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http://dx.doi.org/10.4217/OPR.2012.34.1.085

Measurements of Sound Speed and Density Contrasts of the Moon Jellyfish (Aurelia aurita s.l.) for Hydroacoustic Model  

Kang, Don-Hyug (Marine Security Research Center, KORDI)
Lee, Chang-Won (Department of Environmental Marine Sciences, Division of Science and Technology Hanyang University)
Lee, Hyung-Been (Marine Security Research Center, KORDI)
Kim, Mi-Ra (Marine Security Research Center, KORDI)
Publication Information
Ocean and Polar Research / v.34, no.1, 2012 , pp. 85-91 More about this Journal
Abstract
Physical properties such as sound speed contrast (h) and density contrast (g) of the interested target are key parameters to understand acoustic characteristics by using theoretical scattering models. The density and sound speed of moon jellyfish (common jellyfish, Aurelia aurita s.l.) were measured. Sound speed contrast (h) was measured from travel time difference (time-of-flight method) of an acoustic signal in a water tank for APOP studies (Acoustic Properties Of zooplankton). Density contrast (g) was measured by the displacement volume and wet weight (dual-density method). The sound speed remained almost constant as the moon jellyfish increased in bell length. The mean values${\pm}$standard deviation of h and g were $1.0005{\pm}0.0012$ and $0.9808{\pm}0.0195$), respectively. These results will provide important input for use in theoretical scattering models for estimating the acoustic target strength of jellyfish.
Keywords
hydroacoustic model; moon jellyfish; Aurelia aurita s.l.; sound speed contrast; density contrast;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Lee YW, Hwang BK (2009) Theoretical examination of the effects of fluctuation of acoustic scattering on the swimming behavior of giant jellyfish. J Korean Fish Soc 42:165-170   과학기술학회마을   DOI   ScienceOn
2 Medwin H, Clay CS (1998) Fundamentals of acoustical oceanography. Academic Press, San Diego, 712 p
3 Mills CE (2001) Jellyfish blooms: are populations increasing globally in response to changing ocean conditions? Hydrobiologia 451:55-68   DOI   ScienceOn
4 Monger BC, Chinniah-Chandy S, Meir E, Billings S, Greene CH, Wiebe PH (1998) Sound scattering by the gelatinous zooplankters Aequorea victoria and Pleurobrachia bachei. Deep-Sea Res II 45:1255-1271   DOI   ScienceOn
5 Mukai T, Hirose M, Sawada K, Takahashi H, Iida K (2009) Target strength of moon jellyfish-Variations with pulsation and posture. In: Proceedings of meeting of the Marine Acoustic Society of Japan, pp 19-22
6 Mutlu E (1996) Target strength of the common jellyfish (Aurelia aurita): a preliminary experimental study with a dual-beam acoustic system. ICES J Mar Sci 53:309-311   DOI   ScienceOn
7 Pond S, Pickard GL (1986) Introductory dynamic oceanography, 2nd edition. Pergamon press, Oxford, 329 p
8 Simmonds J, MacLennan D (2005) Fisheries Acoustics: theory and practice, 2nd edition. Blackwell Science, UK, 437 p
9 Warren JD, Smith JN (2007) Density and sound speed of two gelatinous zooplankton Ctenophore (Mnemiopsis leidyi) and lion's mane jellyfish (Cyanea capillata). J Acoust Soc Am 122:574-580   DOI   ScienceOn
10 국토해양부 (2009) 유해해양생물 해파리 피해예방 기획연구 보고서. 국립수산과학원, 225 p
11 Brierley AS, Axelsen BE, Buecher E, Sparks CAJ, Boyer H, Gibbons MJ (2001) Acoustic observations of jellyfish in the Namibian Benguela. Mar Eco Prog Ser 210:55-66   DOI
12 Brierley AS, Axelsen BE, Boyer DC, Lynam CP, Didcock CA, Boyer HJ, Sparks CAJ, Purcell JE, Gibbons MJ (2004) Single-target echo detections of jellyfish. ICES J Mar Sci 61:383-393   DOI   ScienceOn
13 Hirose M, Mukai T, Hwang D, Iida K (2009) The acoustic characteristics of three jellyfish species: Nemopilema nomurai, Cyanea nozakii, and Aurelia aurita. ICES J Mar Sci 66:1233-1237   DOI   ScienceOn
14 Chu D, Wiebe P, Copley N (2000) Inference of material properties of zooplankton from acoustic and resistivity measurements. ICES J Mar Sci 57:1128-1142   DOI   ScienceOn
15 Chu D, Wiebe PH (2005) Measurements of sound-speed and density contrasts of zooplankton in Antarctic waters. ICES J Mar Sci 62:818-831   DOI   ScienceOn
16 Colombo GA, Mianzan H, Madriolas A (2003) Acoustic characterization of gelatinous-plankton aggregations: four case studies from the Argentine continental shelf. ICES J Mar Sci 60:650-657   DOI   ScienceOn
17 Kang D, Iida K, Mukai T, Kim JM (2006) Density and sound speed contrasts of the Japanese common squid (Todarodes pacificus) and their influence on acoustic target strength. Fish Sci 72:728-736   DOI   ScienceOn
18 Kang DH, Kim JH, Lee HB, Myung JG (2009) Target strength characteristics of multiple gelatinous organisms, Aurelia aurita, and Cyanea nozakii. In: The 10th Western Pacific Acoustic Conference, Beijing, China, 21-23 Sep 2009, pp 1-8
19 Lee JH, Choi HW, Chae JH, Kim DS, Lee SB (2006) Performance analysis of intake screens in power plants on mass impingement of marine organisms. Ocean and Polar Res 28:385-393   DOI   ScienceOn