Florida Coastal Everglades Long Term Ecological Research
Florida Coastal Everglades LTER - Site Information: TS/Ph10
Site Information - TS/Ph10

 
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Sampling Attributes by Project

Main project:   FCE LTER III: Coastal Oligotrophic Ecosystems Research
Contact:   Evelyn Gaiser
Sampling attributes:
  • %PAR:Epiphyte light transmissions  (sixty-three to seventy-five days)
  • Algal Energetics Light Curve Slope Brown  (biannually)
  • Algal Energetics Light Curve Slope Cyanobacteria  (biannually)
  • Algal Energetics Light Curve Slope Green  (biannually)
  • Channel 1 Alpha  (biannually)
  • Channel 1 Electron Transport Rate Max  (biannually)
  • Channel 1 Initial Slope Irradiance  (biannually)
  • Channel 2 Alpha  (biannually)
  • Channel 2 Electron Transport Rate Max  (biannually)
  • Channel 2 Initial Slope Irradiance  (biannually)
  • Channel 3 Alpha  (biannually)
  • Channel 3 Electron Transport Rate Max  (biannually)
  • Channel 3 Initial Slope Irradiance  (biannually)
  • Channel 4 Alpha  (biannually)
  • Channel 4 Electron Transport Rate Max  (biannually)
  • Channel 4 Initial Slope Irradiance  (biannually)
  • Chl a Blue  (biannually)
  • Chl a Brown  (biannually)
  • Chl a Green  (biannually)
  • Electron Transport Rate Maximum Brown  (biannually)
  • Electron Transport Rate Maximum Cyanobacteria  (biannually)
  • Electron Transport Rate Maximum Green  (biannually)
  • Initial Slope Irradiance Maximum Brown  (biannually)
  • Initial Slope Irradiance Maximum Cyanobacteria  (biannually)
  • Initial Slope Irradiance Maximum Green  (biannually)
  • Quantum Yield Mean  (biannually)
  • Sum Chl a PAM  (biannually)
  • Absorbance at 254 nm  (monthly)
  • Absorbance at 254 nm  (one month)
  • Absorbance at 254 nm  (seasonally (Wet and Dry))
  • Specific UV Absorbance  (monthly)
  • Bacteria Abundance  (biannually)
  • Halodule wrightii Abundance
  • Syringodium filiforme Abundance
  • Thalassia testudinum Abundance
  • Total Calcareous Green Abundance
  • Thalassia testudinum Leaf Area
  • CaCO3 per Quadrant  (variable intervals)
  • Macroalgae Biomass per Quadrant  (variable intervals)
  • Soil Bulk Density
  • Diffuse Light Attenuation Coefficient  (monthly)
  • component 1 of EEM-PARAFAC  (monthly)
  • component 1 of EEM-PARAFAC  (monthly)
  • component 2 of EEM-PARAFAC  (monthly)
  • component 3 of EEM-PARAFAC  (monthly)
  • component 4 of EEM-PARAFAC  (monthly)
  • component 5 of EEM-PARAFAC  (monthly)
  • component 6 of EEM-PARAFAC  (monthly)
  • component 7 of EEM-PARAFAC  (monthly)
  • component 8 of EEM-PARAFAC  (monthly)
  • Alkaline Phosphatase Activity in Water  (monthly)
  • Ammonium in Water  (monthly)
  • Carbohydrates  (monthly)
  • Chlorophyll a in Water  (monthly)
  • Dissolved Inorganic Nitrogen in Water  (monthly)
  • Dissolved Organic Carbon  (monthly)
  • Dissolved Oxygen in Bottom Water  (monthly)
  • Dissolved Oxygen in Surface Water  (monthly)
  • Fixed humic substance peak  (seasonally (Wet and Dry))
  • Humic Carbon  (monthly)
  • Nitrate and Nitrite in Water  (monthly)
  • Nitrate in Water  (monthly)
  • Nitrite in Water  (monthly)
  • Non-Humic Carbon  (monthly)
  • Periphyton Total Phosphorus  (bimonthly)
  • Plant Total Organic Carbon  (one month)
  • Plant Total phenol concentration  (one month)
  • Plant Total sugar concentration  (one month)
  • Protein derived T1  (seasonally (Wet and Dry))
  • Saltwater Surface Salinity
  • Silicon Dioxide in Water  (monthly)
  • Soil Acid Volatile Sulfide
  • Soil Chromium-Reducible Sulfide
  • Soil Extractable Iron
  • Soil Extractable Phosphorus
  • Soil Inorganic Phosphorus Step 1
  • Soil Inorganic Phosphorus Step 2
  • Soil Inorganic Phosphorus Step 3
  • Soil Inorganic Phosphorus Step 4
  • Soil Total Phosphorus
  • Soil Total Sulfide
  • Soluble Reactive Phosphorus in Water  (monthly)
  • Surface Water 1,2,3-trimethoxybenzene  (variable intervals)
  • Surface Water 3,4-Dimethoxytoluene  (variable intervals)
  • Surface Water Benzaldehyde, 3,4,5-trimethoxy-  (variable intervals)
  • Surface Water Benzaldehyde, 3,4-dimethoxy-  (variable intervals)
  • Surface Water Benzene, 1,2,3-trimethoxy-5-methyl-  (variable intervals)
  • Surface Water Benzene, 1,2-dimethoxy-  (variable intervals)
  • Surface Water Benzene, 1,2-dimethoxy-4-(1-propenyl)-  (variable intervals)
  • Surface Water Benzenepropanoic acid, 3,4-dimethoxy-, methyl ester  (variable intervals)
