BCO-DMO

Dataset Name	PI-Supplied Description	PI-Supplied Name
Processed CTD data with thermodynamic calculations from R/V Atlantic Explorer cruise AE2207 to the Bermuda Atlantic Time Series (BATS) station in April 2022		Reversing Thermometer (Seabird) SBE 35RT
Processed CTD data with thermodynamic calculations from R/V Atlantic Explorer cruise AE2207 to the Bermuda Atlantic Time Series (BATS) station in April 2022		Temperature profiler (Seabird) SBE 3F (and 3+ secondary unit)
CTD data from R/V Atlantic Explorer cruise AE2207 to the Bermuda Atlantic Time Series (BATS) station in April 2022		Reversing Thermometer (Seabird) SBE 35RT
CTD data from R/V Atlantic Explorer cruise AE2207 to the Bermuda Atlantic Time Series (BATS) station in April 2022		Temperature profiler (Seabird) SBE 3F (and 3+ secondary unit)
Treatment description and growth parameters for Thalassiosira weissflogii generating d13C-AA, collected on R/V Meteor M77 in the Peruvian ocean margin from November to December 2008.	Used to measure temperature	Water Temperature Sensor
Alongtrack data collected continuously by the ship's underway acquisition system from ARSV Laurence M. Gould cruise LMG1110 in the Southern Ocean in 2011	SeaBird 38 Digital Remote Thermometer used to measure sea surface temperature. For further information, see the spec sheet.	Thermometer
Amino acid d13C values of Thalassiosira weissflogii of ten different treatments; collections from R/V Meteor M77 in the Peruvian ocean margin from November to December 2008.	Used to measure temperature	Water Temperature Sensor
Mean d15N of individual amino acids and bulk organic matter for five plankton size fractions	Used to measure temperature	Water Temperature Sensor
Underway data for Blue Heron cruise BH15-11 in the western arm of Lake Superior from August 2015 (Early Career Great Lakes research project, Novel Nutrient Paleoproxy project)
Seawater carbonate chemistry from experiment on brooded coral larval, March 2011, Taiwan (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Light data in tanks from experiment on brooded coral larval, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Settling and mortality measurements of brooded coral larvae at high and ambient temperature and pCO2, Taiwan, March 2011 (MCR LTER project, Climate_Coral_Larvae project)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Protein content of brooded coral larvae at high and ambient temperature and pCO2, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Respiration and protein content of brooded coral larvae at high and ambient temperature and pCO2, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Respiration of brooded coral larvae at high and ambient temperature and pCO2, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Symbiont Symbiodinium density in brooded coral larvae at high and ambient temperature and pCO2, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Temperature data from tanks from experiment on brooded coral larval, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Material properties of mussel byssal threads formed under different pH - All Breaks from Carrington laboratory, Friday Harbor, WA; 2010-2013 (OA - Ecomaterials Perspective project)	Fluke 1523 thermometer Single channel that reads RTD's (PRTs), thermocouples, and thermistors. Featuring visual data trending and records the values and statistics associated with up to 25 measurements. Specifications Product Type Multi-Parameter Thermometers Temp range probe dependent Battery life 20 hours (minimum) Power 3 AA Batteries RTD Resistance Accuracy 0.004% + 0.002 ohm percent of reading + floor Dimensions 96x200x47 Brand Hart Scientific Manufacturer number 1523-156 Model 1523	Fluke 1523 thermometer
Carbonate chemistry data from static and fluctuating pCO2 x dissolved oxygen (DO) experiments on Menidia menidia	Temperature - Aqualogic thermostats connected to submersible heaters and chillers (Deltastar)	Aqualogic Deltastar
Results from OA/feeding experiment: carbonate chemistry and coral skeletal weight, symbiont density, and total tissue lipid content of samples collected from northwestern Bermuda patch reefs; 2010	Aquarium temperatures were maintained by in-line chiller/heater systems and monitored every 15 min using Hobo temperature loggers (Onset Corp.).	Water Temperature Sensor
Water samples from CTD casts and vehicle-mounted bottles from the R/V Atlantis, R/V Ronald Brown, R/V Falkor, & E/V Nautilus in the Gulf of Mexico & Florida from 2010 to 2014 (Lophelia OA project)	Sensor that measured water temperature	Temperature sensor
Aquaria temperatures throughout a heat temperature coral study conducted at Brewer’s Bay, St. Thomas, The U.S. Virgin Islands in June of 2017		YSI Handheld meter
Data on chorion thickness from embryos studied in an experiment on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2018
Coral (Porites rus) calcification and chemistry data from outdoor flumes at the UCB Gump Research Station Moorea, French Polynesia in April and March of 2012		ThermoFisher Traceable
		ThermoFisher Traceable
Calcification data from outdoor flume experiments with coral Acropora hyacinthus at the UCB Gump Research Station Moorea, French Polynesia in September and October of 2012		ThermoFisher Traceable
Carbonate chemistry from outdoor flume experiments with coral Acropora hyacinthus at the UCB Gump Research Station Moorea, French Polynesia in September and October of 2012		ThermoFisher Traceable
		ThermoFisher Traceable
		ThermoFisher Traceable
Temperature and salinity measurements from coral-light experiments (Dufault, 2013, JEB), Taiwan 2010 (MCR LTER project, Climate_Coral_Larvae project)	a certified digital thermometer (±0.05°C accuracy, Fisher Scientific Traceable Digital Thermometer, Pittsburgh, PA, USA).	Water Temp Sensor
