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RCIN and OZwRCIN projects

Object

Title: Critical depth concept: current state and prospects

Creator:

Szeligiewicz, Wojciech

Date issued/created:

1999

Resource type:

Text

Subtitle:

Modern Trends in Hydrobiological Research

Publisher:

Karol Starmach Institute of Freshwater Biology of the Polish Academy of Sciences

Place of publishing:

Kraków

Description:

Proceedings of the Conference held in Supraśl, Poland 22-24 September 1999 ; 24 cm ; bibliografia na stronach 246-247

Type of object:

Journal/Article

References:

Capblancq J. 1995. Production primaire autotrophe. In: Pourriot R., Meybeck M. (eds) Limnologie Generale. Paris, Masson, 228-252.
Falkowski P.G., Raven J.A. 1997. Aquatic photosynthesis. Massachusetts, Blackwell Sci., 375 pp.
Han B. P., Virtanen M., Koponen J., Straškraba M. 1999. Predictors of light-limited growth and competition in a well-mixed water column. J. Theor. Biol., 197, 439-450.
Harris G.P. 1980. The measurement of photosynthesis in natural population of phytoplankton. In: Morris I. (ed.) The physiological ecology of phytoplankton. Oxford, Blackwell Sci. Publ., 129-187.
Huisman J., Weissing FJ. 1994. Light-limited growth and competition for light in well-mixed aquatic environments: an elementary model. Ecology, 75, 507-520.
Huisman J. 1999. Population dynamics of light-limited phytoplankton: microcosm experiments. Ecology, 80, 202-210.
Huisman J., Jonker R.R., Zonneveld C., Weissing F.J. 1999. Competition for light between phytoplankton species: experimental tests of mechanistic theory. Ecology, 80, 211-222.
Huisman J., van Oostveen P., Weissing F.J. 1996. Species dynamics in phytoplankton blooms: incomplete mixing and competition for light. Am. Nat., 154, 46-48.
Marra J. 1978. Effects of light intensity on photosynthesis and dark respiration in six species of marine plankton. Mar. Biol., 45, 289-295.
Pahl-Wostl C., Imboden D. M. 1990. DYPHORA - a dynamic model for the rate of photosynthesis of algae. J. Plankton Res., 12, 1207-1221.
Platt T., Bird D., Sathyendranath S. 1991. Critical depth and marine production. Proc Royal Soc. London., B, 246, 205-217
Platt T., Woods J.D., Sathyendranath S., Barkmann W. 1994. Net primary production and stratification in the ocean. The Polar Oceans and their role in shaping the global environment. Geophys. Monogr., 85, 247-254.
Smetacek V., Passow U. 1990. Spring bloom initiation and Svedrup’s critical depth model. Limnol . Oceanogr., 35, 228-234.
Steel J.A. 1995. Modelling adaptative phytoplankton in variable environment. Ecol. Modelling, 78, 117-127.
Sverdrup H.U. 1953. On conditions for the vernal blooming of phytoplankton. J. Cons. Perm. Int. Explor. Mer. 18, 287-295.
Szeligiewicz W. 1996. Sverdrup critical depth model reformulation by self-shading effect inclusion. Proc. 3rd European Conf. “Mathematics applied to biology and medicine”, Heidelberg, 6-10 October 1996, 326.
Szeligiewicz W. 1997. Prognozowanie zakwitów: nowe spojrzenie na model głębokości Sverdrupa [Prediction of phytolankton blooms. A new approach to Sverdrup’s critical depth concept]. Mat XVII Zjazdu Hydrobiol. Pol. Poznań 8-11 September 1997. Poznań Pol. Tow. Hydrobiol., 112—113 [in Polish].
Szeligiewicz W. 1998. Phytoplankton blooms predictions - a new turn for Sverdrup’s critical depth concept. Pol. Arch. Hydrobiol., 45, 501-511.
Szeligiewicz W. 1999. Vertical mixing influence on the compensation depth. J. Mar. Syst., 21, 169-177.
Visser P.M., Massault L., Huisman J., Mur L.R. 1996. Sedimentation losses of Scenedesmus in relation to mixing depth. Arch. Hydrobiol., 136, 289-308.
Wallen D.G. 1991. The influence of summer/winter conditions of temperature and irradiance on diel oscillations in photosynthesis by Fragilaria crotonensis. Freshwater Biology, 26, 355-364.
Walsby A.E. 1997. Modelling the daily integral of photosynthesis by phytoplankton: its dependence on the mean depth of the population. Hydrobiologia, 349, 65-74.
Weissing F.J., Huisman J. 1994. Growth and competition in a light gradient. J. Theor . Biol., 168, 323-336.
Wofsy S.C. 1983. A simple model to predict extinction coefficients and phytoplankton biomass in eutrophic waters. Limnol. Oceanogr., 28, 1144-1155.

Relation:

Acta Hydrobiologica

Volume:

Vol. 41

Issue:

Suppl. 6

Start page:

243

End page:

247

Detailed Resource Type:

Article

Resource Identifier:

oai:rcin.org.pl:152185

Source:

Bibl. IOP PAN, sygn. 675/cz

Language:

eng

Language of abstract:

Rights:

Creative Commons Attribution BY 3.0 PL license

Terms of use:

Copyright-protected material. [CC BY 3.0 PL] May be used within the scope specified in Creative Commons Attribution BY 3.0 PL license, full text available at: ; -

Digitizing institution:

Institute of Nature Conservation of the Polish Academy of Science

Original in:

Institute of Nature Conservation of the Polish Academy of Science

Projects co-financed by:

Operational Program Digital Poland, 2014-2020, Measure 2.3: Digital accessibility and usefulness of public sector information; funds from the European Regional Development Fund and national co-financing from the state budget.

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Open

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