Page 34 - Acoustics Today
P. 34

                                Marine Ecol. Progress Series 394, 247–262.
Kasatkina, S. M., Gross, C., Emery, J. H., Takao, Y., Litvinov, F. F.,
Malyshko, A., Shnar, V. N., and Berezhinsky, O. A. (2004). “A comparison of net and acoustic estimates of krill density in the Scotia Sea during the CCAMLR 2000 Survey,” Deep-Sea Research II, 51, 1289–1300.
Køgeler, J. W., Falk-Petersen, S., Kristensen, Å., Pettersen, F., and Dalen, J. (1987). “Density- and sound speed contrasts in sub- Arctic zooplankton” Polar Biol. 7, 231–235.
Kristensen, A., and Dalen, J. (1986). “Acoustic estimation of size distribution and abundance of zooplankton,” J. Acoust. Soc, 80(2), 601–611.
Lang, G. M., Livingston, P. A., and Dodd, K. A. (2005). Groundfish food habits and predation on commercially important prey species in the eastern Bering Sea from 1997 through 2001. U.S. Dept. of Commerce, NOAA Tech. Memo. NMFS-AFSC-158, 230p.
Lavery, A. C., Stanton, T. K., McGehee, D. E., and Chu, D. (2002). “Three-dimensional modeling of acoustic backscattering from fluid-like zooplankton,” J. Acoust. Soc. Am. 111(3), 1197–1210.
Lavery, A. C., Chu, D., and Moum, J. N. (2010). “Measurements of acoustic scattering from zooplankton and oceanic microstruc- ture using a broadband echosounder” ICES J. Marine Sci. 67, 379–394.
Lawson, G. L., Wiebe, P. H., Ashjian, C. J., Chu, D., and Stanton, T. K. (2006). “Improved parameterization of Antarctic krill target strength models,” J. Acous. Soc. Am. 119(1), 232–242.
Lawson, G. L., Wiebe, P. H., Stanton, T. K., and Ashjian, C. J. (2008). “Euphausiid distribution along the Western Antarctic Peninsula—Part A: Development of robust multi-frequency acoustic techniques to identify euphausiid aggregates and quan- tify euphausiid size, abundance, and biomass,” Deep-Sea Res. Part 2. Topical studies in oceanography 55, 412–431.
Mackie, G. O., Pugh, P. R., and Purcell, J. E. (1987). “Siphonophore biology, “ Advances in Marine Biol. 24, 97–262.
Makris, N. C., Ratital, P., Symonds, D. T., Jagannathan, S., Lee, S., and Nero, R. W. (2006). “Fish population and behavior revealed by instantaneous continental shelf-scale imaging,” Science. 311(5761), 660–663.
Marshall, N. B. (1951). “Bathypelagic fishes as sound scatterers in the ocean,” J. Marine Res. 10, 1–17.
Martin, L. V., Stanton, T. K., Wiebe, P. H., and Lynch, J. F. (1996). “Acoustic classification of zooplankton,” ICES J. Marine Sci. 53, 217–224.
McGehee, D., and Jaffe, J. S. (1996). “Three-dimensional swimming behavior of individual zooplankters: Observations using the acoustical imaging system FishTV,” ICES J. Marine Sci. 53(2), 363–369.
McGehee, D. E., O’Driscoll, R. L., and Martin-Traykovski, L. V. (1998). “Effects of orientation on acoustic scattering from Antarctic krill at 120 kHz,” Deep-Sea Research II 45, 1273–1294.
Medwin, H., and Clay, C. S. (1998). Fundamentals of Acoustical Oceanography (Academic Press, Boston, MA).
Miyashita, K., Aoki, I., and Inagaki, T. (1996). “Swimming behav- iour and target strength of isada krill (Euphausia pacifica),” ICES J. Marine Sci. 53, 303–308.
Miyashita, K., and Aoki, I. (1999). “Acoustic measurements of zoo- plankton using a dual frequency echo sounder,” Marine Ecol. Progress Series 180, 105–109.
Miyashita, K. (2003). “Diurnal changes in the acoustic-frequency characteristics of Japanese anchovy (Eugraulis japonicus) post- larvae “shirasu” inferred from theoretical scattering models,” ICES J. Marine Sci. 60, 532–537.
Munk, W. H., Spindel, R. C., Baggeroer, A., and Birdsall, T. G. (1994). “The Heard Island Feasibility Test,” J. Acoust. Soc. Am.