Deployment history of sensors recording dissolved oxygen from Massachusetts from 2012.	Recorded dissolved oxygen concentrations and temperature.	EXO2, YSI TIDE1, YSI PIE1, YSI PIE2, HOBODO1, and HOBODO2
Temperature on Dongsha Atoll measured from June 2013 to August 2015	Temperature was measured with an Onset Corp. HOBO U22 temperature logger, calibrated in an isothermal bath before deployment to achieve accuracy of 0.1 degree C.	Onset Corp. HOBO U22 temperature logger
Experimental seawater chemical properties for larval mussel shell study from SIO, UCSD from 2012-2013 (OA_Proxies project)	HOBO Pendant temperature data loggers with an accuracy of ± 0.5 °C.	Water Temp Sensor
Pterosiphonia bipinnata and Corallina vancouveriensis final experiment shear and percent remaining at Deadman Bay on San Juan Island, Washington	Specifically, spectrophotometric pH was determined as per SOP6 and total alkalinity was measured using an open cell titrator as outlined in SOP3b. As described in Dickson, A.G., Sabine, C.L. and Christian, J.R. (Eds.) 2007. Guide to Best Practices for Ocean CO2 Measurements. PICES Special Publication 3, 191 pp.	Thermometer
Growth data from static and fluctuating pCO2 x dissolved oxygen (DO) experiments on Menidia menidia	Temperature - Aqualogic thermostats connected to submersible heaters and chillers (Deltastar)	Aqualogic Deltastar
Growth rates, bulk isotope values, elemental composition data from the R/V Meteor M77 cruise in the Peruvian ocean margin from November to December 2008.	Used to measure temperature	Water Temperature Sensor
Hatch data from experiments on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2018 and 2020
Carbonate Chemistry Parameters from a heatwave experiment done September to November 2018 using reef building corals collected in Kāne'ohe Bay, O'ahu, Hawai'i.		Apex Extended Life Temperature Probes Neptune Systems
Experiment Tank Conditions from a heatwave experiment done September to November 2018 using reef building corals collected in Kāne'ohe Bay, O'ahu, Hawai'i.		Apex Extended Life Temperature Probes Neptune Systems
Photosynthetic irradiance capacity of coral fragments measured during a heatwave experiment done September to November 2018 using reef building corals collected in Kāne'ohe Bay, O'ahu, Hawai'i		Pt1000 temperature sensor, PreSens
Behavior Metrics - Crab-Oyster behavior - from UNC Reis laboratory starting 2010 (OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Consumption data from Crab-Oyster Behavior study from laboratory results from UNC from the Sapodilla Caye, Belize ongoing from 2010 (OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Seawater chemistry calculated parameters from Crab-Oyster Behavior study from laboratory results from UNC from data collected at the Sapodilla Caye, Belize starting 2010 (OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Seawater chemistry measured parameters from Crab-Oyster Behavior study from laboratory results from UNC from data collected at the Sapodilla Caye, Belize starting 2010 ((OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Unsuccessful events from Crab-Oyster Behavior study from UNC laboratory results from data from the Sapodilla Caye, Belize starting 2010 (OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Pterosiphonia bipinnata and Corallina vancouveriensis initial experiment attachment and duration at Deadman Bay on San Juan Island, Washington	Specifically, spectrophotometric pH was determined as per SOP6 and total alkalinity was measured using an open cell titrator as outlined in SOP3b. As described in Dickson, A.G., Sabine, C.L. and Christian, J.R. (Eds.) 2007. Guide to Best Practices for Ocean CO2 Measurements. PICES Special Publication 3, 191 pp.	Thermometer
Experimental results: calcification by primary coral polyps under high bicarbonate and low pH from 2007-2008 (OA Nutrition and Coral Calcification project)	The seawater temperature in all aquaria in each experiment was monitored using Hobo temperature loggers (Onset Corp.)	Water Temp Sensor
Field conditions during grazing experiments in Kaneohe Bay, HI during 2012-2013 (EAGER: Copepod nauplii project)
Lake Michigan water chemistry data, including dissolved and particulate phosphorus, chlorophyll a, carbon dioxide, total dissolved inorganic carbon, and dissolved organic carbon from 2017 to 2020	The continuous CO2 monitoring system includes a temperature sensor.	temperature sensor
Lake Michigan water chemistry data, including dissolved and particulate phosphorus, chlorophyll a, carbon dioxide, total dissolved inorganic carbon, and dissolved organic carbon from 2017 to 2020	The continuous CO2 monitoring system includes a temperature sensor.	temperature sensor
Data describing individual aerial respiration rates for limpets in trials conducted at the Hopkins Marine Station in 2013 (Experiments in a Model Ecosystem project)	iButton temperature logger (DS1921G, Maxim Integrated)
Data describing individual aquatic respiration rates for limpets in trials conducted at the Hopkins Marine Station in 2013 (Experiments in a Model Ecosystem project)	iButton temperature logger (DS1921G, Maxim Integrated)
Limpet mass and body volume data for respiration measurements from samples collected in Rocky intertidal zone near Hopkins Marine Station in 2013 (Experiments in a Model Ecosystem project)	iButton temperature datalogger (DS1921G, Maxim Integrated)
Net calcification of L. pertusa specimens exposed to different pH treatments collected on R/V Ronald Brown in Florida from October to November 2010 (Lophelia OA project)	Indicates water temperature	Temperature sensor