  • Surface Water Benzoic acid, 3,4,5-trimethoxy-, methyl ester  (variable intervals)
  • Surface Water Benzoic acid, 3,4-dimethoxy-, methyl ester  (variable intervals)
  • Surface Water Dissolved Organic Carbon  (variable intervals)
  • Surface Water Ethanone, 1-(3,4,5)-trimethoxyphenyl-  (variable intervals)
  • Surface Water Ethanone, 1-(3,4-dimethoxyphenyl)-  (variable intervals)
  • Surface Water Neutral Sugars  (variable intervals)
  • Surface Water Phenol 2-methoxy-  (variable intervals)
  • Surface Water Salinity  (variable intervals)
  • Total Nitrogen in Water  (monthly)
  • Total Organic Carbon in Water  (monthly)
  • Total Organic Nitrogen in Water  (monthly)
  • Total Phosphorus in Water  (monthly)
  • Tryptophan  (seasonally (Wet and Dry))
  • UV humic peak  (seasonally (Wet and Dry))
  • Visible humic peak  (seasonally (Wet and Dry))
  • Water Bottom Salinity  (monthly)
  • Water Surface Salinity  (monthly)
  • Halodule wrightii Density
  • Number of Thalassia testudinum Leaves Per Short Shoot
  • Syringodium filiforme Density
  • Thalassia testudinum Density
  • Thalassia testudinum Short Shoot Density
  • Total Calcareous Green Density
  • Station Depth  (monthly)
  • Macroalgae DryWeight per Quadrant  (variable intervals)
  • Halodule wrightii Frequency
  • Syringodium filiforme Frequency
  • Thalassia testudinum Frequency
  • Total Calcareous Green Frequency
  • Fluorescence Index  (monthly)
  • Fluorescence Index  (seasonally (Wet and Dry))
  • Surface Water Fluorescence Index  (one month)
  • Surface Water Fluorescence Index  (variable intervals)
  • Maximum Emission Intensity  (monthly)
  • Maximum Emission Intensity  (seasonally (Wet and Dry))
  • Peak 1 at Maximum Emission Intensity  (monthly)
  • Peak 1 at Maximum Emission Intensity  (seasonally (Wet and Dry))
  • Surface Water Intensity UV humic-like fluorescence  (one month)
  • Surface Water Intensity of Tryptophan-like fluorescence  (one month)
  • Surface Water Intensity of Tyrosine-like fluorescence  (one month)
  • Surface Water Intensity of visible humic-like fluorescence  (one month)
  • Surface Water Intensity of visible marine humic-like fluorescence  (one month)
  • Surface Water Maximum Emission Intensity  (one month)
  • Surface Water Maximum Emission Intensity  (variable intervals)
  • Seagrass Carbon Stable Isotope
  • Seagrass Nitrogen Stable Isotope
  • Soil Delta 13C  (four months)
  • Thalassia testudinum Leaf Length
  • Epiphyte Chlorophyll a Load
  • Epiphyte Chlorophyll a Load Mean  (Fall)
  • Total Epiphyte Load
  • Total Epiphyte Load  (sixty-three to seventy-five days)
  • Total Epiphyte Load Mean  (Fall)
  • Thalassia testudinum Leaf Mass
  • Thalassia testudinum Standing Crop
  • Water pH  (monthly)
  • % Humic carbon  (monthly)
  • % Non-Humic Carbon  (monthly)
  • %Carbohydrate Carbon  (monthly)
  • %Dissolved Organic Carbon  (monthly)
  • Percent 285  (monthly)
  • Percent 285  (seasonally (Wet and Dry))
  • Percent Organic Carbon in Soil  (four months)
  • Percentage of Calcium Carbonate in Soil  (four months)
  • Percentage of protein-like material (high molecular weight fraction)  (seasonally (Wet and Dry))
  • Soil %Aromatic C  (four months)
  • Soil Aromatic C  (four months)
  • Soil Cabonyl C  (four months)
  • Soil O Alkyl C  (four months)
  • Soil Percent Organics
  • Soil alkyl_C  (four months)
  • Surface Water Alkyl/o-Alkyl ratio  (variable intervals)
  • Surface Water Mole percentage of Alanine  (one month)
  • Surface Water Mole percentage of Arginine  (one month)
  • Surface Water Mole percentage of Aspartic Acid  (one month)
  • Surface Water Mole percentage of Beta-Alanine  (one month)
  • Surface Water Mole percentage of D-Isoleucine  (one month)
  • Surface Water Mole percentage of Gamma-Aminobutyric Acid  (one month)
  • Surface Water Mole percentage of Glutamic Acid  (one month)
  • Surface Water Mole percentage of Glycine  (one month)
  • Surface Water Mole percentage of Histidine  (one month)
  • Surface Water Mole percentage of L-Isoleucine  (one month)
  • Surface Water Mole percentage of Leucine  (one month)
  • Surface Water Mole percentage of Lysine  (one month)
  • Surface Water Mole percentage of Ornithine  (one month)
  • Surface Water Mole percentage of Phenylalanine  (one month)
  • Surface Water Mole percentage of Serine  (one month)
  • Surface Water Mole percentage of Threonine  (one month)
  • Surface Water Mole percentage of Tyrosine  (one month)
