北海道釧路沖に生息するツノナシオキアミの密度比と音速比の年変化とターゲットストレングスへの影響
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| Published in | 海洋音響学会誌 Vol. 48; no. 1; pp. 1 - 14 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | Japanese |
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特定非営利活動法人 海洋音響学会
01.01.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0916-5835 1881-6819 |
| DOI | 10.3135/jmasj.48.1 |
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| Author | 松裏, 知彦 福田, 美亮 澤田, 浩一 向井, 徹 |
|---|---|
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| Copyright | 2021 海洋音響学会 |
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| References | 15) D. Chu and P. H. Wiebe, “Measurements of sound-speed and density contrasts of zooplankton in Antarctic waters,” ICES J. Mar. Sci., 62, 818–831(2005). 18) F. Hu, Y. Oozeki, T. Tokai and K. Matsuda, “Scale model of a new midwater trawl system for sampling pelagic larval and juvenile fish,” Fish. Sci., 67, 254–259(2001). 20) P. H. Wiebe, K. H. Burt, S. H. Boyd and A. W. Morton, “A multiple opening/closing net and environmental sensing system for sampling zooplankton,” J. Mar. Res., 34, 313–326(1976). 5) 福田美亮,向井, 徹,澤田浩一,飯田浩二,“懸垂法を用いたツノナシオキアミEuphausia pacificaの側面方向ターゲットストレングス測定,”日本水産学会誌,78(3), 388–398(2012 1) D. E. McGehee, R. L. O’Driscoll and L. V. Martin Traykovski, “Effects of orientation on acoustic scattering from Antarctic krill at 120 kHz,” Deep-Sea Res. II, 45, 1273–1294(1998). 3) T. K. Stanton, D. Chu and Wiebe, “Sound scattering by several zooplankton groups. II. Scattering models,” J. Acoust. Soc. Am., 103, 236–253(1998). 8) 金 銀好,向井, 徹,飯田浩二,“体積後方散乱強度の周波数差を利用した北海道噴火湾周辺におけるオキアミ類とカイアシ類の識別,”日本水産学会誌,82(4), 587–600(2016 6) T. Matsuura, K. Uchikawa and K. Sawada, “Relationship between light and diel vertical migration of Diaphus theta and Euphausia pacifica off eastern Hokkaido,” Fish. Sci., 78, 503–513(2012). 17) K. N. Becker and J. D. Warren, “Material properties of Northeast Pacific zooplankton,” ICES J. Mar. Sci., 71(9), 2550–2563 (2014). 23) K. G. Foote, “Averaging of fish target strength functions,” J. Acoust. Soc. Am., 67(2), 504–515 (1980). 14) K. G. Foote, “Speed of sound in Euphausia superba,” J. Acoust. Soc. Am., 87(4), 1405–1408(1990). 10) K. Taki, “Distribution and life history of Euphausia pacifica off northeastern Japan,” Fish. Oceanogr., 13, 34–43(2004). 9) 小達和子,三陸・常磐沿岸のツノナシオキアミとその漁業(社団法人 日本水産資源保護協会,東京,1991), p. 32–41. 2) D. Chu, K. G. Foote and T. K. Stanton, “Further analysis of target strength measurements of Antarctic krill at 38 and 120 kHz: Comparison with deformed cylinder model and inference of orientation distribution,” J. Acoust. Soc. Am., 93, 2985–2988(1993). 16) J. N. Smith, P. H. Ressler and J. D. Warren, “Material properties of euphausiids and other zooplankton from the Bering Sea,” J. Acoust. Soc. Am., 128(5), 2664–2680(2010). 4) K. Amakasu and M. Furusawa, “The target strength of Antarctic krill(Euphausia superba) measured by the split-beam method in a small tank at 70 kHz,” ICES J. Mar. Sci., 63, 36–45 (2006). 13) K. G. Foote, I. Everson, J. L. Watkins and D. G. Bone, “Target strengths of Antarctic krill(Euphausia superba) at 38 and 120 kHz,” J. Acoust. Soc. Am., 87(1), 16–24(1990). 21) C. F. Greenlaw, “Backscattering spectra of preserved zooplankton,” J. Acoust. Soc. Am., 62, 44–52(1977). 7) H. S. Kim, A. Yamaguchi and T. Ikeda, “Abundance, biomass and life cycle patterns of euphausiids(Euphausia pacifica, Thysanoessa inspinata and T. longipes) in the Oyashio region, western subarctic Pacific,” Plankton Benthos Res., 4(2), 43–52(2009). 11) 三上尚之,向井, 徹,飯田浩二,“理論モデルによるオキアミのターゲットストレングス推定に必要な密度比と音速比の測定,”日本水産学会誌,66(4), 682–689(2000 19) Y. Oozeki, F. Hu, H. Kubota, H. Sugisaki and R. Kimura, “Newly designed quantitative frame trawl for sampling larval and juvenile pelagic fish,” Fish. Sci., 70, 223–232(2004). 12) 松倉隆一,向井, 徹,安藤靖浩,飯田浩二,“ツノナシオキアミEuphausia pacificaの密度比,音速比の変化とターゲットストレングス推定に与える影響,”日本水産学会誌,75(1), 38–44(2009 22) G. L. Lawson, P. H. Wiebe, C. J. Ashjian, D. Chu and T. K. Stanton, “Improved parameterization of Antarctic krill target strength models,” J. Acoust. Soc. Am., 119(1), 232–242(2006). |
