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Julkaisut ja opinnäytetyöt

Julkaisut

  • Kuha, J., Palomäki, A., Keskinen, T. & Karjalainen, J. 2016. Negligible effect of hypolimnetic oxygenation on the trophic state of Lake Jyväsjärvi, Finland. Limnolocica 58: 1-6. doi:10.1016/j.limno.2016.02.001.
  • Kiuru, P., Kemppainen, S., Kuha, J., Keskinen, T., Karjalainen, J. 2015. An operative temperature forecast model for Lake Jyväsjärvi (PDF)
  • Kemppainen, S., Kuha, J., Arvola, L. & Karjalainen, J. 2015. Automated Water Quality and Weather Monitoring in Lakes Jyväsjärvi, Konnevesi and Vanajavesi (PDF)
  • Stoll, S., Frenzel, M., Burkhard, B., Adamescu, M., Augustaitis, A., Baeßler, C., Bonet, F.J., Carranza, M.L., Cazacu, C., Cosor, G.L., Díaz-Delgado, R., Grandin, U., Haase, P., Hämäläinen, H., Loke, R., Müller, J., Stanisci, A., Staszewski, T., Müller, F. 2014. Assessment of ecosystem integrity and service gradients across Europe using the LTER Europe network. Ecol. Model. 295, 13, http://dx.doi.org/10.1016/j.ecolmodel.2014.06.019
  • Tolonen, K., Hämäläinen, H., Lensu, A., Palomäki, A., Meriläinen., J. & Karjalainen, J. 2014.  The relevance of ecological status to ecosystem functions and services in a large boreal lake. Journal of Applied Ecology 51:560–571. DOI 10.1111/1365-2664.12245.
  • Jyväsjärvi, J.; Boros, G.; Jones, R.I.; Hämäläinen, H. The importance of sedimenting organic matter, relative to oxygen and temperature, in structuring lake profundal macroinvertebrate assemblages. Hydrobiologia 2013, 709, 55–72; DOI 10.1007/s10750-012-1434-0.
  • Jyväsjärvi, J.; Immonen, H.; Högmander, P.; Högmander, H.; Hämäläinen, H.; Karjalainen, J. Can lake restoration by fish removal improve the status of profundal macroinvertebrate assemblages? Freshwater Biol. 2013, 58, 1149–1161; DOI 10.1111/ fwb.12115.
  • J. Syväranta, Högmander P., Keskinen T., Karjalainen J & Jones R.I. 2011. Altered energy flow pathways in a lake ecosystem following manipulation of fish community structure. Aquatic Sciences 73: 79-89. (Online First at Springer)
  • Syväranta J. & Rautio M. Zooplankton, lipids and stable isotopes: importance of seasonal, latitudinal and taxonomic differences 2010. Can. J. Fish. Aquat. Sci. 67: 1721-1729. (PDF)
  • Ravinet M., Syväranta J., Jones R.I. & Grey J. 2010. A trophic pathway from biogenic methane supports fish biomass in a temperate lake ecosystem. Oikos 119: 409-416. (PDF)
  • Keskinen, T., Pääkkönen, J.-P. J., Lilja, J., Marjomäki, T. J. & Karjalainen, J. 2010. Home range, seasonal migrations and activity of pikeperch (Sander lucioperca L.) in a Finnish lake system. Submitted manuscript.
  • J. Syväranta & R. I. Jones. 2009. Isotopic variability in lake littoral organisms presents a challenge for food web studies. Verh. Internat. Verein. Limnol. 30(8): 1193-1196. (PDF)
  • Syväranta J., Tiirola M. & Jones R. I. 2008. Seasonality in lake pelagic δ15N values: patterns, possible explanations, and implications for food web studies. Fundam. Appl. Limnol. (Arch. Hydrobiol.) 172: 255-262. (PDF)
  • Syväranta, J. 2008. Impacts of Biomanipulation on Lake Ecosystem Structure Revealed by Stable Isotope Analysis. Jyväskylä Studies in Biol. Environ. Sci. 187. 46 p., University of Jyväskylä, Jyväskylä.
  • Syväranta, J. & Jones, R.I. 2008. Altered energy flow pathways in a lake ecosystem following anthropogenic perturbation. Submitted manuscript.
  • Syväranta, J. & Jones, R.I. 2008. Changes in feeding niche widths of perch and roach following biomanipualtion, revealed by stable isotope analysis. Freshwater Biology 53: 425-434
  • Syväranta, J., Keskinen, T., Hämäläinen, H., Karjalainen, J. & Jones, R.I. 2008. Use of stable isotope analysis to evaluate the possible impact of fish migration on a lake biomanipulation. Aquatic Conservation: Marine and Freshwater Ecosystems. 18:703-713
  • Lahdelma, I. & Oikari, A. 2006: Stratigraphy of wood-derived sterols in sediments historically contaminated by pulp and paper mill effluents. - J. Paleolimnol. 35: 323-334.
  • Syväranta, J., Hämäläinen, H. & Jones, R.I. 2006. Within-lake variability in carbon and nitrogen stable isotope signatures. Freshwater Biology 51: 1090-1102.
  • Keskinen, T., Pääkkönen, J-P.J., Lilja, J., Marjomäki, T.J. & Karjalainen, J. 2005: Homing behaviour of pikeperch (Sander lucioperca) following experimental transplantation. Bor. Env. Res. 10: 119-124.
  • Palomäki, A. & Meriläinen, J. J. 2005. Internal nutrient load in a recovering urban lake: a laboratory microcosm study. Verh. Internat. Verein. Limnol. 29: 506-508.
  • Lahdelma, I. & Oikari, A. 2005: Resin acids and retene in sediments adjacent to pulp and paper industries. - J. Soils and Sediments 5: 74-81.
  • Salonen, K., Karjalainen, J., Högmander, P., Keskinen, T., Huttula, T. & Palomäki, A. 2005. Recovery of Lake Jyväsjärvi after pollution by municipal and industrial waste waters. Verh. Internat. Verein. Limnol. 29: 619-622.
  • Marjomäki, T. J., Auvinen, H., Helminen, H., Huusko, A., Sarvala, J., Valkeajärvi, P., Viljanen, M. & Karjalainen, J. 2004: Spatial synchrony in the interannual population variation of vendace (Coregonus albula (L.)) in Finnish lakes. - Annales Zoologici Fennici 41: 225-240.
  • Muje, K., Lindroos, M., Marjomäki, T. & Karjalainen, J. 2004: Interlocked sustainable use of multiple fish stocks - modelling biological and socio-economic conditions in Finnish vendace (Coregonus albula (L.)) fisheries. - Annales Zoolocici Fennici 41: 375-390.
  • Meriläinen, J.J., Hynynen, J., Palomäki, A., Mäntykoski, K. & Witick, A. 2003. Environmental history of an urban lake: a paleolimnological study of Lake Jyväsjärvi, Finland. J. Paleolimnol. 30: 387-406.
  • Meriläinen, J.J., Hynynen, J., Palomäki, A., Veijola, H., Witick, A., Mäntykoski, K., Granberg, K. & Lehtinen, K. 2001: Pulp and paper mill pollution and subsequent ecosystem recovery of a large boreal lake in Finland: a paleolimnological analysis. - J. Paleolimnol. 26: 11-35.Meriläinen, J.J., Hynynen, J., Palomäki, A., Veijola, H., Witick, A., Mäntykoski, K., Granberg, K. & Lehtinen, K. 2001: Pulp and paper mill pollution and subsequent ecosystem recovery of a large boreal lake in Finland: a paleolimnological analysis. - J. Paleolimnol. 26: 11-35.

