Category |
Code |
Description |
Source |
Reference |
Active
|
Alias
|
Analysis
|
AXYS-MLA-110-02-08
|
Analytical Procedure for the Analysis of Per- and Polyfluoroalkyl Substances (PFAS) in Aqueous Samples, Solids and Solvent Extracts by LC-MS/MS, Rev 02, Ver 08.
|
AXYS Analytical
|
SGS AXYS Analytical Services Ltd., Sidney, BC, MLA-110, Rev 02, Ver 08, November 12, 2020, http://www.axysanalytical.com
|
Y
|
AXYS MLA-110-02-08
|
Analysis
|
AXYS-MLA-111-02-02
|
Analytical Procedure for the Analysis of Total Oxidizable Precursors (Top) in Aqueous and Solid Matrices, Rev 02, Ver 02
|
AXYS Analytical
|
SGS AXYS Analytical Services Ltd., Sidney, BC, MLA-111, Rev 02, Ver 02. December 2017, http://www.axysanalytical.com
|
Y
|
|
Analysis
|
AXYS-MLA-111-02-03
|
Analytical Procedure for the Analysis of Total Oxidizable Precursors (Top) in Aqueous and Solid Matrices, Rev 02, Ver 03
|
AXYS Analytical
|
SGS AXYS Analytical Services Ltd., Sidney, BC, MLA-111, Rev 02, Ver 03. May 2019, http://www.axysanalytical.com
|
Y
|
|
Analysis
|
AXYS-MLA-111-03-01
|
Analytical Procedure for the Analysis of Total Oxidizable Precursors (Top) in Aqueous and Solid Matrices, Rev 03, Ver 01.
|
AXYS Analytical
|
SGS AXYS Analytical Services Ltd., Sidney, BC, MLA-111, Rev 03, Ver 01, November 13, 2020, https://www.sgsaxys.com/
|
Y
|
AXYS MLA-111-03-01
|
Analysis
|
AXYS-MLA-228-01
|
Organochlorine Pesticides by Isotope Dilution by Gas Chromatography Tandem Mass Spectrometry/ (GCMSMS), AXYS Analytical Services Method, Revision 1
|
AXYS Analytical
|
AXYS Analytical Services Ltd., Sidney, BC, MLA-228, Rev 01, http://www.axysanalytical.com/
|
Y
|
|
Preparation
|
AXYS-XLA-076-M
|
Filtration and XAD-2 Extraction of Large Volume Water Samples, modified (field filtration instead of lab filtration), Rev not specified
|
AXYS Analytical
|
SGS AXYS Analytical Services Ltd., Sidney, BC, XLA-076-M, Rev not specified, http://www.axysanalytical.com
|
Y
|
|
Collection
|
BAILER-POLYETHYLENE
|
Bailer, Polyethylene
|
|
|
Y
|
|
Collection
|
BAILER-PVC
|
Bailer, PVC
|
|
|
Y
|
BAIL-PVC
|
Collection
|
BAILER-STAINLESS
|
Bailer, stainless steel
|
|
|
Y
|
BAIL-SS
|
Collection
|
BAILER-TEFLON
|
Bailer, Teflon
|
|
|
Y
|
BAIL-TEF
|
Collection
|
BAILER-UNKNOWN
|
Bailer, material unknown
|
|
|
Y
|
|
Analysis
|
BAL-4100-001C
|
Arsenic speciation by Ion Chromatography – Inductively Coupled Plasma Mass Spectrometry (IC-ICP-MS), Rev 001c.
|
|
Brooks Applied Labs, SOP BAL-4100, Revision 001c, 2018-12-04.
|
Y
|
|
Measurement
|
Barometer-aneroid
|
Barometric pressure using aneroid barometer
|
|
|
Y
|
BARO
|
COLLECTION
|
BCKT-PLSTC
|
Bucket, plastic
|
|
|
Y
|
|
COLLECTION
|
BCKT-SS
|
Bucket, stainless steel
|
|
|
Y
|
|
Analysis
|
Beacon-ELISA-20-0149
|
Cylindrospermopsin by Enzyme-Labeled Immunosorbant Assay (ELISA) using the Beacon Cylindrospermopsin Plate Kit
|
|
Beacon Analytical Systems Inc., 82 Industrial Park Road, Saco, ME 04072. Cylindrospermopsin Plate Kit, Catalog #20-0149
|
Y
|
|
Derivation
|
BeamAttenCalc
|
Light beam attenuation coefficient in water column, calculated from transmissometer measurements, wavelength 650 to 660 nm, pathlength 25 cm
|
|
Generic, technology-based method. Use in place of instrument-specific methods. If you wish, put instrument-specific info in comment field.
|
Y
|
|
Derivation
|
Benson&Krause84DOSAT
|
Dissolved Oxygen (DO) Percent Saturation in freshwater and seawater calculated using Benson & Krause 1984 & 1980 algorithms.
