Modeling and managing shallow lake eutrophication : with application to Lake Balaton

Bibliographic Information

Modeling and managing shallow lake eutrophication : with application to Lake Balaton

editors, L. Somlyódy and G. van Straten

Springer-Verlag, c1986

  • : gw
  • : us
  • : [pbk.]

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Includes bibliographies and index

Description and Table of Contents

Volume

: gw ISBN 9783540162278

Description

In the late 1970s. the adverse effects of man-made eutrophication became manifest in many countries. which explains. perhaps. why there was such a broad interest when the former Resources and Environment Area of the International Institute for Applied Systems Analysis (IIASA) organized a workshop on the subject. There was such an enthusiasm among the partici- pants that two further workshops were quickly organized. one on deep and the other on shallow lake eutrophication problems. The organization of these meetings was extremely stimulating. and the round table discussions among scientists from both West and East remain thought provoking for those who took part. The general feeling emerged that the complexity and multifaceted nature of the problem, even though perhaps not fully recognized at that time. clearly demanded a systems analysis approach. No wonder. then. that the request made by the Hungarian Member Organization of nASA to adopt Lake Balaton as a "real life laboratory" for an nASA case study fell on fertile ground. the more so since it appeared that shallow lake eutrophication had received less attention and was less well understood than that of deep lakes. And so the nASA Lake Balaton Case Study began. with the appointment of Gerrit van Straten as the first leader of the project.

Table of Contents

One: Problem, Methodology, and Management.- 1 Background to the Lake Balaton Eutrophication Problem.- 2 The Approach.- 3 Lake Eutrophication Models.- 4 Eutrophication Management Models.- 5 Impact on Policymaking: Background to a Government Decision.- Two: Description of Processes and Subsystems.- 6 Nutrient Loads.- 7 Sediment and Its Interaction with Water.- 8 Phytoplankton Changes During Eutrophication and P and N Metabolism.- 9 Wind-Induced Water Motion.- 10 Lake Eutrophication Model: A Coupled Hydrophysical-Ecological Model.- Three: Selected Topics.- 11 Hypothesis Testing and Parameter Uncertainty Analysis in Simple Phytoplankton-P Models.- 12 A Complex Model for Simulating the Lake Balaton Ecosystem.- 13 A Comparison of Water Quality Models and Load Reduction Predictions.- 14 Role of the Zala River in the Eutrophication of Lake Balaton.- 15 The Influence of Watershed Development on the Long-Term Eutrophication of Lake Balaton.
Volume

: [pbk.] ISBN 9783642827099

Description

In the late 1970s. the adverse effects of man-made eutrophication became manifest in many countries. which explains. perhaps. why there was such a broad interest when the former Resources and Environment Area of the International Institute for Applied Systems Analysis (IIASA) organized a workshop on the subject. There was such an enthusiasm among the partici pants that two further workshops were quickly organized. one on deep and the other on shallow lake eutrophication problems. The organization of these meetings was extremely stimulating. and the round table discussions among scientists from both West and East remain thought provoking for those who took part. The general feeling emerged that the complexity and multifaceted nature of the problem, even though perhaps not fully recognized at that time. clearly demanded a systems analysis approach. No wonder. then. that the request made by the Hungarian Member Organization of nASA to adopt Lake Balaton as a "real life laboratory" for an nASA case study fell on fertile ground. the more so since it appeared that shallow lake eutrophication had received less attention and was less well understood than that of deep lakes. And so the nASA Lake Balaton Case Study began. with the appointment of Gerrit van Straten as the first leader of the project.

Table of Contents

One: Problem, Methodology, and Management.- 1 Background to the Lake Balaton Eutrophication Problem.- 2 The Approach.- 3 Lake Eutrophication Models.- 4 Eutrophication Management Models.- 5 Impact on Policymaking: Background to a Government Decision.- Two: Description of Processes and Subsystems.- 6 Nutrient Loads.- 7 Sediment and Its Interaction with Water.- 8 Phytoplankton Changes During Eutrophication and P and N Metabolism.- 9 Wind-Induced Water Motion.- 10 Lake Eutrophication Model: A Coupled Hydrophysical-Ecological Model.- Three: Selected Topics.- 11 Hypothesis Testing and Parameter Uncertainty Analysis in Simple Phytoplankton-P Models.- 12 A Complex Model for Simulating the Lake Balaton Ecosystem.- 13 A Comparison of Water Quality Models and Load Reduction Predictions.- 14 Role of the Zala River in the Eutrophication of Lake Balaton.- 15 The Influence of Watershed Development on the Long-Term Eutrophication of Lake Balaton.

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