:10.15853/2072-8212.2017.47.77-90

5. Ostrovskiy V.I., Semenchenko N.N. The role of social stress in the regulation of the population of sockeye salmon (Oncorhynchus nerka Walbaum). Issledovaniye i ratsionalnoye ispolzovaniye bioresursov dalʼnevostochnykh i severnykh morey SSSR i perspektivy sozdaniya tekhnicheskikh sredstv dlya osvoyeniya neispolzuyemykh bioresursov v otkrytom okeane [Research and rational use of biological resources of the Far Eastern and northern seas of the USSR and prospects for the creation of technical means for the development of unused biological resources in the ocean]. Vladivostok: TINRO, 1985, pp. 48–49.

6. Parenskiy V.A. Reproduktivnoye povedeniye i effektivnostʼ neresta nerki Oncorhynchus nerka Walbaum: dis. … kand. biol. nauk [Reproductive behavior and spawning efficiency of sockeye salmon Oncorhynchus nerka Walbaum: Dis. … cand. biol. sciences]. Vladivostok: IBM DVO, 1990, 133 p.

7. Parenskiy V.A. The role of bears in the dynamics of salmon numbers in Kamchatka. Conservation of biodiversity of Kamchatka and adjacent seas: Materials of the VI scientific conference. PetropavlovskKamchatsky, 2005, pp. 264–267. (In Russ.)

8. Sviridov V.V., Podorozhnyuk E.V., Nikitin V.D., Skorik A.V. Modifications of unmanned aerial survey on spawners of pacific salmons in the rivers of Sakhalin and Khabarovsk Regions. Izvestiya TINRO, 2022, vol. 202 (4), pp. 1015–1031. (In Russ.) EDN: JULFRV. doi:10.26428/1606-9919-2022-202-1015-1031

9. Seredkin I.V., Paczkowski J. Brown bears feeding on salmon on the Kronotsky River in 2003. Conservation of biodiversity of Kamchatka and adjacent seas: Materials of the V scientific conference. PetropavlovskKamchatsky, 2004, pp. 284–287. (In Russ.)

10. Seredkin I.V., Paczkowski J. Brown bear feeding on pacific salmon in the Kronotsky River of Kamchatka. Kamchatka Brown Bear: Ecology, Conservation, and Sustainable Use. Petropavlovsk-Kamchatsky, 2006, pp. 78–84. EDN: ZIGZMN

11. Fadeev E.S., Shevlyakov E.A., Feldman M.G. Complex monitoring of salmon spawners escapement to the Kamchatka River in real time regime. Izvestiya TINRO, 2019, vol. 197, pp. 3–20. (In Russ.) EDN: TUDAPK. doi:10.26428/1606-9919-2019-197-3-20

12. Shevlyakov E.A. The role of the Kamchatka brown bear (Ursus Arctos Piscator) in the formation of the spawning stock of Kamchatka salmon of the genus Oncorhynchus. Bull. No. 11 study of Pacific salmon in the Far East, 2016, pp. 120–128. (In Russ.)

13. Shevlyakov E.A., Fadeev E.S. Problems of rational fishery of pacific salmon in the basin of the River Kamchatka and Kamchatsky Gulf, measures of management. The researchers of the aquatic biological resources of Kamchatka and the north-west part of the Pacific Ocean, 2015, vol. 38, pp. 5–28. (In Russ.) EDN: VBHLZT. doi:10.15853/2072-8212.2015.38.5-28

14. Christie K.S., Gilbert S.L., Brown C.L., Hatfield M., Hanson L. Unmanned aircraft systems in wildlife research: current and future applications of a transformative technology. Frontiers in Ecology and the Environment, 2016, vol. 14, issue 5, pp. 241–251.

15. Groves P.A., Alcorn B., Wiest M.M., Maselko J.M., Connor W.P. Testing unmanned aircraft systems for salmon spawning surveys. FACETS 1, 2016, pp. 187–204.

16. Kudo H., Koshino Y., Eto A., Ichimura M., Kaeriyama M. Cost-effective accurate estimates of adult chum salmon, Oncorhynchus keta, abundance in a Japanese river using a radio-controlled helicopter. Fisheries Research, 2012, vol. 119–120, pp. 94–98.

17. Whitehead K., Hugenholtz C.H., Myshak S., Brown O., LeClair A., Tamminga A. Barchyn T.E., Moorman B., Eaton B. Remote sensing of the environment with small unmanned aircraft systems (UASs), part 2: scientific and commercial applications. Journal of Unmanned Vehicle Systems, 2014, 2 (3), pp. 86–102.