  • Surface Water Mole percentage of Valine  (one month)
  • Surface Water Percent 285  (variable intervals)
  • Surface Water Percent Arabinose  (variable intervals)
  • Surface Water Percent Aromaticity  (variable intervals)
  • Surface Water Percent Fucose  (variable intervals)
  • Surface Water Percent Galactose  (variable intervals)
  • Surface Water Percent Glucose  (variable intervals)
  • Surface Water Percent Mannose  (variable intervals)
  • Surface Water Percent Rhamnose  (variable intervals)
  • Surface Water Percent Ribose  (variable intervals)
  • Surface Water Percent Xylose  (variable intervals)
  • Surface Water Percent primary amine nitrogen  (one month)
  • Surface Water Percentage Alkyl Carbon  (variable intervals)
  • Surface Water Percentage Aromatic Carbon  (variable intervals)
  • Surface Water Percentage Carbonyl Carbon  (variable intervals)
  • Surface Water Percentage O-alkyl carbon  (variable intervals)
  • Surface Water Percentage of Amino Acid Nitrogen  (one month)
  • Surface Water Percentage of Amino Acid carbon  (one month)
  • Surface Water Percentage of aromatic nitrogen  (one month)
  • Surface Water Percentage of peptide bond N  (one month)
  • Halodule wrightii % Dry Weight Carbon
  • Halodule wrightii % Dry Weight Nitrogen
  • Halodule wrightii % Dry Weight Phosphorus
  • Syringodium filiforme % Dry Weight Carbon
  • Syringodium filiforme % Dry Weight Nitrogen
  • Syringodium filiforme % Dry Weight Phosphorus
  • Thalassia testudinum % Dry Weight Carbon
  • Thalassia testudinum % Dry Weight Nitrogen
  • Thalassia testudinum % Dry Weight Phosphorus
  • Percentage of Carbon  (annually)
  • Percentage of Hydrogen  (annually)
  • Percentage of Inorganic Carbon  (annually)
  • Percentage of Nitrogen  (annually)
  • Percentage of Organic Carbon  (annually)
  • Periphyton Ash Free Dry Mass Production  (bimonthly)
  • Periphyton Dry Weight Production  (bimonthly)
  • Periphyton Gross Production per Mass  (annually)
  • Periphyton Net Carbon Production  (annually)
  • Thalassia testudinum Leaf Area Production per Meter Square per Day
  • Thalassia testudinum Mass Specific Productivity
  • Thalassia testudinum Short Shoot Productivity
  • Thalassia testudinum leaf Area Production per Short Shoot per Day
  • Thalassia testudinumAreal Productivity
  • Bacteria Daily Production  (biannually)
  • Bacteria Hourly Production  (biannually)
  • Dissolved Inorganic Nitrogen To Total Phosphorus Ratio  (monthly)
  • Halodule wrightii Carbon:Nitrogen Ratio
  • Halodule wrightii Carbon:Phosphorus Ratio
  • Halodule wrightii Nitrogen:Phosphorus Ratio
  • Nitrogen to carbon ratio  (seasonally (Wet and Dry))
  • Silicate to Dissolved Inorganic Nitrogen Ratio  (monthly)
  • Slope Ratio  (monthly)
  • Soil AlkylC/O Alkyl C  (four months)
  • Soil C/N  (four months)
  • Surface Din To SRP Ratio  (monthly)
  • Surface Total Nitrogen To Total Phosphorus Ratio  (monthly)
  • Surface Water Carbon stable isotope ratio  (one month)
  • Surface Water Carbon to Nitrogen Ratio  (one month)
  • Surface Water Carbon to Nitrogen Ratio  (variable intervals)
  • Surface Water Nitrogen stable isotope ratio  (one month)
  • Surface Water Ratio of UV humic-like fluorescence and visible humic-like fluorescence  (one month)
  • Syringodium filiforme Carbon:Nitrogen Ratio
  • Syringodium filiforme Carbon:Phosphorus Ratio
  • Syringodium filiforme Nirtogen:Phosphorus Ratio
  • Thalassia testudinum Carbon:Nitrogen Ratio
  • Thalassia testudinum Carbon:Phosphorus Ratio
  • Thalassia testudinum Nitrogen:Phosphorus Ratio
  • Periphyton Net Respiration per Mass  (annually)
  • Saltwater Secchi
  • Surface Water Slope of the UV-Vis spectrum  (one month)
  • Seagrass Species Name
  • Saltwater Surface Temperature
  • Saltwater Surface Temperature  (variable intervals)
  • Seagrass Canopy Water Temperature (UTC)
  • Water Bottom Temperature  (monthly)
  • Water Surface Temperature  (monthly)
  • Thalassia testudinum Plastochrone Interval
  • Average Saltwater Turbidity
  • Maximum Wavelength  (monthly)
  • Maximum Wavelength  (seasonally (Wet and Dry))
  • Surface Water Maximum Wavelength  (one month)
  • Surface Water Maximum Wavelength  (variable intervals)
  • Weight of Sample  (annually)
  • Thalassia testudinum Leaf Width

  • Main project:   FCE LTER II: Coastal Oligotrophic Ecosystems Research
    Contact:   Evelyn Gaiser
    Sampling attributes:
  • %PAR:Epiphyte light transmissions  (sixty-three to seventy-five days)
