US Long-Term Ecological Research Network

Cascade Project at North Temperate Lakes LTER: Process Data 1984 - 2007

Abstract
Data on chlorophyll, primary productivity, and alkaline phosphatase activity from 1984-2007. Samples were collected with a Van Dorn bottle at 6 depths determined from the percent of surface irradiance (100%, 50%, 25%, 10%, 5% and 1%) and in the hypolimnion (12 m in Peter, East Long, West Long, and Tuesday lakes; 9 m in Paul Lake; and 4.5 m in Central Long Lake). Sampling Frequency: varies Number of sites: 8
Core Areas
Dataset ID
73
Date Range
-
LTER Keywords
Maintenance
completed
Metadata Provider
Methods
CHLOROPHYLL a ANALYSISEQUIPMENT: Film canistersTurner 450 Fluorometer fitted with:1. Quartz-halogen lamp2. Emission filter -SC6653. Excitation filter -NB44047mm Whatman GForF filters12 x 75 mm disposable glass culture cuvettes (Do not reuse cuvettes!)1-5 mL Oxford pipettorFinnpipette Stepper Pipetter with 5 mL tiptimestimesNOTEtimestimes-Change filters with fluorometer off! (Remember that chlorophyll analysis filters are different from APA analysis filters.)-Make sure Fluorometer has been calibrated for chlorophyll a (see Fluorometer Calibration for Chlorophyll a Analysis).REAGENTS: 100percent Methanol, spectrophotometric gradeCAUTION - wear gloves whenever you use methanol.0.1 N HCLEthidium Bromide Stock 3 standard (40microM solution)PROCEDURE:A. Filter water samples from each of the 6 light-depths onto a 47 mm GForF filter.1. Filters have a grid side and a smooth side. Place filter smooth side up.2. Shake sample bottle well before filtering (do this after the DIC sample has been taken from the same bottle.)3. For each depth, filter enough water so there is a faint color on the filter. For our lakes this ranges between 100-300ml. Record the volume filtered. Make sure you filer at less than 200 mm Hg pressure.4. Rinse filter towers and filters with DI water, place filters in labeled film canisters and place in freezer. Labels should include lake, date, and depth ID.5. If measuring edible chlorophyll as well, repeat steps 1-4 above, but first filter the sample through 35 microm mesh. (This has not been done since 2001, inclusive.)B. Extraction - DO IN DIM LIGHT and WEAR GLOVES!!1. Remove one tray of film canisters from the freezer. Extract chlorophyll by adding 25 mL 100percent MeOH to each film canister. If using re-pipettor, verify dispensed volume. (Record extraction volume if different from 25 mL.) Note the extraction time for each group of samples.2. Re-cap and place canisters in refrigerator to extract for exactly 24 hours (in the dark).3 Repeat steps 1 and 2 for all trays that have been in the freezer more than 24 hours.C. FluorometryCalibration of the fluorometer using a chlorophyll standard is typically performed at the beginning of the field season, or when a bulb is changed. Calibration using Ethidium Bromide is done at the beginning of each sample set.1. Insert correct filters in fluorometer while fluorometer is off. (Emission filter -SC665, Excitation filter -NB440), and warm it up for 1 hour .2. TURN LIGHTS OUT. Chlorophylls must be read in low light and samples must be kept cool. Do not remove film canisters from the refrigerator until you are ready to process the samples.3. Place clean cuvettes into a labeled rack (12 cuvettes per rack). Remove one lake-day of film canisters from the refrigerator.4. Place Ethidium Bromide Stock 3 standard into fluorometer and record reading on datasheet. Then, turn the span knob until the reading is 908. Record this on the datasheet.5. Shake film canister, remove the lid, and rinse the pipette tip with 2.5 mL of the sample. Then remove 2.5 mL of sample and place in cuvette.times Repeat for all film canisters.6. Pipette 2.5 mL of 100percent methanol into a cuvette for the blank and use it to zero the fluorometer. Choose a gain and turn the zero knob until the fluorometer reads 000. You must zero the machine every time you change gains.7. Remove the first sample cuvette from the rack, wipe with a Kimwipe, and place in fluorometer. Record the gain and the fluorescence before acidification, Fb. Repeat for all 12 cuvettes in the rack. Readings should be between about 200 and 1000. If not, adjust the gain and re-zero.8. Acidify each cuvette with 100 microL 0.0773 N HCl using the repeating pipetter and mix (hold the top of the cuvette securely, then "thump" the bottom several times). Check for condensation on the outside of the cuvettes, and wipe with a Kimwipe if necessary. Wait about 1 min from the acidification of the first cuvette.9. Record the fluorescence after acidification for all 12 cuvettes. VERY IMPORTANT: Make sure you read the Fb and Fa values for each sample on the same gain.10. Remove a new lake-day batch of film canisters from the refrigerator and repeat steps 3-9.times if particulate matter is present, centrifuge sample for 10 min. and use supernatant.D. Clean Up: DO THIS UNDER THE HOOD!1. Dump methanol solution from cuvettes and film canisters into a metal tray. Place the film canisters and lids in a separate tray. Position them in one layer on the tray with their openings facing up. Leave the trays under the hood overnight to evaporate the methanol.REFERENCES:Marker, A.F.H., C.A. Crowther, and R.J.M. Gunn. 1980. Methanol and acetone as solvents for estimating chlorophyll a and phaeopigments by spectrophotometry. Arch. Hydrobiol. Beih. Ergebn. Limnol 14: 52-69.Strickland, J.H. and T.R. Parsons. 1968. A practical handbook of seawater analysis. Fish. Res. Brd. Can. Bulletin 167.pp. 201-206.Holm-Hansen, O. 1978. Chlorophyll a determination: improvements in methodology. Oikos 30:438-447.
Short Name
CPROC1
Version Number
6