Mortality of L. pertusa specimens exposed to different DO levels collected on R/V Ronald Brown in Florida from October to November 2010 (Lophelia OA project)	Indicates water temperature	Temperature sensor
Mortality of L. pertusa specimens exposed to different temperatures collected on R/V Ronald Brown in Florida from October to November 2010 (Lophelia OA project)	Indicates water temperature	Temperature sensor
Calcification Rates and Biomass of 4 Coral Species, 2 Temperatures and 2 pCO2 Levels from Experiments at LTER site in Moorea, French Polynesia, 2011 (OA_Corals project)
Tank seawater conditions from Coral/Temperature/pCO2 Experiments at LTER site in Moorea, French Polynesia, 2011 (OA_Corals project)
SAMI-CO2, SAMI-pH, temperature and dissolved oxygen from multiple moorings near Media Luna Reef, Puerto Rico from 2007-2008 (DOGEE-II project, NH10_ShelfBreak_MLR project)	SAMI-CO2 pCO2 and Temperature mooring time series data collected on the Buzzards Bay mooring	SAMI-CO2 pCO2 and Temperature
Chemical and physical measurements in coral tanks from Moorea, French Polynesia in 2010 (OA Corals project)
Microbial respiration from microcosm experiments conducted under three light treatments using water originating from West Bay of the Neuse River Estuary, North Carolina USA in 2021 and 2022		PreSens temperature/pressure sensor (Pt-100)
Millepora coral colony size on shallow reefs in St. John, USVI, 1992-2008 (St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
Millepora coral cover, seawater temperature and storm intensity in St. John, USVI, 1992-2008 (St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
Millepora coral cover on shallow reefs in St. John, USVI, 1992-2008 (St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
Moorings temperature and pH from multiple sites in the California Current System starting 2008 (OMEGAS-MaS project, ACIDIC project)		Water Temperature Sensor
Morphometric data from experiments on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2018 and 2020
Water characteristics measured in Narragansett Bay over two years, from March 2021 to March 2023	Used to measure water temperature; Thermometer model: VEEGEE Scientific encapsulated thermometer model #80704E.	VEEGEE Scientific encapsulated thermometer model #80704E
Underway data from R/V New Horizon NH1208 in the transect between 35 and 50N along CLIVAR line P17N from 2012-2012 (OAPS project)	Model: SEG14 Serial: 5125 MFG: SEG Location: Hull-2nd deck Machine rm Owner: SIO/STS CAL LAB: ODF CAL DATE: 17-Dec-2008	Water Temperature Sensor
Observed survival of coral fragments throughout a 93-day ocean acidification and warming experiment
Carbonate chemistry analyses of water collected from near Walpole, ME from zooplankton hatching experiments during 2011	A Dostmann electronic P-655-PT precision thermometer calibrated accurate to 0.01°C was employed for all titrations.	Water Temperature Sensor
Calcification and linear extension rates for Oculina arbuscula corals grown under different pCO2 levels; from the Cohen lab at WHOI in Woods Hole, MA (OA Nutrition and Coral Calcification project)	Temperature was measured with a partial-immersion mercury-glass thermometer (precision = +/- 0.3%, accuracy = +/- 0.4%).	Mercury-glass thermometer
Physical data (sal, temp, wind, wave height) collected from January-March of 2014, 2015, and 2016 at the OIMB pier located in the Coos Bay entrance of the Oregon Coast
Processed eddy covariance measurements from three lander deployments during R/V Oceanus cruises OC1802B and OC1901A along the Oregon shelf in 2018 and 2019.	Temperature records were extracted from the neighboring OOI Benthic Experimental Package CTD when at the 80 m station. Temperature records were measured with a recording CTD (SBE 37) during deployments at 30 m.
Juvenile growth post-settlement from experimental study of carryover effects of ocean acidification on larval and juvenile Olympia oysters; conducted at Bodega Marine Lab in July-Sept 2009	Seawater pH (NBS) and temperature were quantified using a pH/temperature meter: Accumet Excel XL60 (Thermo Fisher Scientific, Waltham, MA)	Accumet Excel XL60
Juvenile growth post-settlement under four larval-to-juvenile ocean acidification transitions in the laboratory; conducted at Bodega Marine Lab in July-Sept 2009	Seawater pH (NBS) and temperature were quantified using a pH/temperature meter: Accumet Excel XL60 (Thermo Fisher Scientific, Waltham, MA)	Accumet Excel XL60
Oyster larval growth at day 9 post-release under ocean acidification in the laboratory; experiments conducted at Bodega Marine Laboratory	Seawater pH (NBS) and temperature were quantified using a pH/temperature meter: Accumet Excel XL60 (Thermo Fisher Scientific, Waltham, MA)	Accumet Excel XL60
Juvenile growth of Olympia oysters outplanted to the field in Tomales Bay after being reared as larvae in the lab at Bodega Marine Lab in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Juvenile growth of Olympia oysters outplanted to the field in Tomales Bay after being reared as larvae in the lab at Bodega Marine Lab in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Juvenile survival of Olympia oysters outplanted to the field in Tomales Bay after being reared as larvae in the lab at Bodega Marina lab in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Juvenile survival of Olympia oysters outplanted to the field in Tomales Bay after being reared as larvae in the lab at Bodega Marina lab in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Percent settlement (metamorphosis) of Olympia oysters exposed to ocean acidification in the laboratory at Bodega