  • Algal Energetics Light Curve Slope Brown  (biannually)
  • Algal Energetics Light Curve Slope Cyanobacteria  (biannually)
  • Algal Energetics Light Curve Slope Green  (biannually)
  • Channel 1 Alpha  (biannually)
  • Channel 1 Electron Transport Rate Max  (biannually)
  • Channel 1 Initial Slope Irradiance  (biannually)
  • Channel 2 Alpha  (biannually)
  • Channel 2 Electron Transport Rate Max  (biannually)
  • Channel 2 Initial Slope Irradiance  (biannually)
  • Channel 3 Alpha  (biannually)
  • Channel 3 Electron Transport Rate Max  (biannually)
  • Channel 3 Initial Slope Irradiance  (biannually)
  • Channel 4 Alpha  (biannually)
  • Channel 4 Electron Transport Rate Max  (biannually)
  • Channel 4 Initial Slope Irradiance  (biannually)
  • Chl a Blue  (biannually)
  • Chl a Brown  (biannually)
  • Chl a Green  (biannually)
  • Electron Transport Rate Maximum Brown  (biannually)
  • Electron Transport Rate Maximum Cyanobacteria  (biannually)
  • Electron Transport Rate Maximum Green  (biannually)
  • Initial Slope Irradiance Maximum Brown  (biannually)
  • Initial Slope Irradiance Maximum Cyanobacteria  (biannually)
  • Initial Slope Irradiance Maximum Green  (biannually)
  • Quantum Yield Mean  (biannually)
  • Sum Chl a PAM  (biannually)
  • Absorbance at 254 nm  (monthly)
  • Absorbance at 254 nm  (one month)
  • Absorbance at 254 nm  (seasonally (Wet and Dry))
  • Specific UV Absorbance  (monthly)
  • Bacteria Abundance  (biannually)
  • Halodule wrightii Abundance
  • Syringodium filiforme Abundance
  • Thalassia testudinum Abundance
  • Total Calcareous Green Abundance
  • Thalassia testudinum Leaf Area
  • CaCO3 per Quadrant  (variable intervals)
  • Macroalgae Biomass per Quadrant  (variable intervals)
  • Soil Bulk Density
  • Diffuse Light Attenuation Coefficient  (monthly)
  • component 1 of EEM-PARAFAC  (monthly)
  • component 1 of EEM-PARAFAC  (monthly)
  • component 2 of EEM-PARAFAC  (monthly)
  • component 3 of EEM-PARAFAC  (monthly)
  • component 4 of EEM-PARAFAC  (monthly)
  • component 5 of EEM-PARAFAC  (monthly)
  • component 6 of EEM-PARAFAC  (monthly)
  • component 7 of EEM-PARAFAC  (monthly)
  • component 8 of EEM-PARAFAC  (monthly)
  • Alkaline Phosphatase Activity in Water  (monthly)
  • Ammonium in Water  (monthly)
  • Carbohydrates  (monthly)
  • Chlorophyll a in Water  (monthly)
  • Dissolved Inorganic Nitrogen in Water  (monthly)
  • Dissolved Organic Carbon  (monthly)
  • Dissolved Oxygen in Bottom Water  (monthly)
  • Dissolved Oxygen in Surface Water  (monthly)
  • Fixed humic substance peak  (seasonally (Wet and Dry))
  • Humic Carbon  (monthly)
  • Nitrate and Nitrite in Water  (monthly)
  • Nitrate in Water  (monthly)
  • Nitrite in Water  (monthly)
  • Non-Humic Carbon  (monthly)
  • Periphyton Total Phosphorus  (bimonthly)
  • Plant Total Organic Carbon  (one month)
  • Plant Total phenol concentration  (one month)
  • Plant Total sugar concentration  (one month)
  • Protein derived T1  (seasonally (Wet and Dry))
  • Saltwater Surface Salinity
  • Silicon Dioxide in Water  (monthly)
  • Soil Acid Volatile Sulfide
  • Soil Chromium-Reducible Sulfide
  • Soil Extractable Iron
  • Soil Extractable Phosphorus
  • Soil Inorganic Phosphorus Step 1
  • Soil Inorganic Phosphorus Step 2
  • Soil Inorganic Phosphorus Step 3
  • Soil Inorganic Phosphorus Step 4
  • Soil Total Phosphorus
  • Soil Total Sulfide
  • Soluble Reactive Phosphorus in Water  (monthly)
  • Surface Water 1,2,3-trimethoxybenzene  (variable intervals)
  • Surface Water 3,4-Dimethoxytoluene  (variable intervals)
  • Surface Water Benzaldehyde, 3,4,5-trimethoxy-  (variable intervals)
  • Surface Water Benzaldehyde, 3,4-dimethoxy-  (variable intervals)
  • Surface Water Benzene, 1,2,3-trimethoxy-5-methyl-  (variable intervals)
  • Surface Water Benzene, 1,2-dimethoxy-  (variable intervals)
  • Surface Water Benzene, 1,2-dimethoxy-4-(1-propenyl)-  (variable intervals)
  • Surface Water Benzenepropanoic acid, 3,4-dimethoxy-, methyl ester  (variable intervals)
  • Surface Water Benzoic acid, 3,4,5-trimethoxy-, methyl ester  (variable intervals)
  • Surface Water Benzoic acid, 3,4-dimethoxy-, methyl ester  (variable intervals)
  • Surface Water Dissolved Organic Carbon  (variable intervals)
  • Surface Water Ethanone, 1-(3,4,5)-trimethoxyphenyl-  (variable intervals)
  • Surface Water Ethanone, 1-(3,4-dimethoxyphenyl)-  (variable intervals)
  • Surface Water Neutral Sugars  (variable intervals)