96, 2330–2342.
Napp, J. M., Ortner, P. B., Pieper, R. E., and Holliday, D. V. (1993).
“Biovolume-size spectra of epipelagic zooplankton using a multi-frequency acoustic profiling system (MAPS),” Deep-Sea Research I 40, 445–459.
Parks, S. E., Warren, J. D., Stamieszkin, K., Mayo, C. A., and Wiley, D. (2011). “Dangerous dining: Surface foraging of North Atlantic right whales increases risk of vessel collisions,” Biol. Lett. doi: 10.1098/rsbl.2011.0578.
Pickwell, G. V., Barham, E. G., and Wilton, J. W. (1964). “Carbon monoxide production by a bathypelagic siphonophore,” Science 144, 860–862.
Pieper, R. E., Holliday, D. V., and Kleppel, G. S. (1990). “Quantitative zooplankton distributions from multifrequency acoustics,” J. Plankton Res. 12, 433–441.
Reiss, C. S., Cossio, A. M., Loeb, V., and Demer, D. A. (2008). “Variations in the biomass of Antarctic krill (Euphausia superba) around the South Shetland Islands, 1996-2006,” ICES J. Marine Sci. 65(4), 497–508.
Ressler, P. H., De Robertis, A., Warren, J. D., Smith, J. N., and Kotwicki, S. (2012). “Developing an acoustic survey of euphausi- ids to understand trophic interactions in the Bering Sea ecosys- tem,” Deep-Sea Research II 65–70: 184–195. doi: 10.1016/j.dsr2.2012.02.015.
Roberts, P. L. D., and Jaffe, J. S. (2008). “Classification of live, untethered zooplankton from observations of multiple-angle acoustic scatter,” J. Acoust. Soc. Am. 124(2), 796–802. doi:10.1121/1.2945114.
Rogers, C. A., Biggs, D. C., and Cooper, R. A. (1978). “Aggregation of the siphonophore Nanomia cara in the Gulf of Maine: Observations from a submersible,” Fishery Bull. 76, 281–284.
Sameoto, D. D. (1980). “Quantitative measurements of Euphausiids using a 120-kHz sounder and their in situ orientation,” Can. J. Fish. and Aqu. Sci. 37, 693–702.
Sameoto, D., Cochrane, N., and Herman, A., (1993). “Convergence of acoustic, optical, and net-catch estimates of euphausiid abun- dance: Use of artificial light to reduce net avoidance,” Can. J. Fish. and Aqu. Sci. 50, 334–346.
Seim, H. E., Gregg, M. C., and Miyamoto, R. T. (1995). “Acoustic backscatter from turbulent microstructure,” J. Atmos. and Oceanic Technol. 12, 367–380.
Seim, H. E. (1999). “Acoustic backscatter from salinity microstruc- ture,” J. Atmos. and Oceanic Technol. 16, 1491–1498.
Simmonds, J., and MacLennan, D. (2005). Fisheries Acoustics: Theory and Practice, 2nd ed. (Blackwell Science Ltd., Oxford, UK, 437 p.).
Sinclair, E. (1994). Prey selection by northern fur seals (Callorhinus ursinus) in the eastern Bering Sea. Fisheries Bulletin, 92(1): 144–156.
Smith, P. F. (1954). “Further measurements of the sound scattering properties of several marine organisms,” Deep-Sea Research I 2, 71–79.
Smith, J. N., Ressler, P. H., and Warren, J. D. (2010). “Material prop- erties of euphausiids and other zooplankton from the Bering Sea,” J. Acoust. Soc. Am. 128(5), 2664–2680.
Stanton, T. K. (1988). “Sound scattering by cylinders of finite length I: Fluid cylinders,” J. Acoust. Soc. Am. 83, 55–63.
Stanton, T. K. (1990). “Sound scattering by spherical and elongated shelled bodies,” J. Acoust. Soc. Am. 88, 1619–1633.
Stanton, T. K., Clay, C. S., and Chu, D. (1993). “Ray representation of sound scattering by weakly scattering deformed fluid cylin- ders: Simple physics and application to zooplankton,” J. Acoust. Soc. Am. 94(6), 3454–3462.
Stanton, T. K., Wiebe, P. H., Chu, D., Benfield, M. C., Scanlon, L.,
Counting Critters 33























































   32   33   34   35   36