Dataset Overview | National Centers for Environmental Information (NCEI)

Physical, chemical, and biological water quality data collected from a small boat in western Lake Erie, Great Lakes from 2020-06-16 to 2021-10-27 (NCEI Accession 0254720)

Preview graphic

Physical, chemical, and biological water quality data from the western basin of Lake Erie collected during the 2020 and 2021 field seasons. These data were collected during repeated trips to a set of stations before, during, and after harmful algal blooms (HABs). Data for the following parameters are included, wind speed, wave height, Secchi depth, CTD temperature, CTD specific conductivity, CTD beam attenuation, CTD transmission, CTD dissolved oxygen, CTD photosynthetically active radiation (PAR), turbidity, particulate microcystin, dissolved microcystin, extracted phycocyanin, extracted phycocyanin, extracted chlorophyll-a, total phosphorus, total dissolved phosphorus, soluble reactive phosphorus, ammonia, nitrate + nitrite, particulate organic carbon, particulate organic nitrogen, colored dissolved organic material absorbance at 400 nm, total suspended solids, and volatile suspended solids. Any cells in a table with no value means there is no data available.

Dataset Citation

Cite as: Burtner, Ashley; Kitchens, Christine; Carter, Glenn; McCabe, Kelly; Henderson, Hayden; Godwin, Casey; Gossiaux, Duane; Errera, Reagan (2022). Physical, chemical, and biological water quality data collected from a small boat in western Lake Erie, Great Lakes from 2020-06-16 to 2021-10-27 (NCEI Accession 0254720). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://www.ncei.noaa.gov/archive/accession/0254720. Accessed [date].

Dataset Identifiers

ISO 19115-2 Metadata

gov.noaa.nodc:0254720

Full Text · XML

Download Data	HTTPS (download) Navigate directly to the URL for data access and direct download. FTP (download) These data are available through the File Transfer Protocol (FTP). FTP is no longer supported by most internet browsers. You may copy and paste the FTP link to the data into an FTP client (e.g., FileZilla or WinSCP).
Distribution Formats	CSV
Ordering Instructions	Contact NCEI for other distribution options and instructions.
Distributor	NOAA National Centers for Environmental Information +1-301-713-3277 NCEI.Info@noaa.gov
Dataset Point of Contact	NOAA National Centers for Environmental Information ncei.info@noaa.gov

Time Period	2020-06-16 to 2021-10-27
Spatial Bounding Box Coordinates	West: -83.55 East: -83 South: 41.35 North: 42
Spatial Coverage Map

General Documentation

NCEI Dataset Landing Page
Navigate directly to the URL for a descriptive web page with download links.
Descriptive Information
Navigate directly to the URL for a descriptive web page with download links.

Associated Resources

Physical, chemical, and biological water quality monitoring data to support detection of Harmful Algal Blooms (HABs) in western Lake Erie, collected by the Great Lakes Environmental Research Laboratory and the Cooperative Institute for Great Lakes Research since 2012
- NCEI Collection
  Navigate directly to the URL for data access and direct download.
NOAA Great Lakes Environmental Research Laboratory
- NOAA - Great Lakes Environmental Research Laboratory
  Great Lakes Harmful Algal Blooms (HABs) and Hypoxia
NOAA National Centers for Coastal Ocean Science
- NOAA - National Centers for Coastal Ocean Scienc
  Lake Erie Harmful Algal Bloom Forecast
US DOC/NOAA/NOS > Center for Operational Oceanographic Products and Services (2018). Forecast products and associated satellite imagery from Lake Erie created by the NOAA Harmful Algal Bloom Operational Forecast System (HAB-OFS) from 2017-06-25 to 2020-10-20. NOAA National Centers for Environmental Information. Dataset. https://www.ncei.noaa.gov/archive/accession/NOS-HABOFS-LakeErie.
- https://www.ncei.noaa.gov/archive/accession/NOS-HABOFS-LakeErie
  Technical Documents, Manuals, and other Documentation
NOAA National Centers for Coastal Ocean Science (2021). Experimental Harmful Algal Bloom (HAB) bulletin forecast products and associated satellite imagery from Lake Erie from 2008-09-04 to 2016-11-01 created by the NOAA National Centers for Coastal Ocean Science. NOAA National Centers for Environmental Information. Dataset. https://doi.org/10.25921/q053-h813.
- https://doi.org/10.25921/q053-h813
  Technical Documents, Manuals, and other Documentation

