Florida Coastal Everglades Long Term Ecological Research
Florida Coastal Everglades LTER - Site Information: TS/Ph2
Site Information - TS/Ph2

 
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Sampling Attributes
  • % Humic carbon
  • % Non-Humic Carbon
  • %Carbohydrate Carbon
  • %Dissolved Organic Carbon
  • Absorbance at 254 nm
  • Algal Energetics Light Curve Slope Brown
  • Algal Energetics Light Curve Slope Cyanobacteria
  • Algal Energetics Light Curve Slope Green
  • Ammonium in Porewater
  • Ammonium in Water
  • Aquatic vegetation proxy
  • Areal Periphyton Dry Weight
  • Bacteria Abundance
  • Bacteria Daily Production
  • Bacteria Hourly Production
  • Benthic Periphyton Cover
  • C20 Highly Branched Isoprenoid
  • C28 n-alkene
  • C29 and C17 n-alkanes
  • Carbohydrates
  • Carbon to Nitrogen Ratio
  • Channel 1 Alpha
  • Channel 1 Electron Transport Rate Max
  • Channel 1 Initial Slope Irradiance
  • Channel 2 Alpha
  • Channel 2 Electron Transport Rate Max
  • Channel 2 Initial Slope Irradiance
  • Channel 3 Alpha
  • Channel 3 Electron Transport Rate Max
  • Channel 3 Initial Slope Irradiance
  • Channel 4 Alpha
  • Channel 4 Electron Transport Rate Max
  • Channel 4 Initial Slope Irradiance
  • Chl a Blue
  • Chl a Brown
  • Chl a Green
  • Chlorophytes
  • Cryptophytes
  • Cyanobacteria
  • Diatoms
  • Dinoflagellates
  • Dissolved Organic Carbon
  • Dissolved Organic Carbon in Porewater
  • Dissolved Organic Carbon in Water
  • Electron Transport Rate Maximum Brown
  • Electron Transport Rate Maximum Cyanobacteria
  • Electron Transport Rate Maximum Green
  • Epiphytic Periphyton Cover
  • Fixed humic substance peak
  • Floc Density
  • Floc Depth
  • Fluorescence Index
  • Fresh Water Levels
  • Humic Carbon
  • Incubation Days
  • Initial Slope Irradiance Maximum Brown
  • Initial Slope Irradiance Maximum Cyanobacteria
  • Initial Slope Irradiance Maximum Green
  • Maximum Emission Intensity
  • Maximum Wavelength
  • Nitrate and Nitrite in Porewater
  • Nitrate and Nitrite in Water
  • Nitrate in Porewater
  • Nitrate in Water
  • Nitrite in Porewater
  • Nitrite in Water
  • Nitrogen to carbon ratio
  • Non-Humic Carbon
  • Peak 1 at Maximum Emission Intensity
  • Percent 285
  • Percent Organic Carbon in Soil
  • Percent Organic Matter
  • Percent Organic content
  • Percentage of Calcium Carbonate in Soil
  • Percentage of Carbon
  • Percentage of Hydrogen
  • Percentage of Inorganic Carbon
  • Percentage of Nitrogen
  • Percentage of Organic Carbon
  • Percentage of protein-like material (high molecular weight fraction)
  • Periphyton Ash Free Dry Mass Production
  • Periphyton Dry Weight Production
  • Periphyton Gross Production per Mass
  • Periphyton Net Carbon Production
  • Periphyton Net Respiration per Mass
  • Periphyton Total Phosphorus
  • Plant Total Organic Carbon
  • Plant Total phenol concentration
  • Plant Total sugar concentration
  • Porewater Salinity
  • Precipitation
  • Protein derived T1
  • Quantum Yield Mean
  • Sawgrass Above-Ground Biomass
  • Sawgrass Above-Ground Biomass Standard Deviation
  • Sawgrass Culm Density
  • Sawgrass Culm Density Standard Deviation
  • Scytonemin
  • Slope Ratio
  • Soil %Aromatic C
  • Soil Acid Volatile Sulfide
  • Soil AlkylC/O Alkyl C
  • Soil Aromatic C
  • Soil Ash Weight
  • Soil Bulk Density
  • Soil C/N
  • Soil Cabonyl C
  • Soil Chromium-Reducible Sulfide
  • Soil Delta 13C
  • Soil Dry Weight
  • Soil Eh
  • 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 Loss On Ignition
  • Soil O Alkyl C
  • Soil Organic Weight
  • Soil Percent Organics
  • Soil Temperature
  • Soil Total Carbon Content
  • Soil Total Nitrogen Content
  • Soil Total Phosphorus
  • Soil Total Phosphorus Content
  • Soil Total Sulfide
  • Soil alkyl_C
  • Soil pH
  • Soluble Reactive Phosphorus in Porewater
  • Soluble Reactive Phosphorus in Water
  • Specific UV Absorbance
  • Sum Chl a PAM
  • Surface Water 1,2,3-trimethoxybenzene
