Marknadens största urval
Snabb leverans

Ecological Comparisons of Sedimentary Shores

Ecological Comparisons of Sedimentary Shoresav Karsten Reise
Om Ecological Comparisons of Sedimentary Shores

I Suspension Feeders in Coastal Mud and Sand.- 1 Benthic Suspension Feeders as Determinants of Ecosystem Structure and Function in Shallow Coastal Waters.- 1.1 Introduction.- 1.2 Reefs and Beds.- 1.2.1 Bivalve Molluscs (Bivalvia).- 1.2.2 Vermetids (Gastropoda).- 1.2.3 Sabellids (Polychaeta).- 1.2.4 Serpulids (Polychaeta).- 1.3 Encrustations.- 1.4 Species Groups.- 1.5 Discussion.- References.- 2 Dynamics of Spatial and Temporal Complexity in European and North American Soft-Bottom Mussel Beds.- 2.1 Introduction.- 2.2 The Dynamic Nature of Mussel-Bed Structure.- 2.3 Quantifying Mussel-Bed Structure Using Fractal Geometry.- 2.4 Effects of Mussel Beds on Soft-Bottom Community Structure.- 2.5 Mechanisms of Mussel-Bed Impacts on Soft-Bottom Community Structure.- 2.6 Top-Down vs. Bottom-Up Control of Soft-Bottom Mussel-Bed Community Structure.- 2.7 Conclusions.- References.- 3 Suspension Feeders on Sandy Beaches.- 3.1 Introduction.- 3.2 Beach Morphodynamic Types vs. Community Structure of the Macroinfauna.- 3.3 Beach Morphodynamic Types and Abundances and Population Biology of E. analoga.- 3.4 Tidal Movements and Burrowing Behaviour.- 3.5 Across-and Along-Shore Zonation.- 3.6 Conclusions.- 3.6 References.- 4 Switching Between Deposit and Suspension Feeding in Coastal Zoobenthos.- 4.1 Overview.- 4.1.1 Polychaetes.- 4.1.2 Echinoderms.- 4.1.3 Bivalves.- 4.1.4 Amphipods.- 4.1.5 Soft Corals.- 4.1.6 Most Examples Among Passive Suspension Feeders.- 4.1.7 Adaptation to Suspension Feeding.- 4.2 Example I: Switching to Suspension Feeding in Nereis diversicolor.- 4.2.1 Suspension-Feeding Behaviour.- 4.2.2 Mucus-Net and Particle-Retention Efficiency.- 4.2.3 Filtration Rates.- 4.2.4 Energy Cost of Pumping.- 4.2.5 Adaptation to Suspension Feeding.- 4.2.6 Time Spent on Suspension Feeding.- 4.2.7 Phytoplankton Reduction in Near-Bottom Water.- 4.3 Example II: Switching to Suspension Feeding in Macoma balthica.- 4.3.1 Switching to Suspension Feeding.- 4.3.2 Current Velocity.- 4.3.3 Food Availability.- 4.3.4 Feeding on Siphon Tips.- 4.3.5 Protection Against Lethal Predation.- 4.4 Conclusions.- References.- II Biogenic Stabilization and Disturbances in Coastal Sediments.- 5 Microphytobenthos in Contrasting Coastal Ecosystems: Biology and Dynamics.- 5.1 Contrasting Shores.- 5.2 The Microphytobenthos.- 5.3 Physical and Biological Sediment Properties.- 5.3.1 Sediment Types and Stability.- 5.3.2 Physical Dynamics.- 5.4 Redefining Intertidal Sediments - The Five Phases of Depositional Environments.- 5.5 Comparative Biodiversity.- 5.5.1 Non-cohesive Sediments.- 5.5.2 Cohesive Sediments.- 5.5.3 Niche Diversity.- 5.6 Sediment Stability.- 5.7 Conceptual Model.- 5.8 Conclusions.- References.- 6 Sediment Dynamics by Bioturbating Organisms.- 6.1 Introduction.- 6.2 History of Bioturbation Research.- 6.3 Types of Bioturbation.- 6.3.1 Crawling and Dwelling Traces.- 6.3.2 Deposit Feeders.- 6.3.3 Larger Predators and Grazers.- 6.4 Seasonal Variation.- 6.5 Latitudinal Variation.- 6.6 Changes in Historical Times.- 6.7 Conclusions.- References.- 7 Competitive Bioturbators on Intertidal Sand Flats in the European Wadden Sea and Ariake Sound in Japan.- 7.1 Introduction.- 7.2 Large Bioturbators.- 7.3 Lugworms in the Wadden Sea.- 7.4 Effects of Lugworms on the Benthic Community.- 7.5 Ghost Shrimps in the Ariake Sound Estuarine System in Japan.- 7.6 Effects of the Ghost Shrimp Expansion and Decline.- 7.6.1 Effects on Sediment Properties.- 7.6.2 Effects on Invertebrates.- 7.7 Comparisons Between Biogeographic Regions.- References.- 8 Biological and Physical Processes That Affect Saltmarsh Erosion and Saltmarsh Restoration: Development of Hypotheses.- 8.1 Introduction.- 8.2 Managed Realignment.- 8.2.1 Physical Factors.- 8.2.2 Biological Factors.- 8.2.2.1 Effects of the Flora.- 8.2.2.2 Effects of Invertebrates.- 8.3 Managing Sediment Accretion and Development of Saltmarsh Vegetation in Managed Realignment Sites.- 8.3.1 Physical Factors.- 8.3.2 Biological Factors.- 8.4 Loss of S...