gov.noaa.nodc:GLERL-CIGLR-HAB-LakeErie-water-qual

Publication Dates	publication: 2022-07-13
Data Presentation Form	Digital table - digital representation of facts or figures systematically displayed, especially in columns
Dataset Progress Status	Complete - production of the data has been completed Historical archive - data has been stored in an offline storage facility
Data Update Frequency	As needed
Supplemental Information	Submission Package ID: DH8G1A
Purpose	These data were collected by the National Oceanic and Atmospheric Administration Great Lakes Environmental Research Laboratory (NOAA-GLERL) and the Cooperative Institute for Great Lakes Research (CIGLR) (NOAA Cooperative Agreement NA17OAR4320152) to support NOAA-GLERL’s operational development of the Lake Erie harmful algal bloom (HAB) forecasts and to directly monitor microcystin concentrations within the ecosystem. We have conducted this discrete field sampling along with continuous field sampling, experimental work, and hydrodynamic-biological mechanistic modeling to ensure development of useful tools and technology for local managers, interfacing with end users- facilitating the translation of research into more effective decision-making and public education.
Use Limitations	accessLevel: Public Distribution liability: NOAA and NCEI make no warranty, expressed or implied, regarding these data, nor does the fact of distribution constitute such a warranty. NOAA and NCEI cannot assume liability for any damages caused by any errors or omissions in these data. If appropriate, NCEI can only certify that the data it distributes are an authentic copy of the records that were accepted for inclusion in the NCEI archives.

Dataset Citation	Cite as: Burtner, Ashley; Kitchens, Christine; Carter, Glenn; McCabe, Kelly; Henderson, Hayden; Godwin, Casey; Gossiaux, Duane; Errera, Reagan (2022). Physical, chemical, and biological water quality data collected from a small boat in western Lake Erie, Great Lakes from 2020-06-16 to 2021-10-27 (NCEI Accession 0254720). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://www.ncei.noaa.gov/archive/accession/0254720. Accessed [date].
Cited Authors	Burtner, Ashley Cooperative Institute for Great Lakes Research (CIGLR) Kitchens, Christine Cooperative Institute for Great Lakes Research (CIGLR) Carter, Glenn Cooperative Institute for Great Lakes Research (CIGLR) McCabe, Kelly Cooperative Institute for Great Lakes Research (CIGLR) Henderson, Hayden Cooperative Institute for Great Lakes Research (CIGLR) Godwin, Casey Cooperative Institute for Great Lakes Research (CIGLR) Gossiaux, Duane NOAA Great Lakes Environmental Research Laboratory Errera, Reagan NOAA Great Lakes Environmental Research Laboratory
Contributors	US DOC; NOAA; OAR; Great Lakes Environmental Research Laboratory (GLERL)
Resource Providers	Lacey Mason US DOC; NOAA; OAR; Great Lakes Environmental Research Laboratory (GLERL) US DOC; NOAA; OAR; Great Lakes Environmental Research Laboratory (GLERL)
Points of Contact	NOAA GLERL Data Manager US DOC; NOAA; OAR; Great Lakes Environmental Research Laboratory (GLERL) Reagan Errera US DOC; NOAA; OAR; Great Lakes Environmental Research Laboratory (GLERL) Casey Godwin University of Michigan Cooperative Institute for Great Lakes Research (CIGLR)
Publishers	NOAA National Centers for Environmental Information
Acknowledgments	Related Funding Agency: US DOC; NOAA; OAR; Great Lakes Environmental Research Laboratory Related Funding Agency: US Environmental Protection Agency