Marine Lab in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Percent settlement (metamorphosis) of Olympia oysters exposed to ocean acidification in the laboratory at Bodega Marine Lab in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Size at settlement of Olympia oysters exposed to ocean acidification in the laboratory at lab Bodega Marine in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Size at settlement of Olympia oysters exposed to ocean acidification in the laboratory at lab Bodega Marine in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Water chemistry during larval rearing experiments concerning persistent effects of ocean acidification on larval and juvenile Olympia oysters conducted at Bodega Marine Laboratory in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Water chemistry during larval rearing experiments concerning persistent effects of ocean acidification on larval and juvenile Olympia oysters conducted at Bodega Marine Laboratory in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Effects of food on growth of larval Olympia oysters under different levels of ocean acidification; experiments conducted at Bodega Marine Laboratory (BML), UC Davis in June 2011	Seawater pH and temperature were measured using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Effects of food on body condition of larval oysters under different levels of ocean acidification; experiments conducted at Bodega Marine Laboratory (BML), UC Davis in June 2011	Seawater pH and temperature were measured using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Effects of food on percent metamorphosis of settling Olympia oysters under different levels of ocean acidification; experiments conducted at Bodega Marine Laboratory, UC Davis in June 2011	Seawater pH and temperature were measured using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Panopeus herbstii activity level and feeding with and without predator cues North Inlet Estuary, Georgetown, SC during 2012 (Variation in Metabolic Processes project)
Mud crabs refuge use and activity level - initial measurements collected from North Inlet Estuary, Georgetown, SC during 2012 (Variation in Metabolic Processes project)
Seawater carbonate chemistry from 13 sites in Palau collected from small boats in the Palauan archipelago from 2011-2013	In 2011, in situ temperature was measured with TidbiT v2 water temperature data loggers produced by Onset with a manufacturer stated accuracy of 0.2 degrees C. In 2012, in situ temperature was measured with a RBR XR-620 CTD with a manufacturer stated temperature accuracy of +/- 0.002 degrees C. Information from the manufacturers:TidbiT v2 Temperature Data LoggerRBR XR-620	Water Temperature Sensors
pCO2, pH, salinity and temperature data collected off the coast of Oregon, USA by a SAMI-CO2 sensor on the Shelf Break Mooring located below the National Data Buoy Center?s meteorological Buoy 46050; 2007-2011 (NH10_ShelfBreak_MLR project)	SAMI-CO2 pCO2 and Temperature mooring time series data collected on the Buzzards Bay mooring	SAMI-CO2 pCO2 and Temperature
PUA (polyunsaturated aldehydes) experiments: Experimental Conditions, Virginia Coastal Bays and Bay of Napoli, Mar-July 2015	Used to measure temperature and salinity at stations.	YSI ProDO2020
Data from in situ pump profiler system collected on R/V Hugh R. Sharp cruise HRS1415 in August 2014	The YSI model 350 probe measures salinity and temperature.	YSI model 350
Phosphate redox data from cruise AE1409 from R/V Atlantic Explorer AE1409 in the Western Tropical North Atlantic from May 2014 (P Processing by Tricho project)	Temperature in the incubators was occasionally monitored with a waterproof temperature logger (Onset).	temperature logger (Onset)
Temperature, salinity, and fluorescence of seawater collected from Alamitos Bay, Long Beach, CA during 2017-2019		alcohol thermometer
Chemical composition of hydrothermal fluids collected on RV/Roger Revelle RR1507 in the Eastern Lau Spreading Center and Valu Fa Ridge, April-May 2015 (Functional microbial dynamics of vent deposits project)	Used to measure in-situ temperature.	type-J thermocouple attached to the inlet snorkel
SAMI-CO2 pCO2 temperature and oxygen time series from Air-Sea Interaction Spar (ASIS) buoy in the Labrador Sea, (53.04N, 49.207W), June to August 2004 (CO2Flux_LabradorSea project)	During the deployment 2 separate ASIS Buoys were deployed, ASIS-1 & ASIS-2, upon each of which 2 SAMIs were attached. Each buoy had 1 SAMI-CO2 attached at 1 meter and 1 SAMI-CO2 attached at 5 meters depth. The SAMI-CO2 sampled on a 30 minute interval and a non-absorbing blank measurement was taken every 3.5 days. PAR was measured by a Li-COR LI-192 underwater quantum sensor (not calibrated). Oxygen data was obtained using a calibrated Aanderaa O2 sensor (model 4175). Both the PAR and O2 sensors were attached to a SAMI-CO2 sensor. There is no pCO2 record at 1 meter on ASIS-2.	SAMI-CO2 pCO2 and Temperature
SAMI-CO2 pCO2 and temperature mooring time series data at LEO15 and MVCO moorings from Buzzards Bay and Martha's Vineyard Coastal Observatory Air-Sea Interaction Tower (41.325, -70.5667) 1999-2005 inclusive (LEO-15 project)	SAMI-CO2 pCO2 and Temperature mooring time series data collected on the Buzzards Bay mooring	SAMI-CO2 pCO2 and Temperature