  • Surface Water Phenol 2-methoxy-  (variable intervals)
  • Surface Water Salinity  (variable intervals)
  • Total Nitrogen in Water  (monthly)
  • Total Organic Carbon in Water  (monthly)
  • Total Organic Nitrogen in Water  (monthly)
  • Total Phosphorus in Water  (monthly)
  • Tryptophan  (seasonally (Wet and Dry))
  • UV humic peak  (seasonally (Wet and Dry))
  • Visible humic peak  (seasonally (Wet and Dry))
  • Water Bottom Salinity  (monthly)
  • Water Surface Salinity  (monthly)
  • Halodule wrightii Density
  • Number of Thalassia testudinum Leaves Per Short Shoot
  • Syringodium filiforme Density
  • Thalassia testudinum Density
  • Thalassia testudinum Short Shoot Density
  • Total Calcareous Green Density
  • Station Depth  (monthly)
  • Macroalgae DryWeight per Quadrant  (variable intervals)
  • Halodule wrightii Frequency
  • Syringodium filiforme Frequency
  • Thalassia testudinum Frequency
  • Total Calcareous Green Frequency
  • Fluorescence Index  (monthly)
  • Fluorescence Index  (seasonally (Wet and Dry))
  • Surface Water Fluorescence Index  (one month)
  • Surface Water Fluorescence Index  (variable intervals)
  • Maximum Emission Intensity  (monthly)
  • Maximum Emission Intensity  (seasonally (Wet and Dry))
  • Peak 1 at Maximum Emission Intensity  (monthly)
  • Peak 1 at Maximum Emission Intensity  (seasonally (Wet and Dry))
  • Surface Water Intensity UV humic-like fluorescence  (one month)
  • Surface Water Intensity of Tryptophan-like fluorescence  (one month)
  • Surface Water Intensity of Tyrosine-like fluorescence  (one month)
  • Surface Water Intensity of visible humic-like fluorescence  (one month)
  • Surface Water Intensity of visible marine humic-like fluorescence  (one month)
  • Surface Water Maximum Emission Intensity  (one month)
  • Surface Water Maximum Emission Intensity  (variable intervals)
  • Seagrass Carbon Stable Isotope
  • Seagrass Nitrogen Stable Isotope
  • Soil Delta 13C  (four months)
  • Thalassia testudinum Leaf Length
  • Epiphyte Chlorophyll a Load
  • Epiphyte Chlorophyll a Load Mean  (Fall)
  • Total Epiphyte Load
  • Total Epiphyte Load  (sixty-three to seventy-five days)
  • Total Epiphyte Load Mean  (Fall)
  • Thalassia testudinum Leaf Mass
  • Thalassia testudinum Standing Crop
  • Water pH  (monthly)
  • % Humic carbon  (monthly)
  • % Non-Humic Carbon  (monthly)
  • %Carbohydrate Carbon  (monthly)
  • %Dissolved Organic Carbon  (monthly)
  • Percent 285  (monthly)
  • Percent 285  (seasonally (Wet and Dry))
  • Percent Organic Carbon in Soil  (four months)
  • Percentage of Calcium Carbonate in Soil  (four months)
  • Percentage of protein-like material (high molecular weight fraction)  (seasonally (Wet and Dry))
  • Soil %Aromatic C  (four months)
  • Soil Aromatic C  (four months)
  • Soil Cabonyl C  (four months)
  • Soil O Alkyl C  (four months)
  • Soil Percent Organics
  • Soil alkyl_C  (four months)
  • Surface Water Alkyl/o-Alkyl ratio  (variable intervals)
  • Surface Water Mole percentage of Alanine  (one month)
  • Surface Water Mole percentage of Arginine  (one month)
  • Surface Water Mole percentage of Aspartic Acid  (one month)
  • Surface Water Mole percentage of Beta-Alanine  (one month)
  • Surface Water Mole percentage of D-Isoleucine  (one month)
  • Surface Water Mole percentage of Gamma-Aminobutyric Acid  (one month)
  • Surface Water Mole percentage of Glutamic Acid  (one month)
  • Surface Water Mole percentage of Glycine  (one month)
  • Surface Water Mole percentage of Histidine  (one month)
  • Surface Water Mole percentage of L-Isoleucine  (one month)
  • Surface Water Mole percentage of Leucine  (one month)
  • Surface Water Mole percentage of Lysine  (one month)
  • Surface Water Mole percentage of Ornithine  (one month)
  • Surface Water Mole percentage of Phenylalanine  (one month)
  • Surface Water Mole percentage of Serine  (one month)
  • Surface Water Mole percentage of Threonine  (one month)
  • Surface Water Mole percentage of Tyrosine  (one month)
  • Surface Water Mole percentage of Valine  (one month)
  • Surface Water Percent 285  (variable intervals)
  • Surface Water Percent Arabinose  (variable intervals)
  • Surface Water Percent Aromaticity  (variable intervals)
  • Surface Water Percent Fucose  (variable intervals)
  • Surface Water Percent Galactose  (variable intervals)
  • Surface Water Percent Glucose  (variable intervals)