Theme keywords	NODC DATA TYPES THESAURUS AMMONIA (NH3) Attenuation/Transmission CONDUCTIVITY DISSOLVED OXYGEN PARTICULATE ORGANIC CARBON PARTICULATE ORGANIC NITROGEN (PON) PHOTOSYNTHETIC ACTIVE RADIATION (PAR) Secchi depth TOTAL PHOSPHORUS turbidity WATER TEMPERATURE WAVE HEIGHT WIND SPEED NODC OBSERVATION TYPES THESAURUS in situ laboratory analyses WMO_CategoryCode oceanography Global Change Master Directory (GCMD) Science Keywords EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC WINDS > SURFACE WINDS > WIND SPEED EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > AMMONIA EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > NITROGEN EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > ORGANIC CARBON EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > OXYGEN EARTH SCIENCE > OCEANS > OCEAN OPTICS > ATTENUATION/TRANSMISSION EARTH SCIENCE > OCEANS > OCEAN OPTICS > PHOTOSYNTHETICALLY ACTIVE RADIATION EARTH SCIENCE > OCEANS > OCEAN OPTICS > SECCHI DEPTH EARTH SCIENCE > OCEANS > OCEAN OPTICS > TURBIDITY EARTH SCIENCE > OCEANS > OCEAN TEMPERATURE > WATER TEMPERATURE EARTH SCIENCE > OCEANS > OCEAN WAVES > WAVE HEIGHT EARTH SCIENCE > OCEANS > SALINITY/DENSITY > CONDUCTIVITY Provider Keywords beam attenuation chlorophyll a - extracted colored dissolved organic material absorbance at 400nm dissolved microcystin extracted phycocyanin nitrate + nitrite content particulate microcystin sample depth (category) soluble reactive phosphorus total dissolved phosphorus total suspended solids volatile suspended solids
Data Center keywords	NODC COLLECTING INSTITUTION NAMES THESAURUS US DOC; NOAA; OAR; Great Lakes Environmental Research Laboratory NODC SUBMITTING INSTITUTION NAMES THESAURUS US DOC; NOAA; OAR; Great Lakes Environmental Research Laboratory Global Change Master Directory (GCMD) Data Center Keywords DOC/NOAA/OAR/GLERL > Great Lakes Environmental Research Laboratory, OAR, NOAA, U.S. Department of Commerce
Instrument keywords	NODC INSTRUMENT TYPES THESAURUS buoy - moored buoy CHN Analyzer CTD flow injection analyzer fluorometer Secchi disk spectrophotometer turbidity sensor Global Change Master Directory (GCMD) Instrument Keywords CHN ANALYZERS > Carbon, Hydrogen, Nitrogen Analyzers CTD > Conductivity, Temperature, Depth FIA > FLOW INJECTION ANALYSIS FLUOROMETERS > FLUOROMETERS OPTSPEC > Optical Spectrometer SECCHI DISKS > SECCHI DISKS TURBIDITY METERS > TURBIDITY METERS Provider Instruments Abraxis ELISA kit Carlo-Erba model 1110 CHN Elemental Analyzer Hach 2100AN Turbidimeter Perkin Elmer UV/VIS spectrophotometer Lambda 35 SBE 19plus V2 SeaCAT Profiler CTD Seal QuAAtro or Seal AA3 Turner Designs 10-AU Fluorometer Turner Designs Aquafluor 8000-010 moored buoy small boat
Place keywords	NODC SEA AREA NAMES THESAURUS Great Lakes Global Change Master Directory (GCMD) Location Keywords CONTINENT > NORTH AMERICA > CANADA > GREAT LAKES, CANADA CONTINENT > NORTH AMERICA > UNITED STATES OF AMERICA > GREAT LAKES Provider Place Names Lake Erie
Project keywords	Provider Project Names Great Lakes Restoration Initiative
Keywords	NCEI ACCESSION NUMBER 0254720

Use Constraints	Cite as: Burtner, Ashley; Kitchens, Christine; Carter, Glenn; McCabe, Kelly; Henderson, Hayden; Godwin, Casey; Gossiaux, Duane; Errera, Reagan (2022). Physical, chemical, and biological water quality data collected from a small boat in western Lake Erie, Great Lakes from 2020-06-16 to 2021-10-27 (NCEI Accession 0254720). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://www.ncei.noaa.gov/archive/accession/0254720. Accessed [date].
Access Constraints	Use liability: NOAA and NCEI cannot provide any warranty as to the accuracy, reliability, or completeness of furnished data. Users assume responsibility to determine the usability of these data. The user is responsible for the results of any application of this data for other than its intended purpose.
Fees	In most cases, electronic downloads of the data are free. However, fees may apply for custom orders, data certifications, copies of analog materials, and data distribution on physical media.

