Modelling of water circulation and the dynamics of phytoplankton for the analysis of eutrophication
No Thumbnail Available
URL
Journal Title
Journal ISSN
Volume Title
Doctoral thesis (article-based)
Checking the digitized thesis and permission for publishing
Instructions for the author
Instructions for the author
Unless otherwise stated, all rights belong to the author. You may download, display and print this publication for Your own personal use. Commercial use is prohibited.
Authors
Date
2001-10-26
Major/Subject
Mcode
Degree programme
Language
en
Pages
14, [81]
Series
Research reports / Helsinki University of Technology, Systems Analysis Laboratory. A, 82
Abstract
The eutrophication and algal blooms are problems in many Finnish lakes and sea areas. One possible way to approach the problem is mathematical modelling. If the most important processes have been successfully modelled, it is easy to calculate the effects of nutrient load changes. This thesis presents experiences on developing and applying eutrophication models. The pre-calculated flow fields are the most important input to the water quality model, so the applications of the flow model are examined in two papers. The results indicate that the flow model can produce typical flows caused by wind. The simulations of the timing of upwelling were also successful. The excessive vertical diffusion can cause problems in eutrophication model applications. The results of simulations indicate that the greenhouse effect will advance and enlarge the spring bloom of phytoplankton. However, the average phytoplankton biomass in the Gulf of Finland will be near current level, defined in these scenarios by the available amount of nutrients almost unchanged due to the insignificant changes in the external nutrient inputs. The more significant nutrient load reductions from the major loading points have a clearly decreasing effect on the total algal biomasses even in one year long simulations. When the nitrogen fixing cyanobacteria was taken into account in the simulation, the results indicated that the phosphorus removal from St. Petersburg would decrease both average cyanobacteria and other algae biomasses. The biomass of other algae might increase in the zone where additional nitrogen is transported from the east. The Finnish national agenda, which is nitrogen dominated, does not seem to be an effective way to fight against accumulations of cyanobacteria. However, the total phytoplankton biomass will decrease near the Finnish coast.Description
Keywords
phytoplankton dynamics, hydrodynamics, load reductions, eutrophication, nutrients, Gulf of Finland
Other note
Parts
- Inkala A., Myrberg K. 2001 Comparison of hydrodynamical models of the Gulf of Finland in 1995 - a case study, Systems Analysis Laboratory Research Reports E9, September 2001, Helsinki University of Technology, (submitted also to Environmental Modelling & Software). [article1.pdf] © 2001 by authors.
- Inkala A., Kuusisto M., Sarkkula J., Koponen J. 1999, Currents and transport of sewage water in the coastal area of Vaasa, Northern Baltic Sea - a study with current measurements and modelling, Proceedings of the 3rd International Marine Environmental Modelling Seminar '99, 12-14.4.1999, Lillehammer, Norway. [article2.pdf] © 1999 SINTEF. By permission.
- Inkala A., Hellsten S., Heikkinen M. 1998, Integrated 3D Modelling of Water Circulation and the Dynamics of Phytoplankton; the Effects of New Reservoir, Internat. Rev. Hydrobiol. 83:681-688. [article3.pdf] © 1998 Wiley-VCH Verlag Berlin GmbH. By permission. Wiley InterScience
- Inkala A., Bilaletdin Ä., Podsetchine V., 1997, Modelling the effect of climate change on nutrient loading, temperature regime, and algal biomass in the Gulf of Finland, Boreal Environment Research 2:287-301. [article4.pdf] © 1997 Boreal Environment Research. By permission.
- Inkala A., Pitkänen H. 1999, The effect of load reductions on algal biomass in the eastern Gulf of Finland - modelling point of view, Boreal Environment Research 4:357-366. [article5.pdf] © 1999 Boreal Environment Research. By permission.
- Kiirikki M., Inkala A., Kuosa H., Pitkänen H., Kuusisto M., Sarkkula J. 2001, Evaluating the effects of nutrient load reductions on the biomass of toxic nitrogen-fixing cyanobacteria in the Gulf of Finland, Boreal Environment Research 6:131-146. [article6.pdf] © 2001 Boreal Environment Research. By permission.