SAMI-CO2 pCO2 temperature and oxygen time series dataset from multiple buoys in the NE Atlantic Ocean, west of Iberian Peninsula and Ireland from June to July 2007 (DOGEE-II project)	During the deployment 2 separate ASIS Buoys were deployed, ASIS-1 & ASIS-2, upon each of which 2 SAMIs were attached. Each buoy had 1 SAMI-CO2 attached at 1 meter and 1 SAMI-CO2 attached at 5 meters depth. The SAMI-CO2 sampled on a 30 minute interval and a non-absorbing blank measurement was taken every 3.5 days. PAR was measured by a Li-COR LI-192 underwater quantum sensor (not calibrated). Oxygen data was obtained using a calibrated Aanderaa O2 sensor (model 4175). Both the PAR and O2 sensors were attached to a SAMI-CO2 sensor. There is no pCO2 record at 1 meter on ASIS-2.	SAMI-CO2 pCO2 and Temperature
SAMI-pH, temperature and salinity data from MBARI M0 mooring at 36.893N, 121.90W in 2007 (MBARI project)	SAMI-CO2 pCO2 and Temperature mooring time series data collected on the Buzzards Bay mooring	SAMI-CO2 pCO2 and Temperature
Seawater temperature in St. John, USVI, 1992-2008 (MCR LTER project, St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
Southern California sites surveyed for Ficopomatus enigmaticus in Orange and Los Angeles Counties, California, USA, from August to October 2015	At each site, water temperature was measured with an alcohol or digital thermometer.	alcohol or digital thermometer
Time series observations: hydrography, nutrients, and microbial, phytoplankton and zooplankton communities from the Skidaway River Estuary on the southeastern Atlantic coast of Georgia from 1986-2011 (SRiMP project)	1986 to 1996 Surface water temperature was measured weekly using a standard mercury thermometer (+- 0.1 ° C)	Standard Mercury Thermometer
Temperature time-series data from 4 depths in the Central California kelp forest, measured at the Stillwater Cove Mooring from 2010-2012 (Climate Change Kelp project)	Onset Stowaway Tidbits (+/- 0.2C) were deployed at 0.5, 4.8, 8, and 13.5 meters depth.	Water Temperature Sensor
Storm record from St. John, USVI, 1992-2008 (St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
CH4, H2, CO, and d13C concentrations from the Strytan Hydrothermal Field collected by SCUBA July 15-8 2012 (C-DEBI, Lost City-type hydrothermal system project)		temperature probe
Dissolved inorganic carbon concentrations from the Strytan Hydrothermal Field collected by SCUBA July 15-8 2012 (C-DEBI, Lost City-type hydrothermal system project)		temperature probe
Geochemistry measurements from the Strytan Hydrothermal Field collected by SCUBA July 15-8 2012 (C-DEBI, Lost City-type hydrothermal system project)		temperature probe
Organic acid concentrations from the Strytan Hydrothermal Field collected by SCUBA July 15-8 2012 (C-DEBI, Lost City-type hydrothermal system project)		temperature probe
Subtidal temperature data (12-15 m depth) in the central Galapagos Islands, Ecuador from 2011-2013 (GMR Trophic Cascades project)	Onset Tidbit temperature loggers (http://www.onsetcomp.com/products/data-loggers/utbi-001) at 10 minute intervals. Loggers were attached to subtidal rock walls at 12-15 m depth . They are downloaded approximately twice a year. The temperature loggers have an accuracy of 0.2 degrees C.	Water Temp Sensor
CTD summary data from phytoplankton monitoring sites in Juneau, AK sampled from 2015-2016 (SEAK-AHAB project)	Equipped on CTD	SBE-3 temperature sensor
Survival data from static and fluctuating pCO2 x dissolved oxygen (DO) experiments on Menidia menidia	Temperature - Aqualogic thermostats connected to submersible heaters and chillers (Deltastar)	Aqualogic Deltastar
Data on hatching frequency and success from an experiment on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2020
Symbiodinium cell density, chlorophyll, respiration, photosynthetic yield in Seriatopora coral, Taiwan, 2010 (MCR LTER project, Climate_Coral_Larvae project)	1. Microsensor-based temperature regulators (AquaController, Neptune Systems, USA) 2. Certified digital thermometer (Fisher Scientific 15-077-8, +/- 0.05 C)	Water Temp Sensor
Seriatopora bleaching expt: Photosynthesis:irradiance (P/I) curves, Taiwan 2010 (MCR LTER project, Climate_Coral_Larvae project)	1. Microsensor-based temperature regulators (AquaController, Neptune Systems, USA) 2. Certified digital thermometer (Fisher Scientific 15-077-8, ± 0.05 C)	Water Temp Sensor
Seriatopora bleaching expt: temperature, salinity, light in tanks, Taiwan 2010 (MCR LTER project, Climate_Coral_Larvae project)	1. Microsensor-based temperature regulators (AquaController, Neptune Systems, USA) 2. Certified digital thermometer (Fisher Scientific 15-077-8, ± 0.05 C)	Water Temp Sensor
Seriatopora bleaching expt: water pH and carbonate chemistry, Taiwan 2010 (MCR LTER project, Climate_Coral_Larvae project)	1. Microsensor-based temperature regulators (AquaController, Neptune Systems, USA) 2. Certified digital thermometer (Fisher Scientific 15-077-8, ± 0.05 C)	Water Temp Sensor
Tank conditions for pH experiments on Lophelia pertusa specimens collected in the Norwegian Skagerrak and the Gulf of Mexico (Lophelia OA project)	Indicates water temperature	Temperature sensor
Water temperature from Niskin bottle samples measured at the PICO time-series station (34.7181 deg N, 76.6707 deg W) from 2010-2012 (PICO project)	Temperature was measured in duplicate using NIST traceable thermocouples (VWR#23609-232)	Water Temperature Sensor
Temperature and light time series in the Strait of Juan de Fuca, fall 2009 (Regenerated Nitrogen project)	HOBO Pendant Temperature/Light Data Logger 64K - UA-002-64 deployed in the intertidal zone. Sampling intervals varied but averaged around 10 min. The HOBO Pendant Temperature/Light Data Logger is a waterproof, two-channel logger with 10-bit resolution and can record up to approximately 3,500 (8K model) or 28,000 (64K model) combined temperature and light readings or internal logger events. The logger uses a coupler and optical base station with USB interface for launching and data readout by a computer.
