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Discriminating the diel vertical migration of fish and Chaoborus flavicans larvae in a lake using a dual-frequency echo sounder

Published online by Cambridge University Press:  01 September 2009

Frank Reier Knudsen
Affiliation:
Simrad, Kongsberg Maritime, PO Box 111, NO-3191 Horten, Norway
Petter Larsson
Affiliation:
Department of Biology, University of Bergen, NO-5007 Bergen, Norway
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Abstract

The diel vertical migration of fish and larvae of the phantom midge Chaoborus flavicans was studied using a combined 38 and 200 kHz echo sounder. Multi-mesh gill net was used to sample fish, and a Schindler-Patalas trap to sample Chaoborus. Oxygen and temperature profiles were also recorded. At 38 kHz, only fish were detected, without considerable interference from Chaoborus echoes. At 200 kHz, both fish and Chaoborus were detected and echoes from Chaoborus almost completely masked all fish echoes at night. During the day, Chaoborus remained hidden in an oxygen-poor refuge near the bottom. Tracks of fish diving into the Chaoborus refuge were observed on several occasions. At the onset of dusk, Chaoborus started to rise and by the time it was dark they were occupying the whole water column. Fish were found in patches in midwater during the day. In the dark, the fish were dispersed throughout the water column. Results suggest that a dual-frequency approach can be used to discriminate between fish and Chaoborus and to provide a rapid method for their selective monitoring.