| References_xml | – reference: 5) 福田美亮,向井, 徹,澤田浩一,飯田浩二,“懸垂法を用いたツノナシオキアミEuphausia pacificaの側面方向ターゲットストレングス測定,”日本水産学会誌,78(3), 388–398(2012). – reference: 1) D. E. McGehee, R. L. O’Driscoll and L. V. Martin Traykovski, “Effects of orientation on acoustic scattering from Antarctic krill at 120 kHz,” Deep-Sea Res. II, 45, 1273–1294(1998). – reference: 14) K. G. Foote, “Speed of sound in Euphausia superba,” J. Acoust. Soc. Am., 87(4), 1405–1408(1990). – reference: 21) C. F. Greenlaw, “Backscattering spectra of preserved zooplankton,” J. Acoust. Soc. Am., 62, 44–52(1977). – reference: 22) G. L. Lawson, P. H. Wiebe, C. J. Ashjian, D. Chu and T. K. Stanton, “Improved parameterization of Antarctic krill target strength models,” J. Acoust. Soc. Am., 119(1), 232–242(2006). – reference: 12) 松倉隆一,向井, 徹,安藤靖浩,飯田浩二,“ツノナシオキアミEuphausia pacificaの密度比,音速比の変化とターゲットストレングス推定に与える影響,”日本水産学会誌,75(1), 38–44(2009). – reference: 8) 金 銀好,向井, 徹,飯田浩二,“体積後方散乱強度の周波数差を利用した北海道噴火湾周辺におけるオキアミ類とカイアシ類の識別,”日本水産学会誌,82(4), 587–600(2016). – reference: 10) K. Taki, “Distribution and life history of Euphausia pacifica off northeastern Japan,” Fish. Oceanogr., 13, 34–43(2004). – reference: 19) Y. Oozeki, F. Hu, H. Kubota, H. Sugisaki and R. Kimura, “Newly designed quantitative frame trawl for sampling larval and juvenile pelagic fish,” Fish. Sci., 70, 223–232(2004). – reference: 3) T. K. Stanton, D. Chu and Wiebe, “Sound scattering by several zooplankton groups. II. Scattering models,” J. Acoust. Soc. Am., 103, 236–253(1998). – reference: 9) 小達和子,三陸・常磐沿岸のツノナシオキアミとその漁業(社団法人 日本水産資源保護協会,東京,1991), p. 32–41. – reference: 2) D. Chu, K. G. Foote and T. K. Stanton, “Further analysis of target strength measurements of Antarctic krill at 38 and 120 kHz: Comparison with deformed cylinder model and inference of orientation distribution,” J. Acoust. Soc. Am., 93, 2985–2988(1993). – reference: 23) K. G. Foote, “Averaging of fish target strength functions,” J. Acoust. Soc. Am., 67(2), 504–515 (1980). – reference: 13) K. G. Foote, I. Everson, J. L. Watkins and D. G. Bone, “Target strengths of Antarctic krill(Euphausia superba) at 38 and 120 kHz,” J. Acoust. Soc. Am., 87(1), 16–24(1990). – reference: 11) 三上尚之,向井, 徹,飯田浩二,“理論モデルによるオキアミのターゲットストレングス推定に必要な密度比と音速比の測定,”日本水産学会誌,66(4), 682–689(2000). – reference: 7) H. S. Kim, A. Yamaguchi and T. Ikeda, “Abundance, biomass and life cycle patterns of euphausiids(Euphausia pacifica, Thysanoessa inspinata and T. longipes) in the Oyashio region, western subarctic Pacific,” Plankton Benthos Res., 4(2), 43–52(2009). – reference: 18) F. Hu, Y. Oozeki, T. Tokai and K. Matsuda, “Scale model of a new midwater trawl system for sampling pelagic larval and juvenile fish,” Fish. Sci., 67, 254–259(2001). – reference: 4) K. Amakasu and M. Furusawa, “The target strength of Antarctic krill(Euphausia superba) measured by the split-beam method in a small tank at 70 kHz,” ICES J. Mar. Sci., 63, 36–45 (2006). – reference: 6) T. Matsuura, K. Uchikawa and K. Sawada, “Relationship between light and diel vertical migration of Diaphus theta and Euphausia pacifica off eastern Hokkaido,” Fish. Sci., 78, 503–513(2012). – reference: 15) D. Chu and P. H. Wiebe, “Measurements of sound-speed and density contrasts of zooplankton in Antarctic waters,” ICES J. Mar. Sci., 62, 818–831(2005). – reference: 16) J. N. Smith, P. H. Ressler and J. D. Warren, “Material properties of euphausiids and other zooplankton from the Bering Sea,” J. Acoust. Soc. Am., 128(5), 2664–2680(2010). – reference: 17) K. N. Becker and J. D. Warren, “Material properties of Northeast Pacific zooplankton,” ICES J. Mar. Sci., 71(9), 2550–2563 (2014). – reference: 20) P. H. Wiebe, K. H. Burt, S. H. Boyd and A. W. Morton, “A multiple opening/closing net and environmental sensing system for sampling zooplankton,” J. Mar. Res., 34, 313–326(1976). |
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| SubjectTerms | ターゲットストレングス ツノナシオキアミ 密度比 音速比 |
| Title | 北海道釧路沖に生息するツノナシオキアミの密度比と音速比の年変化とターゲットストレングスへの影響 |
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