Browse > Article
http://dx.doi.org/10.11614/KSL.2022.55.4.294

Study on Habitat Selection of Odontobutis interrupta using PIT Telemetry  

Jun-Wan Kim (Department of Biology Education, Kongju National University)
Kyu-Jin Kim (Department of Biology Education, Kongju National University)
Beom-Myeong Choi (Department of Biology Education, Kongju National University)
Ju-Duk Yoon (Research Center for Endangered Species, National Institute of Ecology)
Min-Ho Jang (Department of Biology Education, Kongju National University)
Publication Information
Korean Journal of Ecology and Environment / v.55, no.4, 2022 , pp. 294-304 More about this Journal
Abstract
This study carried out from March 2021 to October 2021 in the upper part (St. 1) and middle part (St. 2) section of Yongsu stream, a branch of the Geum river, using PIT telemetry to understand the movement patterns and habitat characteristics of Odontobutis interrupta, a Korean endemic species. O. interrupta collection was used kick net (5×5 mm) and fish trap (5×5 mm). After collecting fish, PIT tag insertion was performed immediately in the site. Reader (HPR Plus Reader, biomark, USA) and portable Antenna (BP Plus Portable Antenna, biomark, USA) were used for detection of fish to monitoring the tagged O. interrupta. As a result of PIT telemetry applied to 70 individuals, mean movement distance was 36.5 (SE, ±6.6) m. There was a significant difference between total length and movement distance (P≤0.05). O. interrupta was mainly identified in average water depth, 36.2±1.9 cm, average water velocity, 0.03±0.07 m s-1 and average distance from watershed, 4.4±0.3 m. Extent of rock used for habitat was varied from 32 to 4,000 cm2. There was no statistical difference between the area of the first selected rock and the area of the after selected rock (P>0.05). but there was significant difference between total length and the area of the rock except for detection before 24 hours (P<0.01). Therefore, to restore the habitat, it is considered necessary to create various substrate structures by providing various habitat environments (water depth, flow rate, stone, etc.) for each individual size.
Keywords
Odontobutis interrupta; PIT telemetry; habitat selection; movement; monitoring;
Citations & Related Records
Times Cited By KSCI : 5  (Citation Analysis)
연도 인용수 순위
1 Acolas, M.L., J.M. Roussel, J.M. Lebel and J.L. Bagliniere. 2007. Laboratory experiment on survival, growth and tag retention following PIT injection into the body cavity of juvenile brown trout (Salmo trutta). Fisheries Research 86(2): 280-284.   DOI
2 Almeida, D., A. Almodovar, G.G. Nicola, B. Elvira and G.D. Grossman. 2012. Trophic plasticity of invasive juvenile largemouth bass Micropterus salmoides in Iberian streams. Fisheries Research 113: 153-158.   DOI
3 Baek, H.M and H.B. Song. 2005. Habitat Selection and Environmental Characters of Acheilognathus signifier. Korean Journal of Limnology 38(3): 352-360.
4 Barry, W.M. 1990. Fishways for Queensland coastal streams: an urgent review. International Symposium on Fishways. Gifu.
5 Bernardo, J.M., M. Ilheu, P. Matono and A.M. Costa. 2003. Interannual variation of fish assemblage structure in a Mediterranean river: implications of stream flow on the dominance of native or exotic species. River Research and Applications 19: 521-532.   DOI
6 Bubb, D.H., M.C. Lucas, T.J. Thom and P. Rycroft. 2002. The potential use of PIT telemetry for identifying and tracking crayfish in their natural environment. Hydrobiologia 483: 225-230.   DOI
7 Choi, J.W. and K.G. An. 2014. The Evaluations of Fish Survival Rate and Fish Movements using the Tagging Monitoring Approach of Passive Integrated Transponders(PIT). Journal of Environmental Science International 23(8): 1495-1505.   DOI
8 Choi, S.S. and Y.U. Na. 2000. The Spawning Behavior and Egg Development of Odontobutis interrupta IWATA and JEON. Korean Journal of Environmental Biology 18(3): 323-330.
