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Nutrient Dynamics and Biological Structure in Shallow Freshwater and Brackish Lakes

Über Nutrient Dynamics and Biological Structure in Shallow Freshwater and Brackish Lakes

The nutrient dynamics and biological structure of shallow non-stratified lakes differ markedly from that of deep and stratified lakes: for example, the return of nutrients lost through sedimentation is faster and the potential importance of fish and submerged macrophytes as food-web regulators is greater. In addition shallow lakes are more easily influenced by fluctuations in the physical environment caused by wind disturbance, temperature change, etc. Although shallow lakes are often the most common lake type in lowland countries, less attention has been paid to them than to deep stratified lakes and few comparisons have been made between shallow freshwater and brackish lakes. The volume is divided into five main themes, each introduced by an invited speaker: Nutrient dynamics with special emphasis on sediment water interactions and changes in loading (Professor Lambertus Lyklema); Biological structure and trophic interaction (Professor Stephen T. Threlkeld); Submerged macrophytes: dynamics and role in the lake ecosystems (Ass. Professor Kaj Sand Jensen); Comparison of freshwater and brackish lake ecosystems (Professor Brian Moss); Modelling the impact of nutrients, the biological structure and the recovery process (Dr Marten Scheffer).

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  • Sprache:
  • Englisch
  • ISBN:
  • 9780792326779
  • Einband:
  • Gebundene Ausgabe
  • Seitenzahl:
  • 520
  • Veröffentlicht:
  • 31. März 1994
  • Abmessungen:
  • 215x33x286 mm.
  • Gewicht:
  • 1513 g.
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Verlängerte Rückgabefrist bis 31. Januar 2025

Beschreibung von Nutrient Dynamics and Biological Structure in Shallow Freshwater and Brackish Lakes

The nutrient dynamics and biological structure of shallow non-stratified lakes differ markedly from that of deep and stratified lakes: for example, the return of nutrients lost through sedimentation is faster and the potential importance of fish and submerged macrophytes as food-web regulators is greater. In addition shallow lakes are more easily influenced by fluctuations in the physical environment caused by wind disturbance, temperature change, etc. Although shallow lakes are often the most common lake type in lowland countries, less attention has been paid to them than to deep stratified lakes and few comparisons have been made between shallow freshwater and brackish lakes.
The volume is divided into five main themes, each introduced by an invited speaker: Nutrient dynamics with special emphasis on sediment water interactions and changes in loading (Professor Lambertus Lyklema);
Biological structure and trophic interaction (Professor Stephen T. Threlkeld);
Submerged macrophytes: dynamics and role in the lake ecosystems (Ass. Professor Kaj Sand Jensen);
Comparison of freshwater and brackish lake ecosystems (Professor Brian Moss);
Modelling the impact of nutrients, the biological structure and the recovery process (Dr Marten Scheffer).

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