Seagrasses: Monitoring, Ecology, Physiology, and ManagementStephen A. Bortone CRC Press, 1999/12/15 - 336 ページ Seagrasses are becoming widely used as in situ indicators of the relative health and condition of subtropical and tropical estuarine ecosystems. To permit meaningful management of our estuaries, there is clearly a need to develop and refine ways of effectively monitoring and assessing seagrasses. |
目次
| 1 | |
An example from Tampa Bay Florida | 9 |
Chapter 3 Somatic Respiratory and Photosynthetic Responses of the Seagrass Halodule wrightii to Light Reduction in Tampa Bay Florida Including a ... | 33 |
Chapter 4 The Effects of Dock Height on Light Irradiance PAR and Seagrass Halodule wrightii and Syringodium filiforme Cover | 49 |
Chapter 5 Tape Grass Life History Metrics Associated with Environmental Variables in a Controlled Estuary | 65 |
Chapter 6 Experimental Studies on the Salinity Tolerance of Turtle Grass Thalassia testudinum | 81 |
Chapter 7 Effects of the Disposal of Reverse Osmosis Seawater Desalination Discharges on a Seagrass Meadow Thalassia testudinum Offshore of Anti... | 99 |
Chapter 8 Development and Use of an Epiphyte PhotoIndex EPI for Assessing Epiphyte Loadings on the Seagrass Halodule wrightii | 115 |
Chapter 14 LongTerm Trends in Seagrass Beds in the Mosquito Lagoon and Northern Banana River Florida | 177 |
Chapter 15 Reciprocal Transplanting of the Threatened Seagrass Halophila johnsonii Johnsons Seagrass in the Indian RIver Lagoon Florida | 197 |
Chapter 16 Setting Seagrass Targets for the Indian River Lagoon Florida | 211 |
Chapter 17 Seagrass Bed Recovery after Hydrological Restoration in a Coastal Lagoon with Groundwater Discharges in the North of Yucatan Southe... | 219 |
A Potential Method to Assess Environmental Health of Coastal Habitats | 231 |
Chapter 19 Scaling Submersed Plant Community Responses to Experimental Nutrient Enrichment | 241 |
Chapter 20 Seagrass Ecosystem Characteristics Research and Management Needs in the Florida Big Bend | 259 |
A ResourceBased Approach to Estuarine Management | 279 |
Chapter 9 Establishing Baseline Seagrass Parameters in a Small Estuarine Bay | 125 |
Chapter 10 Monitoring Submerged Aquatic Vegetation in Hillsborough Bay Florida | 137 |
Chapter 11 Monitoring the Effects of Construction and Operation of a Marina on the Seagrass Halophila decipiens in Fort Lauderdale Florida | 147 |
Chapter 12 Recent Trends in Seagrass Distributions in Southwest Florida Coastal Waters | 157 |
Chapter 13 Monitoring Seagrass Changes in Indian River Lagoon Florida Using Fixed Transects | 167 |
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多く使われている語句
algae Apalachee Bay areal average Banana River Big Bend biomass blade length Caloosahatchee River Charlotte Harbor chlorophyll coastal decipiens decreased depth discharge Dunton Ecology ecosystems eelgrass effects Environmental epiphyte epiphyte loadings estuaries Figure Florida Water Management freshwater grass growth habitat Halodule wrightii Halophila Hillsborough Bay increased Indian River Lagoon irradiance johnsonii Kemp light reduction light requirements Location macroalgae Marine Mattson measured mesocosms monitoring program Mosquito Lagoon National Estuary Program nitrogen loading nutrient enrichment observed percent cover photosynthetic Photosynthetically Active Radiation plant plots prolifera quadrat range responses rhizomes River Water Management salinity salinity variation sampling Sarasota Bay seagrass beds seagrass coverage seagrass meadows seagrass species season Sebastian Inlet sediment shoot density Southwest Florida stations submerged aquatic vegetation Syringodium Syringodium filiforme Tampa Bay targets Thalassia testudinum tidal transplant treatment trends variables Virnstein water clarity Water Management District water quality Zieman