Lineage information for: dataset
Processing Steps	2022-07-13T18:52:31Z - NCEI Accession 0254720 v1.1 was published.
Output Datasets	NCEI Accession 0254720 v1.1 NCEI Accession 0254720 v1.1 (download) published 2022-07-13T18:52:31Z

Lineage information for: dataset
Processing Steps	Parameter or Variable: WIND SPEED (measured); Units: knots; Observation Category: in situ; Sampling Instrument: buoy - moored buoy; Sampling and Analyzing Method: Data were downloaded weekly from http://glbuoys.glos.us/45165 and http://www.ndbc.noaa.gov/station_realtime.php?station=THLO1; Data Quality Method: Expert review. Parameter or Variable: WAVE HEIGHT (measured); Units: feet; Observation Category: in situ; Sampling Instrument: buoy - moored buoy; Sampling and Analyzing Method: Data were downloaded weekly from http://glbuoys.glos.us/45165 and http://data.glos.us/glcfs/; Data Quality Method: Expert review. Parameter or Variable: SECCHI DEPTH (measured); Units: meters; Observation Category: in situ; Sampling Instrument: secchi disk; Data Quality Method: Expert review. Parameter or Variable: TEMPERATURE - WATER - CONTINUOUS MEASUREMENT [WATER TEMPERATURE] (measured); Units: degrees Celsius; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review. Parameter or Variable: CONDUCTIVITY (measured); Units: micro Siemens per centimeter; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review. Parameter or Variable: BEAM ATTENUATION (measured); Units: m^-1; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review. Parameter or Variable: Attenuation/Transmission (measured); Units: percent; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review. Parameter or Variable: DISSOLVED OXYGEN (measured); Units: milligrams per liter; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review. Parameter or Variable: RADIATION - PHOTOSYNTHETICALLY ACTIVE [PHOTOSYNTHETIC ACTIVE RADIATION (PAR)] (measured); Units: micro Einsteins per meter^2 per second; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review. Parameter or Variable: turbidity (measured); Units: NTU; Observation Category: laboratory analysis; Sampling Instrument: Hach 2100AN Turbidimeter; Sampling and Analyzing Method: Turbidity was measured immediately after returning samples to the lab using a benchtop Hach turbidimeter.; Data Quality Method: Expert review. Parameter or Variable: particulate mycrosystin (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Abraxis ELISA kit; Sampling and Analyzing Method: Two replicates for particulate microcystin (MC) were filtered onto Whatman GF/F filters (2012-2015) or Isopore membrane filters (2016-2018). Filters were placed in 70:30 methanol:water, sonicated, and toxins extracted for 12 hours at -20C (2012-2015) After removing the solvent extract, extraction was repeated twice again for an hour (2012-2015). Alternatively, toxins were extracted using commercially available Abraxis QuikLyse kits (2016-2018). Microcystin were quantified using commercial-available Abraxis ELISA kits.; Data Quality Method: Expert review. Parameter or Variable: dissolved microcystin (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Abraxis ELISA kit; Sampling and Analyzing Method: Two replicates for particulate microcystin were filtered through a 0.22 µm nylon filter and quantified using commercial available Abraxis ELISA kits.; Data Quality Method: Expert review. Parameter or Variable: extracted phycocyanin (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Turner Designs Aquafluor 8000-010; Sampling and Analyzing Method: Phycocyanin was measured in triplicate by filtering by concentrating samples onto 47-mm GF/F Whatman Glass Fiber filters. Phosphate buffer was added and samples were extracted using freeze/thaw cycles and sonication. Samples were read on a Turner Aquafluor.; Data Quality Method: Expert review. Parameter or Variable: CHLOROPHYLL A - extracted (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Turner Designs 10-AU Fluorometer; Sampling and Analyzing Method: Chlorophyll α was measured in duplicate by concentrating lake water particulates on a 47-mm GF/F filter and performing a dimethylformamide extraction. Samples were read on a Turner 10AU Fluorometer.; Data Quality Method: Expert review. Parameter or Variable: TOTAL PHOSPHORUS (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Total