Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/a-generic-shallow-lake-ecosystem-model-based-on-collective-expert-zb0cITJ0Fg
References (79)
-
B. Kosko (1992a)
Fuzzy Expert Systems -
Paul Radomski, T. Goeman (1996)
Decision Making and Modeling in Freshwater Sport-fisheries ManagementFisheries, 21
-
V. Bauer, M. Wegener (1975)
Simulation, evaluation, and conflict analysis in urban planningProceedings of the IEEE, 63
-
E. Jeppesen, J. Jensen, P. Kristensen, M. Søndergaard, E. Mortensen, O. Sortkjær, K. Olrik (1990)
Fish manipulation as a lake restoration tool in shallow, eutrophic, temperate lakes 2: threshold levels, long-term stability and conclusionsHydrobiologia, 200-201
-
(1975)
Input-output models with special reference to the phosphorus loading concept in limnology -
M. Meijer (2000)
Biomanipulation in the Netherlands: 15 years of experience. -
(1975)
Input-output models with specia -
(1982)
1998)Ecology of Freshwaters: Man and Medium and Past to Future. 3 edition -
N. Sidorkewicj, A. cazorla, O. Fernandez (1996)
The interaction between Cyprinus carpio L. and Potamogeton pectinatus L. under aquarium conditionsHydrobiologia, 340
-
Kiyohiko Nakamura, S. Iwai, T. Sawaragi (1982)
Decision Support Using Causation Knowledge BaseIEEE Transactions on Systems, Man, and Cybernetics, 12
-
A. Breukelaar, E. Lammens, J. Breteler, I. Tátrai (1994)
Effects of benthivorous bream (Abramis brama) and carp (Cyprinus carpio) on sediment resuspension and concentrations of nutrients and chlorophyll aFreshwater Biology, 32
-
M. Bougon (1977)
Cognition in Organizations: An Analysis of the Utrecht Jazz Orchestra.Administrative Science Quarterly, 22
-
M. Scheffer, Hosper Sh, Meijer Ml, B. Moss, E. Jeppesen (1993)
Alternative equilibria in shallow lakes.Trends in ecology & evolution, 8 8
-
B. Kosko (1991)
Neural networks and fuzzy systems: a dynamical systems approach to machine intelligence -
(1976)
Plankton modelling in the Bay of Villefranche -
(1998)
Ecology of Freshwaters: Man and Medium and Past to Future. 3 rd edition -
(1985)
Recovery pf Lake Washington from eutr -
B. Moss (1998)
Ecology of Freshwaters: Man and Medium and Past to Future -
E. Jeppesen, J. Jensen, M. Søndergaard, T. Lauridsen (1999)
Trophic dynamics in turbid and clearwater lakes with special emphasis on the role of zooplankton for water clarityHydrobiologia, 408-409
-
Taeho Hong, Ingoo Han (2002)
Knowledge-based data mining of news information on the Internet using cognitive maps and neural networksExpert Syst. Appl., 23
-
V. Bauer (1975)
Portraits of Complexity, Applications of Systems Methodologies to Societal Problems -
S. Weisner, J. Strand, Håkan Sandsten (1997)
Mechanisms regulating abundance of submerged vegetation in shallow eutrophic lakesOecologia, 109
-
B. Boström, M. Jansson, C. Forsberg (1982)
Phosphorus release from lake sedimentsArchive fur Hydrobiologie/Bezihungs Ergebnisse der Limnologie, 18
-
M. Scheffer, A. Bakema, F. Wortelboer (1993)
MEGAPLANT: a simulation model of the dynamics of submerged plantsAquatic Botany, 45
-
E. Jeppesen, J. Jensen, M. Søndergaard, T. Lauridsen, L. Pedersen, L. Jensen (2004)
Top-down control in freshwater lakes: the role of nutrient state, submerged macrophytes and water depthHydrobiologia, 342-343
-
J. Benndorf, H. Kneschke, Kathrin Kossatz, Eckhard Penz (1984)
Manipulation of the Pelagic Food Web by Stocking with Predacious FishesInternational Review of Hydrobiology, 69
-
C. Reynolds, J. Padisák, U. Sommer (2004)
Intermediate disturbance in the ecology of phytoplankton and the maintenance of species diversity: a synthesisHydrobiologia, 249
-
Kathleen Carley, M. Palmquist (1992)
Extracting, Representing, and Analyzing Mental ModelsSocial Forces, 70
-
Rod Taber (1991)
Knowledge processing with Fuzzy Cognitive MapsExpert Systems With Applications, 2
-
H. Sas, I. Ahlgren (1990)
Lake restoration by reduction of nutrient loading: Expectations, experiences, extrapolations, 24
-
J. Connell (1979)
Intermediate-disturbance hypothesis.Science, 204 4399
-
S. M. Brown (1992)
Cognitive mapping and repertory grids for qualitative survey research: Some comparative observationsJournal of Management Studies, 29
-
(1994)
Is biomanipulation a useful technique in lake management? R & D note 276 -
F. Roberts (1973)
Building and Analyzing an Energy Demand Signed DigraphEnvironment and Planning A, 5