Visa mer
  • Språk:
  • Engelska
  • ISBN:
  • 9783540412540
  • Format:
  • Inbunden
  • Sidor:
  • 412
  • Utgiven:
  • 15. juni 2001
  • Mått:
  • 156x234x24 mm.
  • Vikt:
  • 753 g.
Leveranstid: 2-4 veckor
Förväntad leverans: 29. januari 2025

Beskrivning av Ecological Comparisons of Sedimentary Shores

I Suspension Feeders in Coastal Mud and Sand.- 1 Benthic Suspension Feeders as Determinants of Ecosystem Structure and Function in Shallow Coastal Waters.- 1.1 Introduction.- 1.2 Reefs and Beds.- 1.2.1 Bivalve Molluscs (Bivalvia).- 1.2.2 Vermetids (Gastropoda).- 1.2.3 Sabellids (Polychaeta).- 1.2.4 Serpulids (Polychaeta).- 1.3 Encrustations.- 1.4 Species Groups.- 1.5 Discussion.- References.- 2 Dynamics of Spatial and Temporal Complexity in European and North American Soft-Bottom Mussel Beds.- 2.1 Introduction.- 2.2 The Dynamic Nature of Mussel-Bed Structure.- 2.3 Quantifying Mussel-Bed Structure Using Fractal Geometry.- 2.4 Effects of Mussel Beds on Soft-Bottom Community Structure.- 2.5 Mechanisms of Mussel-Bed Impacts on Soft-Bottom Community Structure.- 2.6 Top-Down vs. Bottom-Up Control of Soft-Bottom Mussel-Bed Community Structure.- 2.7 Conclusions.- References.- 3 Suspension Feeders on Sandy Beaches.- 3.1 Introduction.- 3.2 Beach Morphodynamic Types vs. Community Structure of the Macroinfauna.- 3.3 Beach Morphodynamic Types and Abundances and Population Biology of E. analoga.- 3.4 Tidal Movements and Burrowing Behaviour.- 3.5 Across-and Along-Shore Zonation.- 3.6 Conclusions.- 3.6 References.- 4 Switching Between Deposit and Suspension Feeding in Coastal Zoobenthos.- 4.1 Overview.- 4.1.1 Polychaetes.- 4.1.2 Echinoderms.- 4.1.3 Bivalves.- 4.1.4 Amphipods.- 4.1.5 Soft Corals.- 4.1.6 Most Examples Among Passive Suspension Feeders.- 4.1.7 Adaptation to Suspension Feeding.- 4.2 Example I: Switching to Suspension Feeding in Nereis diversicolor.- 4.2.1 Suspension-Feeding Behaviour.- 4.2.2 Mucus-Net and Particle-Retention Efficiency.- 4.2.3 Filtration Rates.- 4.2.4 Energy Cost of Pumping.- 4.2.5 Adaptation to Suspension Feeding.- 4.2.6 Time Spent on Suspension Feeding.- 4.2.7 Phytoplankton Reduction in Near-Bottom Water.- 4.3 Example II: Switching to Suspension Feeding in Macoma balthica.- 4.3.1 Switching to Suspension Feeding.- 4.3.2 Current Velocity.- 4.3.3 Food Availability.- 4.3.4 Feeding on Siphon Tips.- 4.3.5 Protection Against Lethal Predation.- 4.4 Conclusions.- References.- II Biogenic Stabilization and Disturbances in Coastal Sediments.- 5 Microphytobenthos in Contrasting Coastal Ecosystems: Biology and Dynamics.- 5.1 Contrasting Shores.- 5.2 The Microphytobenthos.- 5.3 Physical and Biological Sediment Properties.- 5.3.1 Sediment Types and Stability.- 5.3.2 Physical Dynamics.- 5.4 Redefining Intertidal Sediments - The Five Phases of Depositional Environments.- 5.5 Comparative Biodiversity.- 5.5.1 Non-cohesive Sediments.- 5.5.2 Cohesive Sediments.- 5.5.3 Niche Diversity.- 5.6 Sediment Stability.- 5.7 Conceptual Model.- 5.8 Conclusions.- References.- 6 Sediment Dynamics by Bioturbating Organisms.- 6.1 Introduction.- 6.2 History of Bioturbation Research.- 6.3 Types of Bioturbation.- 6.3.1 Crawling and Dwelling Traces.- 6.3.2 Deposit Feeders.- 6.3.3 Larger Predators and Grazers.- 6.4 Seasonal Variation.- 6.5 Latitudinal Variation.- 6.6 Changes in Historical Times.- 6.7 Conclusions.- References.- 7 Competitive Bioturbators on Intertidal Sand Flats in the European Wadden Sea and Ariake Sound in Japan.- 7.1 Introduction.- 7.2 Large Bioturbators.- 7.3 Lugworms in the Wadden Sea.- 7.4 Effects of Lugworms on the Benthic Community.- 7.5 Ghost Shrimps in the Ariake Sound Estuarine System in Japan.- 7.6 Effects of the Ghost Shrimp Expansion and Decline.- 7.6.1 Effects on Sediment Properties.- 7.6.2 Effects on Invertebrates.- 7.7 Comparisons Between Biogeographic Regions.- References.- 8 Biological and Physical Processes That Affect Saltmarsh Erosion and Saltmarsh Restoration: Development of Hypotheses.- 8.1 Introduction.- 8.2 Managed Realignment.- 8.2.1 Physical Factors.- 8.2.2 Biological Factors.- 8.2.2.1 Effects of the Flora.- 8.2.2.2 Effects of Invertebrates.- 8.3 Managing Sediment Accretion and Development of Saltmarsh Vegetation in Managed Realignment Sites.- 8.3.1 Physical Factors.- 8.3.2 Biological Factors.- 8.4 Loss of S...

Användarnas betyg av Ecological Comparisons of Sedimentary Shores



Gör som tusentals andra bokälskare

Prenumerera på vårt nyhetsbrev för att få fantastiska erbjudanden och inspiration för din nästa läsning.