phosphorus was measured in duplicate after digesting 50 mL of unfiltered lake water with potassium persulfate in an autoclave for 30 min. Concentrations were determined using the standard molybdate/ascorbic acid method on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review. Parameter or Variable: total dissolved phosphorus (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Total dissolved phosphorus was measured in duplicate by filtering 20 mL of lake water through a pre-rinsed 0.2-um Nucleopore filter and digesting with potassium persulfate in an autoclave for 30 min. Concentrations were determined using the standard molybdate/ascorbic acid method on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review. Parameter or Variable: soluble reactive phosphorus (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Soluble reactive phosphorus was measured in duplicate by filtering 12 mL of lake water through a pre-rinsed 0.2-um Nucleopore filter. Concentrations were determined using the standard molybdate/ascorbic acid method on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review. Parameter or Variable: AMMONIA (NH3) (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Ammonia was measured in duplicate by filtering 12 mL of lake water through a pre-rinsed 0.2-um Nucleopore filter. Concentrations were determined using the standard Bertholet reaction on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review. Parameter or Variable: nitrate + nitrite content (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Nitrate + Nitrite was measured in duplicate by filtering 12 mL of lake water through a pre-rinsed 0.2-um Nucleopore filter. Concentrations were determined using the standard cadmium reduction method on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review. Parameter or Variable: PARTICULATE ORGANIC CARBON (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: Carlo-Erba model 1110 CHN Elemental Analyzer; Sampling and Analyzing Method: Samples for particulate organic carbon were processed in duplicate by filtering lake water through pre-combusted GF/F filters. Filters were acidified with 10 % HCL, and dried at 70⁰ C for 24 hours, and measured with a Perkin Elmer CHN elemental analyzer.; Data Quality Method: Expert review. Parameter or Variable: PARTICULATE ORGANIC NITROGEN (PON) (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: Carlo-Erba model 1110 CHN Elemental Analyzer; Sampling and Analyzing Method: Samples for particulate organic nitrogen were processed in duplicate by filtering lake water through pre-combusted GF/F filters. Filters were acidified with 10 % HCL, and dried at 70⁰ C for 24 hours, and measured with a Perkin Elmer CHN elemental analyzer.; Data Quality Method: Expert review. Parameter or Variable: colored dissolved organic material absorbance at 400nm (measured); Units: meter^-1; Observation Category: laboratory analysis; Sampling Instrument: Perkin Elmer UV/VIS spectrophotometer Lambda 35; Sampling and Analyzing Method: Colored dissolved organic material (CDOM) was processed by filtering lake water through an acid-rinsed Nucleopore polycarbonate filter into an acid-washed and combusted borosilicate vial. CDOM was analyzed on a Perkin Elmer spectrophotometer within a week.; Data Quality Method: Expert review. Parameter or Variable: total suspended solids (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: n/a; Sampling and Analyzing Method: Total Suspended Solids were determined gravimetrically by concentrating lake water on a pre-combusted, pre-weighed GF/F filter. The filters were dried at 60° C for at least 24 hours and then reweighed.; Data Quality Method: Expert review. Parameter or Variable: volatile suspended solids (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: n/a; Sampling and Analyzing Method: Volatile Suspended Solids were determined by combusting total suspended solids filters at 450 °C and calculating the mass lost.; Data Quality Method: Expert review. Parameter or Variable: sample depth (category) (measured); Units: categorical description; Observation Category: in situ; Sampling Instrument: n/a; Sampling and Analyzing Method: Scum, surface, mid, or bottom sampling depth. Scum indicates sampling in top ~10 cm of water column; surface indicates sample from ~50 cm of of water depth..

