Streszczenie

Cele

Metodyka

Plan pracy

Pakiety robocze
Literatura

Książki


John Tyler Bonner, 2006, Why Size Matters: From Bacteria to Blue Whales. Princeton University Press. pp191.

Alan Hildrew, Dave Rafaelli, Ronni Edmonds-Brown, 2007, Body Size. The Structure and Function of Aquatic Ecosystems. Cambridge University Press. pp 343

Robert Henry Peters, 1986, The Ecological Implications of Body Size, Cambridge University Press,

Knut Schmidt-Nielsen, 1984, Why is Animal Size so Important?, Cambridge University Press,

Thomas McMahon, John Tyler Bonner, 1983, On Size and Life, Scientific American Books - W. H. Freeman & Co., pp 255

James H. Brown, Geoffrey B. West, 2000, Scaling in Biology, Oxford University Press, pp366

Andrea Belgrano, Ursula M. Scarler, Jennifer Dunne, Robert E. Ulanowicz, 2005, Aquatic Food Webs. An Ecosystem Approach, Oxford University Press pp262.

S.R. Kerr, L.M. Dickie, 2001, The Biomass Spectrum. A Predator-Prey Theory of Aquatic Production Columbia University Press, pp320.

William A. Calder III, 1984, Size, Functions, and Life History, Harvard University Press, pp431

Felisa A. Smith, S. Kathleen Lyons, 2013, Animal Body Size. Linking Pattern and Process across Space, Time, and Taxonomic Group. pp280, University of Chicago Press.

Specjalistyczna literatura naukowa


ACIA (2006) Arctic Climate Impact Assessment - Scientific Report. Cambridge University Press, Cambridge Beaugrand, G., Brander, K.M., Alistair Lindley, J., Souissi, S. & Reid, P.C. (2003) Plankton effect on cod recruitment in the North Sea. Nature 426, 661-664.

Bergmann, C. (1847) Über die Verhältnisse der Wärmeökonomie der Tiere zu ihrer Größe. GoettingerStudien 1, 595–708.

Daufresne, M., Lengfellner, K. &Sommer, U. (2009) Global warming benefits the small in aquatic ecosystems. PNAS106, 12788 -12793.

Falkowski, P.G. & Oliver, M.J. (2007) Mix and match: how climate selects phytoplankton. Nat Rev Micr 5, 813-819.

Finkel, Z.V., Sebbo, J., Feist-Burkhardt, S. et al. (2007) A universal driver of macroevolutionary change in the size of marine phytoplankton over the Cenozoic. PNAS 104: 20416-20420.

Fisher, J.A.D., Frank, K.T., Leggett, W.C. (2010) Global variation in marine fish body size and its role in biodiversity – ecosystem, functioning. Mar EcolProgSer 405, 1-13

Gardner, J.L., Peters, A., Kearney, M.R., Joseph, L. &Heinsohn, R. (2011) Declining body size: a third universal response to warming? Trends EcolEvol 26, 285-291.

Hessen, D.O., Daufresne, M., Leinaas, H.P. (in press). Temperature- size relations from the cellular-genomic perspective. Biol Rev,in press. Hessen, D.O. &Persson, J. (2009) Genome size as a determinant of growth and life-history traits in crustaceans. Biol J Linn Soc, 98, 393-399.

Jennings S, Pinnegar JK, Polunin NVC, Warr KJ (2002) Linking size-based and trophic analysis of benthic community structure. Mar EcolProgSer 226:77-85

Jones, J.I., Jeppsen, E. (2007) Body size and trophic cascades in lakes in: Hildrew, A., Raffaelli, D., Edmonds-Brown, R. (eds) Body size: the structure and function of aquatic ecosystems. Cambridge University Press

Kozlowski, J., Czarnoeski, M &Danko, M. (2004). Can optimal resource allocation models explain why ectotherms grow larger in the cold? Integrative and Comparative Biology44, 480-493.

Moran, X.A., Lopez-Urrutia, A., Calvo-Diaz, A. and Li, W.K.W. (2010). Increased importance of small phytoplankton in a warmer ocean. Global Change Biol 16: 1137-1144.

Sheridan, J.A., Bickford, D. (2011) Shrinking body size as an ecological response to climate change. Nature Climate Change 1, 401-406

Smith, J.J., Hasiotis, S.T., Kraus, M.J., Woody, D.T. (2009) Transient dwarfism of soil fauna during the Paleocene-Eocene Thermal Maximum. ProcNatlAcadSci USA 106, 17655-17660

Sprules, W. G. &Munawar, M. (1986). Plankton Size Spectra in Relation to Ecosystem Productivity, Size, and Perturbation. Can. J. Fish. Aquat. Sci., 43, 1789-1794

Watt, C., Mitchell, S.,Salewski (2010) Bergmann´s rule; a concept cluster? Oikos 119: 89-100.

Yvon-Durocher, G., Montoya, J.M., Trimmer, M. and Woodward, G. (2011) Warming alters the size spectrum and shifts the distribution of biomass in freshwater ecosystems. Global Change Biology 17, 1681-1694