Abstract
The diel migration and spatial distribution of fish were explored using six sequential 4-h sample gillnettings in the pelagic and littoral zones of Lake Verevi (Estonia, 12.6 ha, max. depth 11 m, hard-water, deoxygenated hypolimnion) in August 2001 and July 2002. Considering abundance, two-thirds of the total fish moved to the littoral zone. The biomass of fish was distributed evenly between the littoral and pelagic zones, where the topmost epilimnion accounted for 80–85% leaving 10–15% for the lower epilimnion in the pelagic zone. Just above the thermocline only some large specimens of perch Perca fluviatilis (L.) and roach Rutilus rutilus (L.) (1–5%) during the daytime were captured. No fish movements were recorded under the thermocline. Rudd Scardinius erythrophtalmus (L.) inhabited only the littoral zone; all the other species were captured in both zones. Juvenile perch stayed in the littoral zone, whereas juvenile roach was caught in both zones and was active over a 24-h period. Piscivores, perch and pike Esox lucius L., were inactive in the dark. Perch inhabited mostly the littoral zone and the duration of its activity increased with age. In summer-stratified Lake Verevi, sharp change in the values of oxygen in the metalimnion along with species interaction affected the spatial distribution of fish, while diel migration was light-dependent.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Burks, R. L., E. Jeppesen, D. M. Lodge & T. Lauridsen, 2002. Diel horizontal migration of zooplankton: costs and benefits of habitating littoral zones. Freshwater Biology 47: 343–365.
Davenport, J. & M. D. J. Sayer, 1993. Physiological determinants of distribution in fish. Journal of Fish Biology 43: 121–145.
Diehl, S., 1988. Foraging efficiency of three freshwater fishes: effects of structural complexity and light. Oikos 53: 207–214.
Dörner, H., A. Wagner & J. Benndorf, 1999. Predation by piscivorous fish on age-0 fish: spatial and temporal variability in a biomanipulated lake (Bautzer reservoir, Germany). Hydrobiologia 408/409: 39–46.
Dörner, H., H. Schultz, T. Mehner & J. Benndorf, 2001. Interaction between prey availability and feeding behaviour of age-2 and age-2 Perch (Perca fluviatilis L.) in a Biomanipulated Lake (Bautzen Reservoir, Germany). Limnologica 31: 11–16.
Ekloev, P. & L. Perrson, 1995. Species — species antipredator capacities and prey refuges: interactions between piscivorous perch (Perca fluviatilis) and juvenile roach (Rutilus rutilus). Behavioral Ecology and Sociobiology 37: 169–178.
Ekloev, P., 1997. Effects of habitat complexity and prey abundance on the spatial and temporal distributions of perch (Perca fluviatilis) and pike (Esox lucius). Canadian Journal of Fisheries and Aquatic Sciences 54: 1520–1531.
Helminen, H., J. Karjalainen, M. Kurkilahti, M. Rask & J. Sarvala, 2000. Eutrophication and fish biodiversity in Finnish lakes. Verhandlungen Internationale Vereinigung für theoretische und angewandte Limnologie 27: 194–199.
Herzig, A., J. Kubecka & G. Wolfram, 2002. Fish distribution in the open water and littoral of Neusiedler See (Austria): a matter of habitat structure and abiotic factors. In: International Conference on Limnology of Shallow Lakes, Balatonfüred, Hungary 25–30 May (2002), Abstracts, Veszprm University Press Vp, 309 pp.
Hofer, W. W. R. & W. Wieser, 1987. Diet spectra and resource partitioning in the larvae and juveniles of three species and six cohorts of cyprinids from a subalpine lake. Oecologia (Berlin) 71: 388–396.
Holmgren, K., 1999. Between-year variation in community structure and biomass-size distributions of benthic lake fish communities. Journal of Fish Biology 55: 535–552.
Holmgren, K. & A. Appelberg, 2000. Size structure of benthic freshwater fish communities in relation to environmental gradients. Journal of Fish Biology 57: 1312–1330.
Horppila, J., 1998. Effects of mass removal and variable recruitment on nutrient excretion by a planktivorous roach stock. Journal of Fish Biology 52: 951–961.
Horppila, J. & K. Nyberg, 1999. The validity of different methods in the backcalculation of the lengths of roach — a comparison between scales and cleithra. Journal of Fish Biology 54: 489–498.
Hölkner, F. & B. Breckling, 2002. Influence of activity in heterogeneous environment on dynamics of fish growth: an individual-based model of roach. Journal of Fish Biology 60: 1170–1189.
Imbrock, F., A. Appenzeller & R. Eckmann, 1996. Diel and seasonal distribution of perch in Lake Constance: a hydroacoustic study and in situ observations. Journal of Fish Biology 49: 1–13.
Jachner, A., 2001. Anti-predator behaviour of nave compared with experienced juvenile roach. Journal of Fish Biology 59: 1313–1322.
Jacobsen, L., S. Berg, M. Broberg, N. Jepsen & C. Skov, 2002a. Activity and food choice of piscivorous perch (Perca fliviatilis) in a eutrophic shallow lake, investigated by radiotelemetry. Freshwater Biology 47: 2370–2379.
Jacobsen, L., N. Jepsen & S. Berg, 2002b. Roach (Rutilus rutilus) behaviour by use of mini-radio transmitters: a comparative study of a clearwater and turbid lake. In: Shallow Lakes 2002, International Conference on Limnology of Shallow Lakes, Balatonfüred, Hungary 25–30 May 2002, Abstracts, Veszeprm University Press Vp, 309 pp.