9 Connell, D.W., B.M. Bycroft, G.J. Miller and P. Lather. 1981. Effects of a barrage on flushing and water quality in the Fitzroy River estuary, Queensland. Australian Journal of Marine and Freshwater Research 32(1): 57-63.   DOI
10 Doi, T. and S. Aoyama. 2006. Embryonic larval and juvenile morphologies of the freshwater goby Odontobutis hikimius reared in an aquarium were observed and described. Japanese Journal of Ichthyology 53: 63-70.
11 Downhower, J.F. and L. Brown. 1979. Seasonalchanges in the social structure of a mottled sculpin (Cottus bairdi) population. Animal Behaviour 27(2): 451-458.   DOI
12 Fukushima, M., S. Kameyama, M. Kaneko, K. Nakao and E. Ashleysteel. 2007. Modelling the effects of dams on freshwater fish distributions in Hokkaido, Japan. Freshwater Biology 52: 1511-1524.   DOI
13 Greenberg, L.A. and D.A. Holtzman. 1987. Microhabitatutilization feeding periodicity, home range and population size of the banded sculpin, Cottus carolinae. Copeia 1987(1): 19-25.   DOI
14 Han, J.H., C.S. Park, J.W. An, G.G. An and U.G. Baek. 2015. Identification Guide To Freshwater Fishes Of Korea. Nature and Ecology, Seoul, Korea. 280-283.
15 Hill, J., G.D. Grossman. 1987. Home range estimates for three North American stream fishes. Copeia 1987(2): 376-380.   DOI
16 Hoekstra, D. and J. Janssen. 1985. Non-visualfeeding behavior of the mottled sculpin, Cottus bairdi, in Lake Michigan. Environmental Biology of Fishes 12: 111-117.   DOI
17 Iwata, A., S.R. Jeon, N. Mizuno and K.C. Choi. 1985. Arevision of the eleotrid goby genus Odontobutis in Japan, Korea and China. Japanese Journal of Ichthyology 31: 373-388.
18 Iwata, A., S.R. Jeon, N. Mizuno and K.C. Choi. 1988. Larval development of a gobiid fish, Odontobutis obscura obscura in comparison with that of O. interrupta and of O. platycephala. Japanese Journal of Ichthyology 35: 371-381.
19 Jang, M.H. 2002. Ecological Study of Freshwater Fish in Korea: Fish Fauna, Prey-predator Interaction and the Responses of Cyanobacteria to Fish Grazing. PhD Thesis, Pusan National University, Busan, Korea.
20 Keeler, R.A. 2006. Development and application of Passive Integrated Transponder technology to investigate the movement and reproductive ecology of adult slimy sculpin (Cottus cognatus) in small New Brunswick streams. Master Thesis, University of New Brunswick, Hamilton, Canada.
21 Kelly, J.M. and D.M. Janz. 2008. Altered energetics and parasitism in juvenile northern pike (Esox lucius) inhabiting metal-mining contaminated lakes. Ecotoxicology and Environmental Safety 70: 357-369.   DOI
22 Kenward, R.E. 2001. A manual for wildlife radio tagging, 2nd ed. Academic Press. London, UK.
23 Kim, I.S. and J.Y. Park. 2002, Freshwater fish of Korea, KyoHak Publishing Co., Ltd., Seoul, Korea.
24 Kim, J.H., J.D. Yoon, H.B. Song and M.H. Jang. 2016. Home range and habitat use of translocated endangered species, Cottus koreanus, in South Korea. Animal Cells and Systems 20(2): 103-110.   DOI
25 Lee, S.H., D.M. Lee, T.S. Yu, J. Lee and K.H. Han. 2018. Ecology of Odontobutis platyceph-ala in Bosung River, Korea. Bulletin of the Fisheries Science Institute Chonnam National University 26(1): 49-54.
