Biogeochemistry of Wetlands: Science and ApplicationsCRC Press, 2008 M07 28 - 800 páginas Wetland ecosystems maintain a fragile balance of soil, water, plant, and atmospheric components in order to regulate water flow, flooding, and water quality. Marginally covered in traditional texts on biogeochemistry or on wetland soils, Biogeochemistry of Wetlands is the first to focus entirely on the biological, geological, physical, and chemical |
Contenido
Chapter 1 Introduction | 1 |
Chapter 2 Basic Concepts and Terminology | 7 |
Chapter 3 Biogeochemical Characteristics | 27 |
Chapter 4 Electrochemical Properties | 67 |
Chapter 5 Carbon | 111 |
Chapter 6 Oxygen | 185 |
Chapter 7 Adaptation of Plants to Soil Anaerobiosis | 215 |
Chapter 8 Nitrogen | 257 |
Chapter 13 Toxic Organic Compounds | 507 |
Chapter 14 Soil and Floodwater Exchange Processes | 537 |
Chapter 15 Biogeochemical Indicators | 575 |
Chapter 16 Wetlands and Global Climate Change | 599 |
The Everglades | 623 |
Mississippi River Deltaic Plain Coastal Marshes Louisiana | 669 |
Chapter 19 Advances in Biogeochemistry | 703 |
| 719 | |
Chapter 9 Phosphorus | 325 |
Chapter 10 Iron and Manganese | 405 |
Chapter 11 Sulfur | 447 |
Chapter 12 MetalsMetalloids | 477 |
| 757 | |
Back cover | 781 |
Otras ediciones - Ver todas
Biogeochemistry of Wetlands: Science and Applications K. Ramesh Reddy,Ronald D. DeLaune,Patrick W. Inglett Vista previa limitada - 2022 |
Biogeochemistry of Wetlands: Science and Applications K. Ramesh Reddy,Ronald D. DeLaune,Patrick W. Inglett Sin vista previa disponible - 2022 |
Biogeochemistry of Wetlands: Science and Applications K. Ramesh Reddy,R. D. DeLaune,Patrick W. Inglett Sin vista previa disponible - 2022 |
Términos y frases comunes
accumulation acids activity aerobic ammonium amount anaerobic aquatic areas atmosphere availability bacteria biogeochemical biomass carbon carbon dioxide cell changes Chapter chemical coastal communities complex compounds concentration cycling decomposition decrease depends determine detrital diffusion dissolved ecosystem effect electron acceptors energy environment enzymes et al Everglades example exchange factors Fe(III Figure flooded flux forms function glucose groups impact important increase indicators influence inorganic involved iron layer less levels limited loading major manganese marsh material measured metals methane microbial mineral nitrate nitrogen nutrient occur organic matter oxidation oxygen phosphate phosphorus plant pore water precipitation present processes production range rates ratio reactions Reddy redox redox potential reduction reference regulating release result root salt sediment showing shown significant soluble solution studies substrates sulfate sulfide sulfur surface Table temperature tion toxic transport values various vegetation water column wetland soils zone
Pasajes populares
Página 739 - Liu, WT, Marsh, TL, Cheng, H. and Forney, LJ 1997. "Characterization of microbial diversity by determining terminal restriction fragment length polymorphisms of genes encoding 16S rRNA.
Página 730 - Froelich, PN (1988) Kinetic control of dissolved phosphate in natural rivers and estuaries: a primer on the phosphate buffer mechanism.
Referencias a este libro
Soil Genesis and Classification Stanley W. Buol,Randal J. Southard,Robert C. Graham,Paul A. McDaniel Sin vista previa disponible - 2003 |