Jeppesen, E., J. P. Jensen, M. Søndegaard, T. Lauridsen & F. Landkildehus, 2000. Trophic structure, species richness and biodiversity in Danish lakes: changes along a phosphorus gradient. Freshwater Biology 45: 201–218.
Jepsen, N., A. Koed & F. Økland, 1999. The movements of pikeperch in a shallow reservoir. Journal of Fish Biology 54: 1083–1093.
Jurvelius, J. & I. Sammalkorpi, 1995. Hyrdoacoustic monitoring of the distribution, density and the mass-removal of pelagic fish in a eutrophic lake. Hydrobiologia 316: 33–41.
Krause, J., G. Staaks & T. Mehner, 1998. Habitat choice in shoals of roach as a function of water temperature and feeding rate. Journal of Fish Biology 53: 377–386.
Krause, T., A. Palm & A. Järvalt, 2001. Eesti väikejärvede kalastik. Annual Report No 2-11-14/767, Min. Envir. Dep. Fish Res., Tartu, 41 pp. [Fish in small Estonian lakes. In Estonian].
Kübar, K., H. Agasild, T. Virro & I. Ott, 2005. Vertical distribution of zooplankton in a strongly stratified hypertrophic lake. Hydrobiologia 547: 151–162.
Lauridsen, T. L., E. Jeppesen, S. F. Mitchell, D. M. Lodge & R. L. Burks, 1999. Diel variation in horizontal distribution of Daphnia and Ceriodaphnia in oligotrophic and mesotrophic lakes with contrasting fish densities. Hydrobiologia 408/409: 241–250.
Michelsen, K., J. Pedersen, K. Christoffersen & F. Jensen, 1994. Ecological consequences of food portioning for the fish population structure in a eutrophic lake. Hydrobiologia 291: 35–45.
Moss, B., 1998. Ecology of fresh waters: man and medium, past to future. Blackwell Science, 531 pp.
Eesti järved. 1968. Tallinn, “Valgus”. 532 pp. [Estonian lakes. In Estonian].
Mäemets, A., 1977. Eesti NSV järved ja nende kaitse. Valgus, Tallinn, 263 pp. (Lakes of the Estonian S.S.R. and their protection. In Estonian).
Olin, M., M. Rask, J. Ruuhijärvi, M. Kurkilahti, P. Ala-Opas & O. Ylönen, 2002. Fish community structure in mesotrophic and eutrophic lakes of southern Finland: the relative abundances of percids and cyprinids along a trophic gradient. Journal of Fish Biology 60: 593–612.
Ott, I., T. Kõiv, P. Nõges, A. Kisand, A. Järvalt & E. Kirt, 2005. General description of partly meromictic hypertrophic Lake Verevi, its ecological status, changes during the past eight decades and restoration problems. Hydrobiologia 547: 1–20.
Perrow, M. R., A. J. D. Jowitt & S. R. Johnson, 1996. Factors affecting the habitat selection of tench in a shallow eutrophic lake. Journal of Fish Biology 48/5: 859–870.
Persson, L., 1987. Effects of habitat and season on competitive interactions between roach (Rutilus rutilus) and perch (Perca fluviatilis). Oecologia (Berlin) 73: 170–177.
Persson, L. & P. Ekloev, 1995. Prey refuges affecting interactions between piscivorous perch and juvenile perch and roach. Ecology 76: 70–81.
Persson, L., J. Andersson, E. Wahlstroem & P. Ekloev, 1996. Size-specific interaction in lake systems: predator gape limitation and prey growth and mortality. Ecology 77: 900–911.
Pihu, E., 1993. Distribution of fish species in Estonian lakes. Proceedings of the Estonian Academy of Sciences Biology Ecology 3: 181–186.
Randall, R. G., C. K. Minns, V. W. Cairns & J. E. Moore, 1996. The relationship between an index of fish production and submerged macrophytes and other habitat features at three littoral areas in the Great Lakes. Canadian Journal of Fisheries and Aquatic Sciences 53/1: 35–44.
Romare, P., E. Bergman & L.-A. Hansson, 1999. The impact of larval and juvenile fish on zooplankton and algal dynamics. Limnology and Oceanography 44(7): 1655–1666.
Rowe, K., 1994. Vertical segregation and seasonal changes in fish depth distributions between lakes of contrasting trophic status. Journal of Fish Biology 45: 787–800.
Ryder, R. A., S. R. Kerr, K. H. Loftus & H. A. Regier, 1974. The morphoedaphic index, a fish yield estimator — review and evaluation. Journal of the Fisheries Research Board of Canada 31: 663–688.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2005 Springer
About this chapter
Cite this chapter
Järvalt, A., Krause, T., Palm, A. (2005). Diel migration and spatial distribution of fish in a small stratified lake. In: Ott, I., Kõiv, T. (eds) Lake Verevi, Estonia — A Highly Stratified Hypertrophic Lake. Developments in Hydrobiology, vol 182. Springer, Dordrecht. https://doi.org/10.1007/1-4020-4363-5_17
Download citation
DOI: https://doi.org/10.1007/1-4020-4363-5_17
Publisher Name: Springer, Dordrecht
Print ISBN: 978-1-4020-4021-4
Online ISBN: 978-1-4020-4363-5
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)