|
|
Benson, B.B., and D. Krause, Jr, 1984 & 1980. The concentration and isotopic fractionation of oxygen dissolved in freshwater and seawater in equilibrium with the atmosphere: Limnology & Oceanography, vol. 29, no. 3, p. 620-32 and vol. 25. no 4, p. 662-71
|
Y
|
|
PREPARATION
|
BENTH.5MIC
|
Sediment sample rinsed through a .5 micron soil sieve for Macroinvertebrate identification
|
|
|
Y
|
|
COLLECTION
|
BENTHDFKN
|
Macroinvertebrates (benthic) from stream riffle or pool w/500-um net mesh D-Frame kicknet, 8 sq. ft.
|
|
Plotnikoff, R.W. and C. Wiseman. 2001. Benthic Macroinvertebrate Biological Monitoring Protocols for Rivers and Streams: 2001 Revision. Washington Department of Ecology, Olympia, WA. Ecology Publication no. 01-03-028
|
Y
|
|
Analysis
|
BERNHARDT67-P
|
Seawater/Marine Dissolved Orthophosphate by Autoanalyzer
|
|
Bernhardt and Wilhelms, 1967; also Knap, A., et al. (eds.). 1996. Protocols for the Joint Global Ocean Flux Study (JGOFS) Core Measurements. JGOFS Report Nr. 19, vi+170 pp. Reprint of the IOC Manuals and Guides No. 29, UNESCO 1994.
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric001
|
Percent of the taxa in the sample that breathe air directly rather than extracting it from water using gills.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric002
|
Number of taxa in the sample that breathe air directly rather than extracting it from water using gills.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric003
|
Ratio of Baetidae/Ephemeroptera within the sample
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric004
|
The percent of the sample represented by organisms that feed on fine organic matter while buried in the sediments.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric005
|
The number of taxa in the sample represented by organisms that feed on fine organic matter while buried in the sediments
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric006
|
The percent of the sample represented by organisms that have adaptations to help them attach to surfaces in flowing water.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric007
|
The number of taxa in the sample represented by organisms that have adaptations to help them attach to surfaces in flowing water.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric008
|
Percent of the taxa in the sample that survive in a narrow range of cold water temperatures
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric009
|
Number of taxa in the sample that survive in a narrow range of cold water temperatures
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric010
|
The percent of the sample made up of organisms that consume fine particulate organic matter, and include both Gatherers (those who collect from the bottom substrate) and Filterers (those who collect from the water column)
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric011
|
A community tolerance quotient based on the tolerance of taxa in the sample to alkalinity and sulphates, and the selectivity of taxa in the sample for or against fine substrates and low stream gradients (Winget and Mangum, 1979). This weighted abundance measure ranges from 2 (unpolluted) to 108 (severely polluted).
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric012
|
Percent of the sample represented by the 10 most abundant taxa
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric013
|
Percent of the sample represented by the 2 most abundant taxa
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric014
|
Percent of the sample represented by the 3 most abundant taxa
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric015
|
Percent of the sample represented by the single most abundant taxon
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric016
|
Number of Ephemeroptera taxa within the sample
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric017
|
Percent of sample composed of Ephemeroptera, Plecoptera, and Trichoptera
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric018
|
Number of taxa representing Ephemeroptera, Plecoptera, and Trichoptera within the sample
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric019
|
A measure of how evenly each taxon is represented in the sample. A community with equal numbers of individuals for each taxa present in the sample would be considered the most diverse community.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric020
|
The percent of the sample made up of organisms that consume fine particulate organic matter collected from the water column
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric021
|
The number of taxa in the sample representing organsims that consume fine particulate organic matter from the water column
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric022
|
Percent of the taxa in the sample that uses Hemoglobin to carry oxygen in their bodies. These are usually an indicator of low oxygen conditions.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric023
|
Number of taxa in the sample that uses Hemoglobin to carry oxygen in their bodies. These are usually an indicator of low oxygen conditions.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric024
|
Uses tolerance values to weight abundance in an estimate of overall pollution. Originally designed to evaluate organic pollution
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric025
|
Ratio of Hydropsychidae/Trichoptera within the sample, represents the relative abundance of pollution tolerant caddisflies.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric026
|
Percent of organisms considered to be sensitive to various types of perturbation
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric027
|
Compares richness between two sites where different numbers of individuals have been collected, its value can be greater than 1, while other diversity measures score between 0 and 1.
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric028
|
Index measuring the tolerance to heavy metal toxicity of the community represented by the sample
|
|
|
Y
|
|
MEASUREMENT
|
BIOHabitatMetric029
|
Percent of the taxa in the sample that produces more than 2 generations per year
|
|
|
Y
|
|
1504 records
|