Experiment Tank Conditions during a thermal stress experiment using reef building corals collected in Kāne'ohe Bay, O'ahu, Hawai'i.		Apex temperature probe (Neptune Systems)
Trichodesmium data from R/V Atlantic Explorer cruise AE1409 in the Western Tropical North Atlantic from May 2014 (P Processing by Tricho project)	Temperature in the incubators was occasionally monitored with a waterproof temperature logger (Onset).	temperature logger (Onset)
Data on unhatched embryos from an experiment on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2018
Pencil urchin respiration rates at different temperatures from four sites in the Galápagos archipelago		temperature probe (Pt1000)
Sea water temperatures corresponding to the experimental trials for 2 species of sea urchin found in the subtidal areas of Isla Baltra, Galapagos during June-July 2012 (GMR Trophic Cascades project)
Concentrations of anions, cations, and trace elements/metals from vents near Milos Island, Greece. from May 2012 (Hydrothermal Autotrophic Carbon Fixation project)	Hand-held temperature probe	temperature probe
Vent fluid chemistry from R/V Atlantis AT26-10 and AT26-23 in the East Pacific Rise, Pacific Ocean from 2013-2014 (Microbial Communities at Deep-Sea Vents project)	Used to measure in-situ temperature.	type-J thermocouple attached to the inlet snorkel
Temperature profiles along shallow-water hydothermal vents in Paleochori Bay, Milos Island, Greece during 2012 (Hydrothermal Autotrophic Carbon Fixation project)	Digital thermometer in custom underwater housing	Digital thermometer
Underwater temperature, salinity, conductivity at Cantilever Point, Friday Harbor in the San Juan Islands from 2010-2013	SeaBird 37 MicroCAT measures temperature and conductivity.	Water Temperature Sensor
Water column data from R/V Atlantic Explorer cruise AE1409 in the Western Tropical North Atlantic from May 2014 (P Processing by Tricho project)	Temperature in the incubators was occasionally monitored with a waterproof temperature logger (Onset).	temperature logger (Onset)
Zooplankton counts and abundances from net tows from the R/V Gunnerus in the Tronheimsfjord, Norway during 2012 (Calanus Diapause project)	SeaBird SBE39 depth-temperature recorder	Temperature and depth recorder
Zooplankton net haul metadata and specimen removal records collected from the R/V Gunnerus in the Tronheimsfjord, Norway during 2012 (Calanus Diapause project)	SeaBird SBE39 depth-temperature recorder	Temperature and depth recorder

Dataset Name	PI-Supplied Description	PI-Supplied Name
Processed CTD data with thermodynamic calculations from R/V Atlantic Explorer cruise AE2207 to the Bermuda Atlantic Time Series (BATS) station in April 2022		Reversing Thermometer (Seabird) SBE 35RT
Processed CTD data with thermodynamic calculations from R/V Atlantic Explorer cruise AE2207 to the Bermuda Atlantic Time Series (BATS) station in April 2022		Temperature profiler (Seabird) SBE 3F (and 3+ secondary unit)
CTD data from R/V Atlantic Explorer cruise AE2207 to the Bermuda Atlantic Time Series (BATS) station in April 2022		Reversing Thermometer (Seabird) SBE 35RT
CTD data from R/V Atlantic Explorer cruise AE2207 to the Bermuda Atlantic Time Series (BATS) station in April 2022		Temperature profiler (Seabird) SBE 3F (and 3+ secondary unit)
Treatment description and growth parameters for Thalassiosira weissflogii generating d13C-AA, collected on R/V Meteor M77 in the Peruvian ocean margin from November to December 2008.	Used to measure temperature	Water Temperature Sensor
Alongtrack data collected continuously by the ship's underway acquisition system from ARSV Laurence M. Gould cruise LMG1110 in the Southern Ocean in 2011	SeaBird 38 Digital Remote Thermometer used to measure sea surface temperature. For further information, see the spec sheet.	Thermometer
Amino acid d13C values of Thalassiosira weissflogii of ten different treatments; collections from R/V Meteor M77 in the Peruvian ocean margin from November to December 2008.	Used to measure temperature	Water Temperature Sensor
Mean d15N of individual amino acids and bulk organic matter for five plankton size fractions	Used to measure temperature	Water Temperature Sensor
Underway data for Blue Heron cruise BH15-11 in the western arm of Lake Superior from August 2015 (Early Career Great Lakes research project, Novel Nutrient Paleoproxy project)
Seawater carbonate chemistry from experiment on brooded coral larval, March 2011, Taiwan (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Light data in tanks from experiment on brooded coral larval, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Settling and mortality measurements of brooded coral larvae at high and ambient temperature and pCO2, Taiwan, March 2011 (MCR LTER project, Climate_Coral_Larvae project)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Protein content of brooded coral larvae at high and ambient temperature and pCO2, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Respiration and protein content of brooded coral larvae at high and ambient temperature and pCO2, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Respiration of brooded coral larvae at high and ambient temperature and pCO2, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Symbiont Symbiodinium density in brooded coral larvae at high and ambient temperature and pCO2, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Temperature data from tanks from experiment on brooded coral larval, Taiwan, March 2011 (Cumbo et al, JEMBE, 2013) (MCR LTER & Climate Coral Larvae projects)	certified digital thermometer (Model 15-077-8, Fisher Scientific,±0.05 °C)	Water Temp Sensor
Material properties of mussel byssal threads formed under different pH - All Breaks from Carrington laboratory, Friday Harbor, WA; 2010-2013 (OA - Ecomaterials Perspective project)	Fluke 1523 thermometer Single channel that reads RTD's (PRTs), thermocouples, and thermistors. Featuring visual data trending and records the values and statistics associated with up to 25 measurements. Specifications Product Type Multi-Parameter Thermometers Temp range probe dependent Battery life 20 hours (minimum) Power 3 AA Batteries RTD Resistance Accuracy 0.004% + 0.002 ohm percent of reading + floor Dimensions 96x200x47 Brand Hart Scientific Manufacturer number 1523-156 Model 1523	Fluke 1523 thermometer