Type
Research Article
Copyright
© EDP Sciences, IFREMER, IRD, 2009

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References

Appelberg M., Berger H.M., Hesthagen K.E., Kurkilahti M., Raitaniemi J., Rask M., 1995, Development and intercalibration of methods in Nordic freshwater fish monitoring. Water, Air Soil Pollut. 85, 401–406.
Carpenter S.R., Kitchell J.F., 1993, The trophic cascade in lakes. Cambridge University Press, Cambridge.
Cochrane, N.A., Sameoto, D., Herman, A.W., Neilson, J., 1991, Multiple-frequency acoustic backscattering and zooplankton aggregations in the inner Scotian Shelf basins. Can. J. Fish. Aquat. Sci. 48, 340355. CrossRef
Dini, M.L., Carpenter, S.R., 1990, The effect on whole-lake fish community manipulations on Daphnia migratory behavior. Limnol. Oceanogr. 36, 370377. CrossRef
Eckmann, R., 1998, Allocation of echointegrator output to small juvenile insects (Chaoborus sp.) and medium-sized (juvenile fish) targets. Fish. Res. 35, 107113. CrossRef
Everson, I., Goss, C., Murray, W.A., 1993, Comparison of krill (Euphausia superba) density estimates using 38 and 120 kHz echosounders. Mar. Biol. 116, 269275. CrossRef
Everson, I., Tarling, G.A., Bergstrøm, B., 2007, Improving acoustic estimates of krill: experience from repeat sampling of northern krill (Meganyctiphanes norvegica) in Gullmarsfjord, Sweden. ICES J. Mar. Sci. 64, 3948.
Fernandes P.G., Korneliussen R.J., Lebourges-Dhaussy A., Masse J., Iglesias M., Diner N., Ona E., Knutsen T., Gajate J., Ponce R., 2006, The SIMFAMI project: Species identification methods from acoustic multifrequency information. Final report to the EC No. Q5RS-2001-02054.
Foote, K.G., 1982, Optimizing copper spheres for precision calibration of hydroacoustic equipment. J. Acoust. Soc. Am. 71, 742747. CrossRef
Foote, K.G., 1985, Rather-high-frequency sound scattering by swimbladdered fish. J. Acoust. Soc. Am. 78, 688699. CrossRef
Foote K.G., Knudsen H.P., Vestnes G., MacLennan D.N., Simmonds E.J., 1987, Calibration of acoustic instruments for fish density estimation: a practical guide. ICES Coop. Res. Rep. 144.
Furusawa, M., 1991, Designing quantitative echo sounders. J. Acoust. Soc. Am. 90, 26-36. CrossRef
Gal, G., Loew, E.R., Rudstam, L.G., Mohammadian, A.M., 1999, Light and diel vertical migration: spectral sensitivity and light avoidance by Mysis relicta. Can. J. Fish. Aquat. Sci. 56, 312322. CrossRef
Hamley, J.M., 1975, Review of gillnet selectivity. J. Fish. Res. Board Can. 32, 19431969. CrossRef
Jones, I.S.F., Xie, J., 1994, A sound scattering layer in a freshwater reservoir. Limnol. Oceanogr. 39, 443448. CrossRef
Jurvelius, J., Knudsen, F.R., Balk, H., Marjomäki, T.J., Peltonen, H., Taskinen, J., Tuomaala, A., Viljanen, M., 2008, Echo-sounding can discriminate between fish and macroinvertebrates in fresh water. Freshw. Biol. 53, 912923. CrossRef
Kaartvedt, S., Røstad, A., Fiksen, Ø., Melle, W., Torgersen, T., Tiseth Breien, M., Klevjer, T.A., 2005, Piscivorous fish patrol krill swarms. Mar. Ecol. Prog. Ser. 299, 15. CrossRef
Kang, M., Furusawa, M., Miyashita, K., 2002, Effective and accurate use of difference in mean volume backscattering strength to identify fish and plankton. ICES J. Mar. Sci. 59, 794804. CrossRef
Knudsen, F.R., Sægrov, H., 2002, Benefits from horizontal beaming during acoustic survey: application to three Norwegian lakes. Fish. Res. 56, 205-211. CrossRef
Knudsen, F.R., Larsson, P., Jakobsen, P.J., 2006, Acoustic scattering from a larval insect (Chaoborus flavicans) at six echosounder frequencies: Implication for acoustic estimates of fish abundance. Fish. Res. 79, 8489. CrossRef
Korneliussen, R.J., Ona, E., 2002, An operational system for processing and visualizing multi-frequency acoustic data. ICES J. Mar. Sci. 59, 293313. CrossRef
LaRow, E.J., 1970, The effect of oxygen tension on the vertical migration of Chaoborus larvae. Limnol. Oceanogr. 15, 357362. CrossRef
Linløkken, A., Haugen, T.O., 2006, Density and temperature dependence of gill net catch per unit effort in perch, Perca fluviatilis, and roach, Rutilus rutilus. Fish. Manag. Ecol. 13, 261269. CrossRef
Liljendahl-Nurminen, A., Horppila, J., Eloranta, P., Malinen, T., Uusitalo, L., 2002, The seasonal dynamics and distribution of Chaoborus flavicans larvae in adjacent lake basins of different morphometry and degree of eutrophication. Freshw. Biol. 47, 1283-1295. CrossRef
MacLennan, D.N., Fernandes, P.G., Dalen, J., 2002, A consistent approach to definitions and symbols in fisheries acoustics. ICES J. Mar. Sci. 59, 365369. CrossRef