  • Surface Water Percent Mannose  (variable intervals)
  • Surface Water Percent Rhamnose  (variable intervals)
  • Surface Water Percent Ribose  (variable intervals)
  • Surface Water Percent Xylose  (variable intervals)
  • Surface Water Percent primary amine nitrogen  (one month)
  • Surface Water Percentage Alkyl Carbon  (variable intervals)
  • Surface Water Percentage Aromatic Carbon  (variable intervals)
  • Surface Water Percentage Carbonyl Carbon  (variable intervals)
  • Surface Water Percentage O-alkyl carbon  (variable intervals)
  • Surface Water Percentage of Amino Acid Nitrogen  (one month)
  • Surface Water Percentage of Amino Acid carbon  (one month)
  • Surface Water Percentage of aromatic nitrogen  (one month)
  • Surface Water Percentage of peptide bond N  (one month)
  • Halodule wrightii % Dry Weight Carbon
  • Halodule wrightii % Dry Weight Nitrogen
  • Halodule wrightii % Dry Weight Phosphorus
  • Syringodium filiforme % Dry Weight Carbon
  • Syringodium filiforme % Dry Weight Nitrogen
  • Syringodium filiforme % Dry Weight Phosphorus
  • Thalassia testudinum % Dry Weight Carbon
  • Thalassia testudinum % Dry Weight Nitrogen
  • Thalassia testudinum % Dry Weight Phosphorus
  • Percentage of Carbon  (annually)
  • Percentage of Hydrogen  (annually)
  • Percentage of Inorganic Carbon  (annually)
  • Percentage of Nitrogen  (annually)
  • Percentage of Organic Carbon  (annually)
  • Periphyton Ash Free Dry Mass Production  (bimonthly)
  • Periphyton Dry Weight Production  (bimonthly)
  • Periphyton Gross Production per Mass  (annually)
  • Periphyton Net Carbon Production  (annually)
  • Thalassia testudinum Leaf Area Production per Meter Square per Day
  • Thalassia testudinum Mass Specific Productivity
  • Thalassia testudinum Short Shoot Productivity
  • Thalassia testudinum leaf Area Production per Short Shoot per Day
  • Thalassia testudinumAreal Productivity
  • Bacteria Daily Production  (biannually)
  • Bacteria Hourly Production  (biannually)
  • Dissolved Inorganic Nitrogen To Total Phosphorus Ratio  (monthly)
  • Halodule wrightii Carbon:Nitrogen Ratio
  • Halodule wrightii Carbon:Phosphorus Ratio
  • Halodule wrightii Nitrogen:Phosphorus Ratio
  • Nitrogen to carbon ratio  (seasonally (Wet and Dry))
  • Silicate to Dissolved Inorganic Nitrogen Ratio  (monthly)
  • Slope Ratio  (monthly)
  • Soil AlkylC/O Alkyl C  (four months)
  • Soil C/N  (four months)
  • Surface Din To SRP Ratio  (monthly)
  • Surface Total Nitrogen To Total Phosphorus Ratio  (monthly)
  • Surface Water Carbon stable isotope ratio  (one month)
  • Surface Water Carbon to Nitrogen Ratio  (one month)
  • Surface Water Carbon to Nitrogen Ratio  (variable intervals)
  • Surface Water Nitrogen stable isotope ratio  (one month)
  • Surface Water Ratio of UV humic-like fluorescence and visible humic-like fluorescence  (one month)
  • Syringodium filiforme Carbon:Nitrogen Ratio
  • Syringodium filiforme Carbon:Phosphorus Ratio
  • Syringodium filiforme Nirtogen:Phosphorus Ratio
  • Thalassia testudinum Carbon:Nitrogen Ratio
  • Thalassia testudinum Carbon:Phosphorus Ratio
  • Thalassia testudinum Nitrogen:Phosphorus Ratio
  • Periphyton Net Respiration per Mass  (annually)
  • Saltwater Secchi
  • Surface Water Slope of the UV-Vis spectrum  (one month)
  • Seagrass Species Name
  • Saltwater Surface Temperature
  • Saltwater Surface Temperature  (variable intervals)
  • Seagrass Canopy Water Temperature (UTC)
  • Water Bottom Temperature  (monthly)
  • Water Surface Temperature  (monthly)
  • Thalassia testudinum Plastochrone Interval
  • Average Saltwater Turbidity
  • Maximum Wavelength  (monthly)
  • Maximum Wavelength  (seasonally (Wet and Dry))
  • Surface Water Maximum Wavelength  (one month)
  • Surface Water Maximum Wavelength  (variable intervals)
  • Weight of Sample  (annually)
  • Thalassia testudinum Leaf Width

  • Subproject or related project:   Microbial dynamics and DOM cycling in FCE LTER sites
    Contact:   Joseph Boyer
    Sampling attributes:
  • Algal Energetics Light Curve Slope Brown  (biannually)
  • Algal Energetics Light Curve Slope Cyanobacteria  (biannually)
  • Algal Energetics Light Curve Slope Green  (biannually)
  • Channel 1 Alpha  (biannually)
  • Channel 1 Electron Transport Rate Max  (biannually)
  • Channel 1 Initial Slope Irradiance  (biannually)
  • Channel 2 Alpha  (biannually)
  • Channel 2 Electron Transport Rate Max  (biannually)
  • Channel 2 Initial Slope Irradiance  (biannually)