-
Uygar Özesmi, Stacy Özesmi (2004)
Ecological models based on people’s knowledge: a multi-step fuzzy cognitive mapping approachEcological Modelling, 176
-
W. James, J. Barko (1990)
Macrophyte influences on the zonation of sediment accretion and composition in a north-temperate reservoirArchiv für Hydrobiologie
-
R. Axelrod (1975)
Structure of Decision: The Cognitive Maps of Political Elites -
(1982)
Phosphorus release from lake sediments. Archive fuer Hydrobiologie/Bezihungs Ergebnisse der Limnologie -
M. Beklioglu, Ö. Ince, I. Tüzün (2003)
Restoration of eutrophic Lake Eymir, Turkey by external nutrient loading control and biomanipulation I: First case study on a warm temperate lakeHydrobiologia, 489
-
B. Hobbs, S. Ludsin, R. Knight, Phil Ryan, J. Biberhofer, J. Ciborowski (2002)
FUZZY COGNITIVE MAPPING AS A TOOL TO DEFINE MANAGEMENT OBJECTIVES FOR COMPLEX ECOSYSTEMSEcological Applications, 12
-
J. Bang-Jensen, Gregory Gutin (2002)
Digraphs - theory, algorithms and applications -
B. Kosko (1993)
ADAPTIVE INFERENCE IN FUZZY KNOWLEDGE NETWORKS -
(1998)
The ecology of shallow lakes -Trophic interactions in the pelagial. Doctor's dissertation (DSc) -
J. Klein, D. Cooper (1982)
Cognitive Maps of Decision-Makers in a Complex GameJournal of the Operational Research Society, 33
-
B. Moss (1990)
Engineering and biological approaches to the restoration from eutrophication of shallow lakes in which aquatic plant communities are important componentsHydrobiologia, 200-201
-
A. Montazemi, D. Conrath (1986)
The Use of Cognitive Mapping for Information Requirements AnalysisMIS Q., 10
-
J. Shapiro, V. Lamarra, M. Lynch (1975)
Water Quality Management through Biological Control, number ENV-07-75-1 -
(2002)
The roles of hydrology and nutrients in alternative equilibria of two shallow lakes of Anatolia, Lake Eymir, and Lake Mogan: Using monitoring and modelling approaches -
F. Skov, Jens‐Christian Svenning (2003)
Predicting plant species richness in a managed forestForest Ecology and Management, 180
-
M. Meijer, M. Haan, A. Breukelaar, H. Buiteveld (2006)
Is reduction of the benthivorous fish an important cause of high transparency following biomanipulation in shallow lakes?Hydrobiologia, 200-201
-
(2003)
A participatory approach to ecosystem conservation: Fuzzy cognitive maps and stakeholder analysis in Uluabat Lake -
J. Horppila, T. Kairesalo (2006)
A fading recovery: the role of roach (Rutilus rutilus L.) in maintaining high phytoplankton productivity and biomass in Lake Vesijärvi, southern FinlandHydrobiologia, 200-201
-
M. Scheffer (1997)
Ecology of Shallow Lakes -
Pierre Cossette, Michel Audet (1992)
MAPPING OF AN IDIOSYNCRATIC SCHEMAJournal of Management Studies, 29
-
Modeling ecosystems from local perspectives: Fuzzy cognitive maps of the Kizilirmak Delta Wetlands in Turkey -
K. Lee, Jinsung Kim, Namho Chung, Soonjae Kwon (2002)
Fuzzy cognitive map approach to web-mining inference amplificationExpert Syst. Appl., 22
-
P. Maitland (1998)
The trophic cascade in lakesBiological Conservation, 83
-
M. Beklioğlu, Laurence Carvalho, B. Moss (1999)
Rapid recovery of a shallow hypertrophic lake following sewage effluent diversion: lack of chemical resilienceHydrobiologia, 412
-
A. Chao, W. -H. Hwang, Y. -C. Chen, C. -Y. Kuo (2000)
Estimating the number of shared species in two communitiesStatistica Sinica, 10
-
L. Hansson, H. Annadotter, E. Bergman, S. Hamrin, E. Jeppesen, T. Kairesalo, E. Luokkanen, P. Nilsson, M. Søndergaard, J. Strand (1998)
Biomanipulation as an Application of Food-Chain Theory: Constraints, Synthesis, and Recommendations for Temperate LakesEcosystems, 1
-
David Malone (1975)
An introduction to the application of interpretive structural modelingProceedings of the IEEE, 63
-
S. Carpenter, J. Kitchell, J. Hodgson (1985)
Cascading Trophic Interactions and Lake ProductivityBioScience, 35
-
Sylvia Brown (1992)
Cognitive mapping and repertory grids for qualitative survey research: some -
Rk Colwell (2005)
EstimateS : Statistical estimation of species richness and shared species from samples, v. 8.0. User's guide and application -
R. M. May (1976)
Thresholds and breakpoints in ecosystems with a multiplicity of stable statesNature, 269
-
Recovery pf Lake Washington from eutrophication. Pages 228-234 in Proceedings from lakes pollution and recovery -