Carbonate chemistry data from static and fluctuating pCO2 x dissolved oxygen (DO) experiments on Menidia menidia	Temperature - Aqualogic thermostats connected to submersible heaters and chillers (Deltastar)	Aqualogic Deltastar
Results from OA/feeding experiment: carbonate chemistry and coral skeletal weight, symbiont density, and total tissue lipid content of samples collected from northwestern Bermuda patch reefs; 2010	Aquarium temperatures were maintained by in-line chiller/heater systems and monitored every 15 min using Hobo temperature loggers (Onset Corp.).	Water Temperature Sensor
Water samples from CTD casts and vehicle-mounted bottles from the R/V Atlantis, R/V Ronald Brown, R/V Falkor, & E/V Nautilus in the Gulf of Mexico & Florida from 2010 to 2014 (Lophelia OA project)	Sensor that measured water temperature	Temperature sensor
Aquaria temperatures throughout a heat temperature coral study conducted at Brewer’s Bay, St. Thomas, The U.S. Virgin Islands in June of 2017		YSI Handheld meter
Data on chorion thickness from embryos studied in an experiment on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2018
Coral (Porites rus) calcification and chemistry data from outdoor flumes at the UCB Gump Research Station Moorea, French Polynesia in April and March of 2012		ThermoFisher Traceable
		ThermoFisher Traceable
Calcification data from outdoor flume experiments with coral Acropora hyacinthus at the UCB Gump Research Station Moorea, French Polynesia in September and October of 2012		ThermoFisher Traceable
Carbonate chemistry from outdoor flume experiments with coral Acropora hyacinthus at the UCB Gump Research Station Moorea, French Polynesia in September and October of 2012		ThermoFisher Traceable
		ThermoFisher Traceable
		ThermoFisher Traceable
Temperature and salinity measurements from coral-light experiments (Dufault, 2013, JEB), Taiwan 2010 (MCR LTER project, Climate_Coral_Larvae project)	a certified digital thermometer (±0.05°C accuracy, Fisher Scientific Traceable Digital Thermometer, Pittsburgh, PA, USA).	Water Temp Sensor
Deployment history of sensors recording dissolved oxygen from Massachusetts from 2012.	Recorded dissolved oxygen concentrations and temperature.	EXO2, YSI TIDE1, YSI PIE1, YSI PIE2, HOBODO1, and HOBODO2
Temperature on Dongsha Atoll measured from June 2013 to August 2015	Temperature was measured with an Onset Corp. HOBO U22 temperature logger, calibrated in an isothermal bath before deployment to achieve accuracy of 0.1 degree C.	Onset Corp. HOBO U22 temperature logger
Experimental seawater chemical properties for larval mussel shell study from SIO, UCSD from 2012-2013 (OA_Proxies project)	HOBO Pendant temperature data loggers with an accuracy of ± 0.5 °C.	Water Temp Sensor
Pterosiphonia bipinnata and Corallina vancouveriensis final experiment shear and percent remaining at Deadman Bay on San Juan Island, Washington	Specifically, spectrophotometric pH was determined as per SOP6 and total alkalinity was measured using an open cell titrator as outlined in SOP3b. As described in Dickson, A.G., Sabine, C.L. and Christian, J.R. (Eds.) 2007. Guide to Best Practices for Ocean CO2 Measurements. PICES Special Publication 3, 191 pp.	Thermometer
Growth data from static and fluctuating pCO2 x dissolved oxygen (DO) experiments on Menidia menidia	Temperature - Aqualogic thermostats connected to submersible heaters and chillers (Deltastar)	Aqualogic Deltastar
Growth rates, bulk isotope values, elemental composition data from the R/V Meteor M77 cruise in the Peruvian ocean margin from November to December 2008.	Used to measure temperature	Water Temperature Sensor
Hatch data from experiments on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2018 and 2020
Carbonate Chemistry Parameters from a heatwave experiment done September to November 2018 using reef building corals collected in Kāne'ohe Bay, O'ahu, Hawai'i.		Apex Extended Life Temperature Probes Neptune Systems
Experiment Tank Conditions from a heatwave experiment done September to November 2018 using reef building corals collected in Kāne'ohe Bay, O'ahu, Hawai'i.		Apex Extended Life Temperature Probes Neptune Systems
Photosynthetic irradiance capacity of coral fragments measured during a heatwave experiment done September to November 2018 using reef building corals collected in Kāne'ohe Bay, O'ahu, Hawai'i		Pt1000 temperature sensor, PreSens
Behavior Metrics - Crab-Oyster behavior - from UNC Reis laboratory starting 2010 (OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Consumption data from Crab-Oyster Behavior study from laboratory results from UNC from the Sapodilla Caye, Belize ongoing from 2010 (OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Seawater chemistry calculated parameters from Crab-Oyster Behavior study from laboratory results from UNC from data collected at the Sapodilla Caye, Belize starting 2010 (OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Seawater chemistry measured parameters from Crab-Oyster Behavior study from laboratory results from UNC from data collected at the Sapodilla Caye, Belize starting 2010 ((OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Unsuccessful events from Crab-Oyster Behavior study from UNC laboratory results from data from the Sapodilla Caye, Belize starting 2010 (OA - Ocean Acidification and Warming Impact on Calcification project)	The temperature within experimental tanks was measured every other day with a NIST-calibrated partial-immersion organic- filled glass thermometer (precision + 0.3%, accuracy + 0.4%). Salinity was measured every other day with a YSI 3200 conduc- tivity meter with a YSI 3440 cell (K 1⁄4 10) that was calibrated with seawater standards of known salinity provided by the labora- tory of Prof. A. Dickson of Scripps Institute of Oceanography. Seawater pH was measured every other day with a Thermo Scien- tific Orion 2 Star benchtop pH meter with an Orion 9156BNWP pH probe, calibrated with 7.00 and 10.01 Orion NBS buffers traceable to NIST standard reference material (for slope of the calibration curve) and with seawater standards of known pH also provided by Prof. Dickson’s laboratory (for y-intercept of the calibration curve). Seawater DIC was measured via coulometry (UIC 5400) and TA was measured via closed-cell potentiometric Gran titration calibrated with certified Dickson TA/DIC standards. Measure- ment of DIC and TA of the certified reference materials (CRMs) were consistently within 0.3% of certified values. Differences between the measured and certified TA and DIC values of the CRMs were used to correct measurements of experimental seawater solutions.	NIST-calibrated partial immersion organic-filled glass thermometer