26 Lee, W.K. 1998. Annual reproductive cycle and changes in plasma levels of sex steroid hormones of the female Korean dark sleeper, Odontobutis platycephala (Iwata et Jeon). Korean Journal of Fisheries and Aquatic Sciences 31: 599-607.
27 Lucas, M. and E. Baras. 2001. Migration of Freshwater Fishes. Blackwell Science, Oxford, UK.
28 Lymbery, A.J., M. Hassan, D.L. Morgan, S.J. Beatty and R.G. Doupe. 2010. Parasites of native and exotic freshwater fishes in south western Australia. Journal of Fish Biology 76: 1770-1785.   DOI
29 Mashiko, K. 1976. Reproductive behavior of an eleotrid goby Odontobutis obscurus in aquaria. Japanese Journal of Ichthyology 23: 69-78.
30 Matthew, J.B., R.R. Carl, J.T. Kurt and L.K. Steveb. 2009. Movement of mottled sculpins (Cottus bairdii) in a Michigan stream: how restricted are they?. Canadian Journal of Fisheries and Aquatic Sciences 66: 31-41.   DOI
31 Morhardt, J.E., D. Bisher, C.L. Handlin and S.D. Mulder. 2000. A portable system for reading large PIT tags from wild trout. North American Journal of Fisheries Management 20: 276-283.   DOI
32 National Institute of Ecology (NIE). 2020. 4th Data book of national ecosystem survey. National Institute of Ecology, Seocheon, Korea.
33 Natsumeda, T. 2003. Effect of a severe flood on the movements of Japanese fluvial sculpin. Enviromental Biology of Fishes 68: 417-424.   DOI
34 Park, J.M., J.H. Han, S.M. Yun and K.H. Han. 2017. Early Osteological Development of Larvae and Juveniles in the Korean Spotted Sleeper Odontobutis interrupta from Korea. The Korean Society of Fisheries and Aquatic Science 50(4): 396-405.   DOI
35 Park, J.M., K.H. Han, N.R. Kim, D.J. Yoo, S.M. Yun and J.H. Han. 2014. Egg development and early life history of Korean endemic species Korean spotted sleeper, Odontobutis interrupta (Pisces: Odontobutidae). Development and Reproduction 18: 259-266.   DOI
36 Pires, A.M., I.G. Cowx and M.M. Coelho. 1999. Seasonal changes in fish community structure of intermittent streams in the middle reaches of the Guadiana basin, Portugal. Journal of Fish Biology 54: 235-249.   DOI
37 Sakai, H., Y. Tanaka, H. Tsujii, A. Iwata and I. Ikeda. 1999. Distribution pattern of two genetically different groups of Odontobutis obscura in Takatsu river and its vicinity. Japanese Journal of Ichthyology 46: 109-114.
38 Sakai, H., A. Iwata and S.R. Jeon. 1993. Genetic evidence supporting the existence of three distinct species in the genus Odontobutis (Gobiidae) from Japan and Korea. Japanese Journal of Ichthyology 40: 61-64.
39 Voskoboinikova, O.S. and D.A. Pavlov. 2006. Larval development of the Amur sleeper Perccottus glenii (Perciforms, Gobioidei, Odontobutidae) and the origin of fish of the suborder Gobioidei. Journal of Ichthyology 46: 826-841.
40 Yi, Y., Z. Yang and S. Zhang. 2010. Ecological influence of dam construction and river-lake connectivity on migration fish habitat in the Yangtze River basin, China. Procedia Environmental Sciences 2. 1942-1954, Beijing, China.   DOI
41 Yoon, J.D., J.H. Kim, D.S. In, J.J. Yu, M.S. Hur, K.H. Chang and M.H. Jang. 2012. Evaluation of Movement Pattern of Erythroculter erythropterus Inhabit in the Mid-lower Part of Nakdong River Using Acoustic Telemetry. Korean Journal of Limnology 45(4): 403-411.
42 Yoon, J.D. and M.H. Jang. 2009. Survival Rate of the Korean Cyprinidae Subject to Passive Integrated Transponder (PIT) Tagging. Korean Journal of Limnology 42(1): 134-138.