Ecology of Freshwater and Estuarine WetlandsDr. Darold P. Batzer, Rebecca R. Sharitz Univ of California Press, 2014 M12 6 - 372 páginas This second edition of this important and authoritative survey provides students and researchers with up-to-date and accessible information about the ecology of freshwater and estuarine wetlands. Prominent scholars help students understand both general concepts of different wetland types as well as complex topics related to these dynamic physical environments. Careful syntheses review wetland soils, hydrology, and geomorphology; abiotic constraints for wetland plants and animals; microbial ecology and biogeochemistry; development of wetland plant communities; wetland animal ecology; and carbon dynamics and ecosystem processes. In addition, contributors document wetland regulation, policy, and assessment in the US and provide a clear roadmap for adaptive management and restoration of wetlands. New material also includes an expanded review of the consequences for wetlands in a changing global environment. Ideally suited for wetlands ecology courses, Ecology of Freshwater and Estuarine Wetlands, Second Edition, includes updated content, enhanced images (many in color), and innovative pedagogical elements that guide students and interested readers through the current state of our wetlands. |
Dentro del libro
Resultados 1-5 de 86
Página 5
... reduces decomposition rates, enabling peat accumulation. Sphagnum also maintains waterlogging in the substrate. its ... reduced oxygen consumption, and a leakage of oxygen from the roots to the rhizosphere. Many bog plants also have ...
... reduces decomposition rates, enabling peat accumulation. Sphagnum also maintains waterlogging in the substrate. its ... reduced oxygen consumption, and a leakage of oxygen from the roots to the rhizosphere. Many bog plants also have ...
Página 6
... reduced, roots of the recovering plants may be able to reach mineral soils. Severe burns that destroy peat substrates lead to development of a nonpocosin community, such as a marsh. Pocosins temporarily hold water, especially during ...
... reduced, roots of the recovering plants may be able to reach mineral soils. Severe burns that destroy peat substrates lead to development of a nonpocosin community, such as a marsh. Pocosins temporarily hold water, especially during ...
Página 9
... reduces their water-storage capacity, and destruction of natural vegetation buffers around remaining wetlands has significantly reduced valuable waterfowl nesting and rearing areas (tiner 2003). like all depressional wetlands, prairie ...
... reduces their water-storage capacity, and destruction of natural vegetation buffers around remaining wetlands has significantly reduced valuable waterfowl nesting and rearing areas (tiner 2003). like all depressional wetlands, prairie ...
Página 10
... reduced the extent of these ecosystems, and the largest remaining complexes are found in the open lands of military facilities. Seasonal woodland pools occur throughout forested regions of the eastern United States and southeastern ...
... reduced the extent of these ecosystems, and the largest remaining complexes are found in the open lands of military facilities. Seasonal woodland pools occur throughout forested regions of the eastern United States and southeastern ...
Página 25
... reduced, became soluble, and translocated within the soil, usually because of saturated and anaerobic conditions. Uniform low-chroma colors are typical of prolonged saturated and anaerobic conditions in the soil. a mottled color pattern ...
... reduced, became soluble, and translocated within the soil, usually because of saturated and anaerobic conditions. Uniform low-chroma colors are typical of prolonged saturated and anaerobic conditions in the soil. a mottled color pattern ...
Contenido
1 | |
23 | |
3 Abiotic Constraints for Wetland Plants and Animals | 61 |
4 Wetland Microbial Ecology and Biogeochemistry | 87 |
5 Development of Wetland Plant Communities | 133 |
6 Wetland Animal Ecology | 151 |
7 Carbon Dynamics and Ecosystem Processes | 185 |
8 United States Wetland Regulation Policy and Assessment | 203 |
9 Wetland Restoration | 225 |
10 Consequences for Wetlands of a Changing Global Environment | 261 |
LITERATURE CITED | 287 |
INDEX | 353 |
Otras ediciones - Ver todas
Ecology of Freshwater and Estuarine Wetlands Darold P. Batzer,Rebecca R. Sharitz Vista previa limitada - 2014 |
Ecology of Freshwater and Estuarine Wetlands Darold P. Batzer,Rebecca R. Sharitz Vista previa limitada - 2006 |
Términos y frases comunes
acidic adapted algae amphibian anaerobic andJ aquatic areas assessment bacteria Batzer benthic biogeochemical Biology biomass birds bogs Bridgham cell chroma climate change coastal wetlands cycle decomposition detritus diversity dynamics Ecology ecosystem effects environmental environments estuarine Everglades example fish flooding floodplain flow food webs forest freshwater wetlands function fungi Galatowitsch global groundwater growth habitat heterotrophic hydric soils hydrologic hydropattern hydroperiod impacts important increase invasive species invertebrates Journal lakes land landscape layer litter macrophytes mangrove metabolism methane microbial microbial loop mineral nitrogen nutrient occur organic matter oxidation oxygen peat peatlands plant communities plant litter ponds potential prairie potholes predators processes production rates redox reduced region respiration restored wetlands river roots salinity salt marshes sea level sediment soil surface swamps terrestrial tidal tion trophic United USACE vegetation water table wetland animals wetland plants wetland restoration wetland soils wetland types wetlands Wissinger Zedler