Biocomplexity at North Temperate Lakes LTER; Coordinated Field Studies: Chemical Limnology 2001 - 2004

Abstract
Chemical Limnology data collected for Biocomplexity Project; Landscape Context - Coordinated Field Studies Replicate chemical samples were pumped from the surface water (0.5m depth) and secchi depth was recorded at each lake. Temperature/dissolved oxygen profiles were taken throughout the water column at one meter intervals on all lakes. For more detail see the Water Sampling Protocol. Sampling Frequency: During 2001, temperature/dissolved oxygen profiles and secchi depths were taken twice during the stratified summer period. Chemistry samples were only taken once during the 2001 stratified period. From 2002 through 2004, all chemical and physical water samples were taken once during June (or resampled during the stratified period if June samples were bad). All lakes in which color, DIC/DOC, and chlorophyll samples were taken in 2001 were resampled in 2002 due to error in collection and/or analysis. Number of sites: 62 Vilas County lakes were sampled from 2001-2004 (approximately 15 different lakes each year).
Dataset ID
41
Date Range
-
Maintenance
completed
Metadata Provider
Methods
Environmental Sampling and Analysis: Physical, chemical and biological samples were taken above the deepest point in each lake during the summer stratification period (June, July, or August). Water samples were collected from one half meter depth using a peristaltic pump, and were analyzed for pH, alkalinity, specific conductance, water color, chlorophyll-a, dissolved organic and inorganic carbon, total phosphorus, and total nitrogen (Appendix Table 1). Secchi depth, temperature and dissolved oxygen profiles, and vertical plankton tows were also taken at the deepest point. Temperature and dissolved oxygen concentrations (DO) were measured through the water column at 1 meter increments.. Conductivity, TP-TN, alkalinity and pH water samples were collected unfiltered while water for DIC-DOC and color water samples was filtered through nucleopore polycarbonate filters. Alkalinity, pH, and DIC-DOC samples were filled to the top and sealed quickly to prevent CO2 loss or invasion. Samples containing air bubbles were recollected. Chlorophyll samples were collected on glass fiber filters in the field. Water chemistry and chlorophyll a analyses were done at the Trout Lake Biological Station, Boulder Junction, WI except for TP, TN, DIC and DOC samples, which were analyzed at the Center for Limnology-Lake Mendota Laboratory, Madison, WI.
NTL Keyword
Short Name
BIOCHEM1
Version Number
7
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