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Parameter: chemical_conc

Short Description: chemical concentration

Short Name: chemical_conc

Official Name: chemical_conc

Units: various

Description

Concentration of measured chemical concentration. Refer to specific datasets for any chemical names and measurement units.

Parameter Occurences in Datasets (1578)

Dataset	PI-Supplied Description	PI-Supplied Name
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Cadmium concentration	Cd
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Chlorophyll-a concentration	Chla
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Cobalt concentration	Co
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Copper concentration	Cu
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Iron concentration	Fe
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Molybdenum concentration	Mo
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Nickel concentration	Ni
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Nitrate concentration	NO3
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Phosphate concentration	PO4
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Salt concentration	Salinity
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	Silicate concentration	SiO4
Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)	vanadium concentration	V
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00032500000000002	position_neg_0.00032500000000002
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.000975000000000059	position_neg_0.000975000000000059
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00162499999999999	position_neg_0.00162499999999999
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00227500000000003	position_neg_0.00227500000000003
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00292499999999996	position_neg_0.00292499999999996
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.003575	position_neg_0.003575
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00422500000000003	position_neg_0.00422500000000003
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00487499999999996	position_neg_0.00487499999999996
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.005525	position_neg_0.005525
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00617500000000004	position_neg_0.00617500000000004
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00682499999999997	position_neg_0.00682499999999997
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00747500000000001	position_neg_0.00747500000000001
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00812500000000005	position_neg_0.00812500000000005
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00877500000000009	position_neg_0.00877500000000009
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.00942500000000002	position_neg_0.00942500000000002
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.010075	position_neg_0.010075
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.010725	position_neg_0.010725
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.011375	position_neg_0.011375
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.012025	position_neg_0.012025
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.012675	position_neg_0.012675
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.013325	position_neg_0.013325
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.013975	position_neg_0.013975
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.014625	position_neg_0.014625
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.015275	position_neg_0.015275
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.015925	position_neg_0.015925
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.0165750000000001	position_neg_0.0165750000000001
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.017225	position_neg_0.017225
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.017875	position_neg_0.017875
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.018525	position_neg_0.018525
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.019175	position_neg_0.019175
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.019825	position_neg_0.019825
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.020475	position_neg_0.020475
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.021125	position_neg_0.021125
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.021775	position_neg_0.021775
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.022425	position_neg_0.022425
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.0230750000000001	position_neg_0.0230750000000001
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.023725	position_neg_0.023725
Multiplexed Microfluidic Screening of Bacterial Chemotaxis Modeling Results from 2019-2022 (VIC project)	Measured chemical contentration generated from the dilution microchannel with driving pressure: -0.024375	position_neg_0.024375