Lineage information for: dataset

Processing Steps

Parameter or Variable: WIND SPEED (measured); Units: knots; Observation Category: in situ; Sampling Instrument: buoy - moored buoy; Sampling and Analyzing Method: Data were downloaded weekly from http://glbuoys.glos.us/45165 and http://www.ndbc.noaa.gov/station_realtime.php?station=THLO1; Data Quality Method: Expert review.
Parameter or Variable: WAVE HEIGHT (measured); Units: feet; Observation Category: in situ; Sampling Instrument: buoy - moored buoy; Sampling and Analyzing Method: Data were downloaded weekly from http://glbuoys.glos.us/45165 and http://data.glos.us/glcfs/; Data Quality Method: Expert review.
Parameter or Variable: SECCHI DEPTH (measured); Units: meters; Observation Category: in situ; Sampling Instrument: secchi disk; Data Quality Method: Expert review.
Parameter or Variable: TEMPERATURE - WATER - CONTINUOUS MEASUREMENT [WATER TEMPERATURE] (measured); Units: degrees Celsius; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review.
Parameter or Variable: CONDUCTIVITY (measured); Units: micro Siemens per centimeter; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review.
Parameter or Variable: BEAM ATTENUATION (measured); Units: m^-1; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review.
Parameter or Variable: Attenuation/Transmission (measured); Units: percent; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review.
Parameter or Variable: DISSOLVED OXYGEN (measured); Units: milligrams per liter; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review.
Parameter or Variable: RADIATION - PHOTOSYNTHETICALLY ACTIVE [PHOTOSYNTHETIC ACTIVE RADIATION (PAR)] (measured); Units: micro Einsteins per meter^2 per second; Observation Category: in situ; Sampling Instrument: SBE 19plus V2 SeaCAT Profiler CTD; Sampling and Analyzing Method: Conductivity, temperature, and depth sensor (CTD) data was collected by allowing the sensors to stabilize underwater, bringing the instrument to the surface, and then dropping it slowly. Values reported are the mean of all recorded values ±0.5m of the sample depth from the downcast of the instrument.; Data Quality Method: Expert review.
Parameter or Variable: turbidity (measured); Units: NTU; Observation Category: laboratory analysis; Sampling Instrument: Hach 2100AN Turbidimeter; Sampling and Analyzing Method: Turbidity was measured immediately after returning samples to the lab using a benchtop Hach turbidimeter.; Data Quality Method: Expert review.
Parameter or Variable: particulate mycrosystin (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Abraxis ELISA kit; Sampling and Analyzing Method: Two replicates for particulate microcystin (MC) were filtered onto Whatman GF/F filters (2012-2015) or Isopore membrane filters (2016-2018). Filters were placed in 70:30 methanol:water, sonicated, and toxins extracted for 12 hours at -20C (2012-2015) After removing the solvent extract, extraction was repeated twice again for an hour (2012-2015). Alternatively, toxins were extracted using commercially available Abraxis QuikLyse kits (2016-2018). Microcystin were quantified using commercial-available Abraxis ELISA kits.; Data Quality Method: Expert review.
Parameter or Variable: dissolved microcystin (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Abraxis ELISA kit; Sampling and Analyzing Method: Two replicates for particulate microcystin were filtered through a 0.22 µm nylon filter and quantified using commercial available Abraxis ELISA kits.; Data Quality Method: Expert review.
Parameter or Variable: extracted phycocyanin (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Turner Designs Aquafluor 8000-010; Sampling and Analyzing Method: Phycocyanin was measured in triplicate by filtering by concentrating samples onto 47-mm GF/F Whatman Glass Fiber filters. Phosphate buffer was added and samples were extracted using freeze/thaw cycles and sonication. Samples were read on a Turner Aquafluor.; Data Quality Method: Expert review.
Parameter or Variable: CHLOROPHYLL A - extracted (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Turner Designs 10-AU Fluorometer; Sampling and Analyzing Method: Chlorophyll α was measured in duplicate by concentrating lake water particulates on a 47-mm GF/F filter and performing a dimethylformamide extraction. Samples were read on a Turner 10AU Fluorometer.; Data Quality Method: Expert review.
Parameter or Variable: TOTAL PHOSPHORUS (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Total phosphorus was measured in duplicate after digesting 50 mL of unfiltered lake water with potassium persulfate in an autoclave for 30 min. Concentrations were determined using the standard molybdate/ascorbic acid method on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review.