C. O. Tan, M. Beklioglu (2005)
Catastrophic-like shifts in shallow Turkish lakes: A modelling approachEcological Modelling, 183
-
Jingjie Zhang, S. Jørgensen, C. Tan, M. Beklioğlu (2003)
A structurally dynamic modelling—Lake Mogan, Turkey as a case studyEcological Modelling, 164
-
B. Kosko (1986)
Fuzzy Cognitive MapsInt. J. Man Mach. Stud., 24
-
S. Burnak, M. Beklioğlu (2000)
Macrophyte-dominated Clearwater State of Lake MoganTurkish Journal of Zoology, 24
-
E. Donk, W. Bund (2002)
Impact of submerged macrophytes including charophytes on phyto- and zooplankton communities: allelopathy versus other mechanismsAquatic Botany, 72
-
J. Shapiro, V. Lamarra, M. Lynch (1975)
Biomanipulation: an ecosystem approach to lake restoration -
J. Hart (1977)
Cognitive Maps of Three Latin American Policy MakersWorld Politics, 30
-
S. Hosper (1989)
Biomanipulation, new perspectives for restoration of shallow, eutrophic lakes in The NetherlandsHydrobiological Bulletin, 23
-
B. Farbey (1966)
Structural Models: An Introduction to the Theory of Directed GraphsJournal of the Operational Research Society, 17
-
(1984)
Prevention of growth of potentially dense phytoplankton by zooplankton grazing, in the presence of zooplanktivorous fish, in a shallow wetland system -
B. Kosko (1988)
Hidden patterns in combined and adaptive knowledge networksInt. J. Approx. Reason., 2
-
(1992)
Fuzzy associative memory systems, Pages 135-162 in -
(1977)
Phytoplankton population changes and nutrient fluctuations in a simple aquatic ecosystem model
- Publisher
- Springer Journals
- Copyright
- Copyright © 2006 by Springer
- Subject
- Life Sciences; Freshwater & Marine Ecology; Ecology; Zoology
- ISSN
- 0018-8158
- eISSN
- 1573-5117
- DOI
- 10.1007/s10750-005-1397-5
- Publisher site
- See Article on Publisher Site
Abstract
We used fuzzy cognitive mapping (FCM) to develop a generic shallow lake ecosystem model by augmenting the individual cognitive maps drawn by 8 scientists working in the area of shallow lake ecology. We calculated graph theoretical indices of the individual cognitive maps and the collective cognitive map produced by augmentation. There were a total of 32 variables with 113 connections in the collective cognitive map. The graph theoretical indices revealed internal cycles showing non-linear dynamics in the shallow lake ecosystem. The ecological processes were organized democratically without a top-down hierarchical structure. The most central variable in the collective map was submerged plants. The strongest connections were suspended solids concentration decreasing water clarity, phosphorus concentration increasing the phytoplankton biomass, higher water clarity increasing submerged plants, benthivorous fish biomass reducing submerged plants and increasing suspended solids concentration, and submerged plants decreasing suspended solids. The steady state condition of the generic model was a characteristic turbid shallow lake ecosystem. The generic shallow lake ecosystem model had the tendency to go into a turbid state since there were no dynamic environmental changes that could cause shifts between a turbid and a clearwater state, and the generic model indicated that only a dynamic disturbance regime could maintain the clearwater state. The model developed herein captured the empirical behavior of shallow lakes, and contained the basic model of the Alternative Stable States Theory. In addition, our model expanded the basic model by quantifying the relative effects of connections and by extending it with 22 more variables and 99 more weighted causal connections. Using our expanded model we ran 4 simulations: harvesting submerged plants, nutrient reduction, fish removal without nutrient reduction, and biomanipulation. Only biomanipulation, which included fish removal and nutrient reduction, had the potential to shift the turbid state into clearwater state. The structure and relationships in the generic model as well as the outcomes of the management simulations were supported by actual field studies in shallow lake ecosystems. Thus, fuzzy cognitive mapping methodology enabled us to understand the complex structure of shallow lake ecosystems as a whole and obtain a valid generic model based on tacit knowledge of experts in the field.
Journal
Hydrobiologia – Springer Journals
Published: Mar 29, 2006