Malinen, T., Horppila, J., Liljendahl-Nurminen, A., 2001, Langmuir circulations disturb the low-oxygen refuge of phantom midge larvae. Limnol. Oceanogr. 46, 689692. CrossRef
Malinen, T., Tuomaala, A., Peltonen, H., 2005, Hydroacoustic stock assessment in the presence of dense aggreations of Chaoborus larvae. Can. J. Fish. Aquat. Sci. 62, 245249. CrossRef
Malueg, K.W., Hasler, A.D., 1966, Echosounder studies on diel vertical movements of Chaoborus larvae in Wisconsin (USA) lakes. Verh. Int. Ver. Limnol. 16, 16971708.
McKelvey, D.R., Wilson, C.D., 2006, Discriminant classification of fish and zooplankton backscattering at 38 and 120 kHz. Trans. Am. Fish. Soc. 135, 488499. CrossRef
Mehner, T., Hölker, F., Kasprzak, P., 2005, Spatial and temporal heterogeneity of trophic variables in a deep lake as reflected by repeated singular samplings. Oikos 108, 401409. CrossRef
Melnik, N., Timoshkin, O., Sideleva, V., Pushkin, S., Mamylov, V., 1993, Hydroacoustic measurement of the density of the Baikal macrozooplankter Macrohectopus branickii. Limnol. Oceanogr. 38, 425434.
Miyashita, K., Aoki, I., Seno, K., Taki, K., Ogishima, T., 1997, Acoustic identification of isada krill, Euphausia pacifica Hansen, off the Sanriku coast, Northeast. Japan. Fish. Ocean. 6, 266271. CrossRef
Northcote, T.G., 1964, Use of a high-frequency echosounder to record distribution and migration of Chaoborus larvae. Limnol. Oceanogr. 9, 8791. CrossRef
Ona, E., Mitson, R.B., 1996, Acoustic sampling and signal processing near the seabed: the deadzone revisited. ICES J. Mar. Sci. 53, 677-690. CrossRef
Pedersen G., Korneliussen R.J., Ona E. 2004, The relative frequency response, as derived from individually separated targets on cod, saithe and Norway pout. ICES CM2004/R:16
Pinel-Alloul B., 1995, Spatial heterogeneity as a multiscale characteristic of zooplankton community. Hydrobiologia 300/301, 17–42.
Pope, G.F., Carter, J.H.C., Power, G., 1973, The influence of fish on the distribution of Chaoborus spp. (Diptera) and density of larvae in the Matamek River System, Quebec. Trans. Am. Fish. Soc. 4, 707714. 2.0.CO;2>CrossRef
Rahel, F.J., Nutzman, J.W., 1994, Foraging in a lethal environment: fish predation in hypoxic waters of a stratified lake. Ecology 75, 12461253. CrossRef
Rudstam, L.G., Magnusson, J.J., Tonn, W.M., 1984, Size selectivity of passive fishing gears: a correction for encounter probability applied to gill nets. Can. J. Fish. Aquat. Sci. 41, 12521255. CrossRef
Rudstam, L.G., Schaner, T., Gal, G., Boscarino, B.T., O'Gorman, R., Warder, D.M., Johannsson, O.E, Bowen, K.L., 2008a, Hydroacoustic measure of Mysis relicta abundance and distribution in Lake Ontario. Aquat. Ecosyst. Health Manage. 11, 355363. CrossRef
Rudstam, L.G., Knudsen, F.R., Balk, H., Gal, G., Boscarino, B.T., Axenrot, T., 2008b, Acoustic characterization of Mysis relicta at multiple frequencies. Can. J. Fish. Aquat. Sci. 65, 27692779. CrossRef
Schindler, D.W., 1969, Two useful devices for vertical plankton and water sampling. J. Fish. Res. Board Can. 26, 19481955. CrossRef
Simrad EK500 Scientific Echo Sounder. Instruction manual. Simrad, Horten, Norway.
Sonny, D., Knudsen, F.R., Enger, P.S., Kvernstuen, T., Sand, O., 2006, Reactions of cyprinids to infrasound in a lake and at the cooling water inlet of a nuclear power plant. J. Fish. Biol. 69, 735748. CrossRef
Teraguchi, S., 1975, Correction of negative buoyancy in the phantom larva, Chaoborus americanus. J. Insect Physiol. 21, 16591670. CrossRef
Teraguchi, M., Northcote, T.G., 1966, Vertical distributions and migration of Chaoborus flavicans larvae in Corbett Lake, British Columbia. Limnol. Oceanogr. 11, 164176. CrossRef
Threlkeld, S.T., 1979, The midsummer dynamics of two Daphnia species in Wintergreen Lake, Michigan. Ecology 60, 165179. CrossRef
Trevorrow, M.V., Tanaka, Y., 1997, Acoustic and in situ measurements of freshwater amphipods (Jesogammarus annandalei) in Lake Biwa, Japan. Limnol. Oceanogr. 42, 121132. CrossRef
Voss, S., Mumm, H., 1999, Where to stay by night and day: size specific and seasonal difference in horizontal and vertical distribution of Chaoborus flavicans larvae. Freshw. Biol. 42, 201213. CrossRef
Zaret T.M., 1980, Predation and freshwater communities. Yale University Press, New Haven, London.
Økland, J., 1964, The eutrophic Lake Borrevann (Norway) - an ecological study on shore and bottom fauna with special reference to gastropods, including a hydrographic survey. Folia Limnol. Scand. 13, 1337.