Parameter or Variable: total dissolved phosphorus (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Total dissolved phosphorus was measured in duplicate by filtering 20 mL of lake water through a pre-rinsed 0.2-um Nucleopore filter and digesting with potassium persulfate in an autoclave for 30 min. Concentrations were determined using the standard molybdate/ascorbic acid method on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review.
Parameter or Variable: soluble reactive phosphorus (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Soluble reactive phosphorus was measured in duplicate by filtering 12 mL of lake water through a pre-rinsed 0.2-um Nucleopore filter. Concentrations were determined using the standard molybdate/ascorbic acid method on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review.
Parameter or Variable: AMMONIA (NH3) (measured); Units: microgram/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Ammonia was measured in duplicate by filtering 12 mL of lake water through a pre-rinsed 0.2-um Nucleopore filter. Concentrations were determined using the standard Bertholet reaction on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review.
Parameter or Variable: nitrate + nitrite content (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: Seal QuAAtro or Seal AA3; Sampling and Analyzing Method: Nitrate + Nitrite was measured in duplicate by filtering 12 mL of lake water through a pre-rinsed 0.2-um Nucleopore filter. Concentrations were determined using the standard cadmium reduction method on either a Seal QuAAtro or AA3.; Data Quality Method: Expert review.
Parameter or Variable: PARTICULATE ORGANIC CARBON (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: Carlo-Erba model 1110 CHN Elemental Analyzer; Sampling and Analyzing Method: Samples for particulate organic carbon were processed in duplicate by filtering lake water through pre-combusted GF/F filters. Filters were acidified with 10 % HCL, and dried at 70⁰ C for 24 hours, and measured with a Perkin Elmer CHN elemental analyzer.; Data Quality Method: Expert review.
Parameter or Variable: PARTICULATE ORGANIC NITROGEN (PON) (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: Carlo-Erba model 1110 CHN Elemental Analyzer; Sampling and Analyzing Method: Samples for particulate organic nitrogen were processed in duplicate by filtering lake water through pre-combusted GF/F filters. Filters were acidified with 10 % HCL, and dried at 70⁰ C for 24 hours, and measured with a Perkin Elmer CHN elemental analyzer.; Data Quality Method: Expert review.
Parameter or Variable: colored dissolved organic material absorbance at 400nm (measured); Units: meter^-1; Observation Category: laboratory analysis; Sampling Instrument: Perkin Elmer UV/VIS spectrophotometer Lambda 35; Sampling and Analyzing Method: Colored dissolved organic material (CDOM) was processed by filtering lake water through an acid-rinsed Nucleopore polycarbonate filter into an acid-washed and combusted borosilicate vial. CDOM was analyzed on a Perkin Elmer spectrophotometer within a week.; Data Quality Method: Expert review.
Parameter or Variable: total suspended solids (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: n/a; Sampling and Analyzing Method: Total Suspended Solids were determined gravimetrically by concentrating lake water on a pre-combusted, pre-weighed GF/F filter. The filters were dried at 60° C for at least 24 hours and then reweighed.; Data Quality Method: Expert review.
Parameter or Variable: volatile suspended solids (measured); Units: milligrams/liter; Observation Category: laboratory analysis; Sampling Instrument: n/a; Sampling and Analyzing Method: Volatile Suspended Solids were determined by combusting total suspended solids filters at 450 °C and calculating the mass lost.; Data Quality Method: Expert review.
Parameter or Variable: sample depth (category) (measured); Units: categorical description; Observation Category: in situ; Sampling Instrument: n/a; Sampling and Analyzing Method: Scum, surface, mid, or bottom sampling depth. Scum indicates sampling in top ~10 cm of water column; surface indicates sample from ~50 cm of of water depth..

Acquisition Information (collection)
Instrument	buoy - moored buoy CHN Analyzer CTD flow injection analyzer fluorometer Secchi disk spectrophotometer turbidity sensor

Last Modified: 2024-02-28T14:46:40Z
For questions about the information on this page, please email: ncei.info@noaa.gov

Physical, chemical, and biological water quality data collected from a small boat in western Lake Erie, Great Lakes from 2020-06-16 to 2021-10-27 (NCEI Accession 0254720)

Follow us

Contact us