Opinnäytetyöt

  • Kuha, J., 2016. Automated water quality monitoring of humic lakes by using the optical properties of water. PhD thesis. University of Jyväskylä (PDF)
  • Kuha, J. 2011. A case study: Automated monitoring of water quality on Lake Jyväsjärvi. Master of Science Thesis: 43 p.(PDF)
  • Arola, H. 2009. Quality of urban runoff and its contribution to loading of Lake Jyväsjärvi. Master of Science Thesis: 42 p. (PDF)
  • Leminen, M. J. 2008: Responses of perch (Perca fluviatilis), roach (Rutilus rutilus) and bream (Abramis brama) populations to mass removal in Lake Jyväsjärvi. Master of Science Thesis: 41 p.
  • Paloniemi, M. A. 2008: The use of multimesh gillnets for sampling fish populations - effects of soaking time and time of day. Master of Science Thesis: 34 p.
  • Vartiainen, E. 2006. Jyväsjärven rantavyöhykkeen eläinplankton vuosina 2000-2002 (pdf-tiedosto 237KB)
  • Kangas, A. (Helsingin yliopisto, Fysikaalisten tieteiden laitos) 2005. Jyväsjärven hapetus ja sen vaikutus järven lämpötilaan ja happipitoisuuteen. (pdf-tiedosto 1.8 MB)
  • Jyväsjärvi, Jussi 2005. Alvajärven, Tuomiojärven ja Jyväsjärven ekologisen tilan arviointi kala- ja syvännepohjaeläinyhteisöjen avulla
  • Harju, Tuija 2004. Jyväsjärven kasviplankton ja siihen vaikuttavat tekijät