  • Surface Water 3,4-Dimethoxytoluene
  • Surface Water Alkyl/o-Alkyl ratio
  • Surface Water Benzaldehyde, 3,4,5-trimethoxy-
  • Surface Water Benzaldehyde, 3,4-dimethoxy-
  • Surface Water Benzene, 1,2,3-trimethoxy-5-methyl-
  • Surface Water Benzene, 1,2-dimethoxy-
  • Surface Water Benzene, 1,2-dimethoxy-4-(1-propenyl)-
  • Surface Water Benzenepropanoic acid, 3,4-dimethoxy-, methyl ester
  • Surface Water Benzoic acid, 3,4,5-trimethoxy-, methyl ester
  • Surface Water Benzoic acid, 3,4-dimethoxy-, methyl ester
  • Surface Water Carbon stable isotope ratio
  • Surface Water Carbon to Nitrogen Ratio
  • Surface Water Dissolved Organic Carbon
  • Surface Water Ethanone, 1-(3,4,5)-trimethoxyphenyl-
  • Surface Water Ethanone, 1-(3,4-dimethoxyphenyl)-
  • Surface Water Fluorescence Index
  • Surface Water Intensity UV humic-like fluorescence
  • Surface Water Intensity of Tryptophan-like fluorescence
  • Surface Water Intensity of Tyrosine-like fluorescence
  • Surface Water Intensity of visible humic-like fluorescence
  • Surface Water Intensity of visible marine humic-like fluorescence
  • Surface Water Maximum Emission Intensity
  • Surface Water Maximum Wavelength
  • Surface Water Mole percentage of Alanine
  • Surface Water Mole percentage of Arginine
  • Surface Water Mole percentage of Aspartic Acid
  • Surface Water Mole percentage of Beta-Alanine
  • Surface Water Mole percentage of D-Isoleucine
  • Surface Water Mole percentage of Gamma-Aminobutyric Acid
  • Surface Water Mole percentage of Glutamic Acid
  • Surface Water Mole percentage of Glycine
  • Surface Water Mole percentage of Histidine
  • Surface Water Mole percentage of L-Isoleucine
  • Surface Water Mole percentage of Leucine
  • Surface Water Mole percentage of Lysine
  • Surface Water Mole percentage of Ornithine
  • Surface Water Mole percentage of Phenylalanine
  • Surface Water Mole percentage of Serine
  • Surface Water Mole percentage of Threonine
  • Surface Water Mole percentage of Tyrosine
  • Surface Water Mole percentage of Valine
  • Surface Water Neutral Sugars
  • Surface Water Nitrogen stable isotope ratio
  • Surface Water Percent 285
  • Surface Water Percent Arabinose
  • Surface Water Percent Aromaticity
  • Surface Water Percent Fucose
  • Surface Water Percent Galactose
  • Surface Water Percent Glucose
  • Surface Water Percent Mannose
  • Surface Water Percent Rhamnose
  • Surface Water Percent Ribose
  • Surface Water Percent Xylose
  • Surface Water Percent primary amine nitrogen
  • Surface Water Percentage Alkyl Carbon
  • Surface Water Percentage Aromatic Carbon
  • Surface Water Percentage Carbonyl Carbon
  • Surface Water Percentage O-alkyl carbon
  • Surface Water Percentage of Amino Acid Nitrogen
  • Surface Water Percentage of Amino Acid carbon
  • Surface Water Percentage of aromatic nitrogen
  • Surface Water Percentage of peptide bond N
  • Surface Water Phenol 2-methoxy-
  • Surface Water Ratio of UV humic-like fluorescence and visible humic-like fluorescence
  • Surface Water Salinity
  • Surface Water Slope of the UV-Vis spectrum
  • Surface Water Specific UV Absorbance
  • Total Concentration of Carbon in Sawgrass
  • Total Concentration of Nitrogen in Sawgrass
  • Total Nitrogen in Water
  • Total Organic Carbon in Water
  • Total Phosphorus Concentration in Sawgrass
  • Total Phosphorus in Water
  • Total chlorophyll degradation products
  • Total chlorophyll-a
  • Tryptophan
  • UV humic peak
  • Visible humic peak
  • Water Salinity
  • Weight of Sample
  • component 1 of EEM-PARAFAC
  • component 1 of EEM-PARAFAC
  • component 2 of EEM-PARAFAC
  • component 3 of EEM-PARAFAC
  • component 4 of EEM-PARAFAC
  • component 5 of EEM-PARAFAC
  • component 6 of EEM-PARAFAC
  • component 7 of EEM-PARAFAC
  • component 8 of EEM-PARAFAC
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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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