  • Channel 3 Alpha  (biannually)
  • Channel 3 Electron Transport Rate Max  (biannually)
  • Channel 3 Initial Slope Irradiance  (biannually)
  • Channel 4 Alpha  (biannually)
  • Channel 4 Electron Transport Rate Max  (biannually)
  • Channel 4 Initial Slope Irradiance  (biannually)
  • Chl a Blue  (biannually)
  • Chl a Brown  (biannually)
  • Chl a Green  (biannually)
  • Electron Transport Rate Maximum Brown  (biannually)
  • Electron Transport Rate Maximum Cyanobacteria  (biannually)
  • Electron Transport Rate Maximum Green  (biannually)
  • Initial Slope Irradiance Maximum Brown  (biannually)
  • Initial Slope Irradiance Maximum Cyanobacteria  (biannually)
  • Initial Slope Irradiance Maximum Green  (biannually)
  • Quantum Yield Mean  (biannually)
  • Sum Chl a PAM  (biannually)
  • Bacteria Abundance  (biannually)
  • Bacteria Daily Production  (biannually)
  • Bacteria Hourly Production  (biannually)

  • Subproject or related project:   Chemical characteristics of dissolved organic matter in an oligotrophic subtropical wetland/estuary ecosystem
    Contact:   Rudolf Jaffe
    Sampling attributes:
  • Surface Water 1,2,3-trimethoxybenzene  (variable intervals)
  • Surface Water 3,4-Dimethoxytoluene  (variable intervals)
  • Surface Water Benzaldehyde, 3,4,5-trimethoxy-  (variable intervals)
  • Surface Water Benzaldehyde, 3,4-dimethoxy-  (variable intervals)
  • Surface Water Benzene, 1,2,3-trimethoxy-5-methyl-  (variable intervals)
  • Surface Water Benzene, 1,2-dimethoxy-  (variable intervals)
  • Surface Water Benzene, 1,2-dimethoxy-4-(1-propenyl)-  (variable intervals)
  • Surface Water Benzenepropanoic acid, 3,4-dimethoxy-, methyl ester  (variable intervals)
  • Surface Water Benzoic acid, 3,4,5-trimethoxy-, methyl ester  (variable intervals)
  • Surface Water Benzoic acid, 3,4-dimethoxy-, methyl ester  (variable intervals)
  • Surface Water Dissolved Organic Carbon  (variable intervals)
  • Surface Water Ethanone, 1-(3,4,5)-trimethoxyphenyl-  (variable intervals)
  • Surface Water Ethanone, 1-(3,4-dimethoxyphenyl)-  (variable intervals)
  • Surface Water Neutral Sugars  (variable intervals)
  • Surface Water Phenol 2-methoxy-  (variable intervals)
  • Surface Water Salinity  (variable intervals)
  • Surface Water Fluorescence Index  (variable intervals)
  • Surface Water Maximum Emission Intensity  (variable intervals)
  • Surface Water Alkyl/o-Alkyl ratio  (variable intervals)
  • Surface Water Percent 285  (variable intervals)
  • Surface Water Percent Arabinose  (variable intervals)
  • Surface Water Percent Aromaticity  (variable intervals)
  • Surface Water Percent Fucose  (variable intervals)
  • Surface Water Percent Galactose  (variable intervals)
  • Surface Water Percent Glucose  (variable intervals)
  • Surface Water Percent Mannose  (variable intervals)
  • Surface Water Percent Rhamnose  (variable intervals)
  • Surface Water Percent Ribose  (variable intervals)
  • Surface Water Percent Xylose  (variable intervals)
  • Surface Water Percentage Alkyl Carbon  (variable intervals)
  • Surface Water Percentage Aromatic Carbon  (variable intervals)
  • Surface Water Percentage Carbonyl Carbon  (variable intervals)
  • Surface Water Percentage O-alkyl carbon  (variable intervals)
  • Surface Water Carbon to Nitrogen Ratio  (variable intervals)
  • Surface Water Maximum Wavelength  (variable intervals)

  • Subproject or related project:   Monthly monitoring (Fluorescence, UV, Humic and non-Humic Carbon, Carbohydrates, and DOC) data for Shark River Slough, Taylor Slough, and Florida Bay, Everglades National Park
    Contact:   Rudolf Jaffe
    Sampling attributes:
  • Absorbance at 254 nm  (monthly)
  • Specific UV Absorbance  (monthly)
  • Carbohydrates  (monthly)
  • Dissolved Organic Carbon  (monthly)
  • Humic Carbon  (monthly)
  • Non-Humic Carbon  (monthly)
  • Fluorescence Index  (monthly)
  • Maximum Emission Intensity  (monthly)
  • Peak 1 at Maximum Emission Intensity  (monthly)
  • % Humic carbon  (monthly)
  • % Non-Humic Carbon  (monthly)
  • %Carbohydrate Carbon  (monthly)
  • %Dissolved Organic Carbon  (monthly)
  • Percent 285  (monthly)
  • Maximum Wavelength  (monthly)

  • Subproject or related project:   Pools of Phosphorus, Iron and Sulfur in soils from FCE LTER sites
    Contact:   Randy Chambers
    Sampling attributes:
  • Soil Bulk Density
  • Soil Acid Volatile Sulfide
  • Soil Chromium-Reducible Sulfide
