04935nam 2200637 a 450 991082166710332120200520144314.01-281-30731-997866113073180-08-055035-5(CKB)1000000000411077(EBL)343615(OCoLC)476158853(SSID)ssj0000149710(PQKBManifestationID)11137408(PQKBTitleCode)TC0000149710(PQKBWorkID)10238371(PQKB)11122396(Au-PeEL)EBL343615(CaPaEBR)ebr10225007(MiAaPQ)EBC343615(EXLCZ)99100000000041107720081106d2007 uy 0engur|n|---|||||txtccrEstuarine ecohydrology /Eric Wolanski1st ed.Amsterdam Elsevier20071 online resource (169 p.)Description based upon print version of record.0-444-53066-5 Includes bibliographical references and index.Front Cover; Estuarine Ecohydrology; Copyright Page; About the Author; Table of Contents; Chapter 1 Introduction; 1.1. What is an estuary?; 1.2. Humanity and estuaries; 1.2.1. Sedimentation from sediment eroded from cleared land in the hinterland; 1.2.2. Overfishing and trawling; 1.2.3. Destruction of wetlands; 1.2.4. Eutrophication; 1.2.5. Pollution; 1.2.6. Dams; 1.2.7. Dykes for flood protection; 1.2.8. Human health risks; 1.3. The future of estuaries and the quality of life of the human population living on its shores; 1.4. The solution1.5. Ecohydrology science: the structure of this bookChapter 2 Estuarine water circulation; 2.1. The average residence time; 2.2. The age of water; 2.3. Exposure time vs. residence time; 2.4. Vertical mixing and stratification; 2.5. Lateral stratification, trapping, and shear; 2.6. The importance of the bathymetry on flushing; 2.7. The importance of flows near the river mouth on flushing; 2.8. The special case of lagoons; Chapter 3 Estuarine sediment dynamics; 3.1. Geomorphological time scales; 3.2. Sediment dynamics; 3.2.1. The distinction between mud, silt and sand; 3.2.2. Sand dynamics3.2.3. Mud dynamics3.2.4. Engineering implications; 3.2.5. Biological implications; 3.3. Net sediment budgets; 3.3.1. The age of estuaries; 3.3.2. Net erosion or progradation; 3.3.3. Formation of mudflats; 3.3.4. Formation of tidal wetlands by the vegetation colonizing bare intertidal areas; 3.4. The size of the mouth; Chapter 4 Tidal wetlands; 4.1. Description; 4.2. Hydrodynamics; 4.3. Wave attenuation by wetland vegetation; 4.4. Ecological processes within a tidal wetland; 4.4.1. Mangroves; 4.4.2. Saltmarshes; 4.4.3. Supratidal mudflats4.5. Enhancement of estuarine fisheries productivity by outwelling from tidal wetlands4.6. Groundwater flow; 4.6.1. Mangroves; 4.6.2. Saltmarshes; 4.7. Physics-biology links; Chapter 5 Estuarine food webs; 5.1. Simple food webs; 5.1.1. Definitions; 5.1.2. Clear waters; 5.2. The key role of detritus; 5.3. The role of groundwater; 5.4. Link to pelagic food web (fisheries); 5.5. Estuarine ecology; 5.6. Over-stressed ecosystems; 5.7. Seagrass and coral reefs; Chapter 6 Ecohydrology models; 6.1. Engineering models; 6.2. Ecosystem models; 6.2.1. Predator-prey relationship6.2.2. Estuarine ecosystem models6.2.3. An estuarine ecohydrology model; 6.3. Coral reef ecohydrology model; Chapter 7 Ecohydrology solutions; 7.1. Freshwater; 7.2. Estuaries; 7.3. Coastal waters; 7.4. Managing human health threats; 7.5. Habitat creation; 7.5.1. Saltmarshes; 7.5.2. Mangroves; 7.5.3. Seagrass; 7.5.4. Coral reefs; 7.5.5. Sediment capping; 7.6. Protection against natural hazards; 7.7. A future for estuaries and coastal waters?; References; IndexThis book focuses on the principal components of an estuary. Although each chapter contains rigorous specialist knowledge, it is presented in an accessible way that encourages multidisciplinary collaboration among such fields as hydrology, ecology and mathematical modeling. Estuarine Ecohydrology demonstrates how one can quantify an estuarine ecosystem's ability to cope with human stresses. The theories, models, and real-world solutions presented will serve as a toolkit for designing a management plan for the ecologically sustainable development of an estuary.* Appropriate forEcohydrologyEstuarine ecologyEcohydrology.Estuarine ecology.577.786577.78642.92bclWolanski Eric1611146MiAaPQMiAaPQMiAaPQBOOK9910821667103321Estuarine ecohydrology3939231UNINA