Description
SPRINGER Becher Wetlands - A Ramsar Site (Wetlands Ecology Conservation And Management Volume 1) by SEMENIUK CHRISTINE
This is a landmark study of the Holocene evolution and functioning of a suite of seasonal wetland basins in the temperate coastal zone of Western Australia, which were added to the the Ramsar List of Wetlands of International Importance because of their setting, their method of formation and deepening, their history of infilling, their complex hydrological mechanisms, and their dynamic hydrochemical and vegetation responses. 1. Introduction. 1.1 General introduction . 1.1.1 This study. 1.2 Location of study area. 1.3 Objectives. 1.4 Nature and scope of study. 1.5 History of work in similar areas.- 2. Terminology and methods. 2.1 General introduction. 2.2 Local scale wetland classification systems. 2.2.1 Local scale wetland classification. 2.2.2 Local scale wetland vegetation classification system. 2.2.3 Wetland sediment terminology. 2.3 Terminology. 2.4 Methods. 2.4.1 Introduction. 2.4.2 Wetland mapping, selection of wetlands for study, and description. 2.4.3 Wetland stratigraphy. Regional and sub-regional scale. Local scale (wetland and adjacent beachridges). Basin scale. Bedding scale. 2.4.4 Wetland hydrology. Regional and sub-regional scale. Local scale (wetland and adjacent beachridges). Basin scale. Bedding scale. 2.4.5 Wetland hydrochemistry. Regional to sub-regional scale. Local scale (wetland and adjacent beachridges). Basin scale. Bedding scale. 2.4.6 Wetland vegetation (including pollen). Regional and sub-regional scale. Local scale (wetland and adjacent beachridges). Basin scale. 2.4.7 Experiments. Experiment 1. Experiment 2. Experiment 3. Experiment 4.- 3. Regional setting. 3.1 Introduction. 3.2 The Swan Coastal Plain. 3.2.1 Climate. 3.2.2 Geology. 3.2.3 Geomorphology. 3.2.4 Hydrology. 3.2.5 Coastal sectors and nearshore morphology. 3.3 The Rockingham-Becher Plain. 3.3.1 The Rockingham-Becher Plain - coastal sector. 3.3.2 The Rockingham-Becher Plain - offshore oceanography. 3.3.3 The Rockingham-Becher Plain - geometry. 3.3.4 The Rockingham-Becher Plain - geomorphology. 3.3.5 The Rockingham-Becher Plain - stratigraphy. 3.3.6 The Rockingham-Becher Plain - surface and groundwater hydrology. 3.3.7 The Rockingham-Becher Plain - wetlands. 3.3.8. The Rockingham-Becher Plain - evolutionary environmental history relating to beachridge and swale development. 3.4 The Becher Cusp. 3.4.1 The Becher Cusp - geometry and terminology. 3.4.2 The Becher Cusp - geomorphology. 3.4.3 The Becher Cusp - stratigraphy and soils. Soils. 3.4.4 The Becher Cusp - hydrology. Wetlands. 3.4.5 The Becher Cusp - vegetation.- 4. Database. 4.1 General introduction. 4.2 Radiocarbon dates. 4.3 General notes on biota.- 5. Development of wetland proto-type: geomorphology, basal sheet, hydrology. 5.1 General introduction. 5.2 Beachridges and swales. 5.2.1 Definition of shore parallel ridges. 5.2.2 Beachridges and swales of the Becher cuspate foreland: morphology. 5.2.3 Processes for constructing beachridges. Sediment source and supply. Nearshore profile. Mound nuclei. Repetitive formational agent. 5.2.4 Evolutionary environmental history relating to beachridge and swale development. Rate of beachridge development. 5.2.5 The higher set of beachridges. Cyclic storm activity and increased wave energy. Changes to sediment supply. A change in refraction intensity. Sea level changes. 5.2.6 The modern beachridges. 5.2.7 The development of beachridge swales. 5.2.8 Development of proto-wetland basins. 5.3 Wetlands. 5.3.1 Introduction. 5.3.2 Basal sediments. Descriptions of histograms. Description of grain size distributions using modern analogues. Comparison between basal sediments and modern beach/dune sands. Granulometry of quartz sand as an indicator of beach and dune sediments. Description of beach and dune in situ cores. Interpretation of the results of the three approaches. 5.3.3 A model for wetland initiation. 5.3.4 Dates for wetland commencement. Radiocarbon dating of base of wetlands. Evolutionary model for wetland development. 5.3.5 Conclusions.- 6. Wetland sedimentology and stratigraphy. 6.1 Introduction. 6.2 Stratigraphic framework to wetland basins. 6.3 Characterisation of wetland basin fills. 6.3.1 Occurrence of sedimentary bodies. 6.3.2 Geometry and thickness of sediment. 6.3.3 Types of sediments. 6.3.4 Typical vertical stratigraphic sequences. 6.3.5 Lateral