  • Soil Extractable Iron
  • Soil Extractable Phosphorus
  • Soil Inorganic Phosphorus Step 1
  • Soil Inorganic Phosphorus Step 2
  • Soil Inorganic Phosphorus Step 3
  • Soil Inorganic Phosphorus Step 4
  • Soil Total Phosphorus
  • Soil Total Sulfide
  • Soil Percent Organics
  • Percentage of Carbon  (annually)
  • Percentage of Hydrogen  (annually)
  • Percentage of Inorganic Carbon  (annually)
  • Percentage of Nitrogen  (annually)
  • Percentage of Organic Carbon  (annually)
  • Weight of Sample  (annually)

  • Subproject or related project:   South Florida Coastal Water Quality Monitoring Network
    Contact:   Joseph Boyer
    Sampling attributes:
  • Algal Energetics Light Curve Slope Brown  (biannually)
  • Algal Energetics Light Curve Slope Cyanobacteria  (biannually)
  • Algal Energetics Light Curve Slope Green  (biannually)
  • Channel 1 Alpha  (biannually)
  • Channel 1 Electron Transport Rate Max  (biannually)
  • Channel 1 Initial Slope Irradiance  (biannually)
  • Channel 2 Alpha  (biannually)
  • Channel 2 Electron Transport Rate Max  (biannually)
  • Channel 2 Initial Slope Irradiance  (biannually)
  • Channel 3 Alpha  (biannually)
  • Channel 3 Electron Transport Rate Max  (biannually)
  • Channel 3 Initial Slope Irradiance  (biannually)
  • Channel 4 Alpha  (biannually)
  • Channel 4 Electron Transport Rate Max  (biannually)
  • Channel 4 Initial Slope Irradiance  (biannually)
  • Chl a Blue  (biannually)
  • Chl a Brown  (biannually)
  • Chl a Green  (biannually)
  • Electron Transport Rate Maximum Brown  (biannually)
  • Electron Transport Rate Maximum Cyanobacteria  (biannually)
  • Electron Transport Rate Maximum Green  (biannually)
  • Initial Slope Irradiance Maximum Brown  (biannually)
  • Initial Slope Irradiance Maximum Cyanobacteria  (biannually)
  • Initial Slope Irradiance Maximum Green  (biannually)
  • Quantum Yield Mean  (biannually)
  • Sum Chl a PAM  (biannually)
  • Bacteria Abundance  (biannually)
  • Diffuse Light Attenuation Coefficient  (monthly)
  • Alkaline Phosphatase Activity in Water  (monthly)
  • Ammonium in Water  (monthly)
  • Chlorophyll a in Water  (monthly)
  • Dissolved Inorganic Nitrogen in Water  (monthly)
  • Dissolved Oxygen in Bottom Water  (monthly)
  • Dissolved Oxygen in Surface Water  (monthly)
  • Nitrate and Nitrite in Water  (monthly)
  • Nitrate in Water  (monthly)
  • Nitrite in Water  (monthly)
  • Silicon Dioxide in Water  (monthly)
  • Soluble Reactive Phosphorus in Water  (monthly)
  • Total Nitrogen in Water  (monthly)
  • Total Organic Carbon in Water  (monthly)
  • Total Organic Nitrogen in Water  (monthly)
  • Total Phosphorus in Water  (monthly)
  • Water Bottom Salinity  (monthly)
  • Water Surface Salinity  (monthly)
  • Station Depth  (monthly)
  • Water pH  (monthly)
  • Bacteria Daily Production  (biannually)
  • Bacteria Hourly Production  (biannually)
  • Dissolved Inorganic Nitrogen To Total Phosphorus Ratio  (monthly)
  • Silicate to Dissolved Inorganic Nitrogen Ratio  (monthly)
  • Surface Din To SRP Ratio  (monthly)
  • Surface Total Nitrogen To Total Phosphorus Ratio  (monthly)
  • Water Bottom Temperature  (monthly)
  • Water Surface Temperature  (monthly)

  • Subproject or related project:   CO2 and O2 air-water exchange in Florida Bay: Hydrodynamic controls on the gas transfer velocity (k) and linkages to net ecosystem metabolism
    Contact:   Joseph Boyer
    Sampling attributes:
  • CO2 in Air  (bimonthly)
  • CO2 in Water  (bimonthly)
  • Dissolved Inorganic Carbon  (bimonthly)
  • Natural Carbon 14  (bimonthly)

  • Subproject or related project:   Quantitative and qualitative aspects of dissolved organic carbon leached from plant biomass in Taylor Slough, Shark River and Florida Bay
    Contact:   Rudolf Jaffe
    Sampling attributes:
  • Plant Total Organic Carbon  (one month)
  • Plant Total phenol concentration  (one month)
  • Plant Total sugar concentration  (one month)
  • Other LTER sites:
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    National Science Foundation logo This material is based upon work supported by the National Science Foundation through the Florida Coastal Everglades Long-Term Ecological Research program under Cooperative Agreements #DEB-1237517, #DBI-0620409, and #DEB-9910514. Any opinions, findings, conclusions, or recommendations expressed in the material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.
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