Pterosiphonia bipinnata and Corallina vancouveriensis initial experiment attachment and duration at Deadman Bay on San Juan Island, Washington	Specifically, spectrophotometric pH was determined as per SOP6 and total alkalinity was measured using an open cell titrator as outlined in SOP3b. As described in Dickson, A.G., Sabine, C.L. and Christian, J.R. (Eds.) 2007. Guide to Best Practices for Ocean CO2 Measurements. PICES Special Publication 3, 191 pp.	Thermometer
Experimental results: calcification by primary coral polyps under high bicarbonate and low pH from 2007-2008 (OA Nutrition and Coral Calcification project)	The seawater temperature in all aquaria in each experiment was monitored using Hobo temperature loggers (Onset Corp.)	Water Temp Sensor
Field conditions during grazing experiments in Kaneohe Bay, HI during 2012-2013 (EAGER: Copepod nauplii project)
Lake Michigan water chemistry data, including dissolved and particulate phosphorus, chlorophyll a, carbon dioxide, total dissolved inorganic carbon, and dissolved organic carbon from 2017 to 2020	The continuous CO2 monitoring system includes a temperature sensor.	temperature sensor
Lake Michigan water chemistry data, including dissolved and particulate phosphorus, chlorophyll a, carbon dioxide, total dissolved inorganic carbon, and dissolved organic carbon from 2017 to 2020	The continuous CO2 monitoring system includes a temperature sensor.	temperature sensor
Data describing individual aerial respiration rates for limpets in trials conducted at the Hopkins Marine Station in 2013 (Experiments in a Model Ecosystem project)	iButton temperature logger (DS1921G, Maxim Integrated)
Data describing individual aquatic respiration rates for limpets in trials conducted at the Hopkins Marine Station in 2013 (Experiments in a Model Ecosystem project)	iButton temperature logger (DS1921G, Maxim Integrated)
Limpet mass and body volume data for respiration measurements from samples collected in Rocky intertidal zone near Hopkins Marine Station in 2013 (Experiments in a Model Ecosystem project)	iButton temperature datalogger (DS1921G, Maxim Integrated)
Net calcification of L. pertusa specimens exposed to different pH treatments collected on R/V Ronald Brown in Florida from October to November 2010 (Lophelia OA project)	Indicates water temperature	Temperature sensor
Mortality of L. pertusa specimens exposed to different DO levels collected on R/V Ronald Brown in Florida from October to November 2010 (Lophelia OA project)	Indicates water temperature	Temperature sensor
Mortality of L. pertusa specimens exposed to different temperatures collected on R/V Ronald Brown in Florida from October to November 2010 (Lophelia OA project)	Indicates water temperature	Temperature sensor
Calcification Rates and Biomass of 4 Coral Species, 2 Temperatures and 2 pCO2 Levels from Experiments at LTER site in Moorea, French Polynesia, 2011 (OA_Corals project)
Tank seawater conditions from Coral/Temperature/pCO2 Experiments at LTER site in Moorea, French Polynesia, 2011 (OA_Corals project)
SAMI-CO2, SAMI-pH, temperature and dissolved oxygen from multiple moorings near Media Luna Reef, Puerto Rico from 2007-2008 (DOGEE-II project, NH10_ShelfBreak_MLR project)	SAMI-CO2 pCO2 and Temperature mooring time series data collected on the Buzzards Bay mooring	SAMI-CO2 pCO2 and Temperature
Chemical and physical measurements in coral tanks from Moorea, French Polynesia in 2010 (OA Corals project)
Microbial respiration from microcosm experiments conducted under three light treatments using water originating from West Bay of the Neuse River Estuary, North Carolina USA in 2021 and 2022		PreSens temperature/pressure sensor (Pt-100)
Millepora coral colony size on shallow reefs in St. John, USVI, 1992-2008 (St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
Millepora coral cover, seawater temperature and storm intensity in St. John, USVI, 1992-2008 (St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
Millepora coral cover on shallow reefs in St. John, USVI, 1992-2008 (St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
Moorings temperature and pH from multiple sites in the California Current System starting 2008 (OMEGAS-MaS project, ACIDIC project)		Water Temperature Sensor
Morphometric data from experiments on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2018 and 2020
Water characteristics measured in Narragansett Bay over two years, from March 2021 to March 2023	Used to measure water temperature; Thermometer model: VEEGEE Scientific encapsulated thermometer model #80704E.	VEEGEE Scientific encapsulated thermometer model #80704E
Underway data from R/V New Horizon NH1208 in the transect between 35 and 50N along CLIVAR line P17N from 2012-2012 (OAPS project)	Model: SEG14 Serial: 5125 MFG: SEG Location: Hull-2nd deck Machine rm Owner: SIO/STS CAL LAB: ODF CAL DATE: 17-Dec-2008	Water Temperature Sensor
Observed survival of coral fragments throughout a 93-day ocean acidification and warming experiment
Carbonate chemistry analyses of water collected from near Walpole, ME from zooplankton hatching experiments during 2011	A Dostmann electronic P-655-PT precision thermometer calibrated accurate to 0.01°C was employed for all titrations.	Water Temperature Sensor
Calcification and linear extension rates for Oculina arbuscula corals grown under different pCO2 levels; from the Cohen lab at WHOI in Woods Hole, MA (OA Nutrition and Coral Calcification project)	Temperature was measured with a partial-immersion mercury-glass thermometer (precision = +/- 0.3%, accuracy = +/- 0.4%).	Mercury-glass thermometer
Physical data (sal, temp, wind, wave height) collected from January-March of 2014, 2015, and 2016 at the OIMB pier located in the Coos Bay entrance of the Oregon Coast
Processed eddy covariance measurements from three lander deployments during R/V Oceanus cruises OC1802B and OC1901A along the Oregon shelf in 2018 and 2019.	Temperature records were extracted from the neighboring OOI Benthic Experimental Package CTD when at the 80 m station. Temperature records were measured with a recording CTD (SBE 37) during deployments at 30 m.
Juvenile growth post-settlement from experimental study of carryover effects of ocean acidification on larval and juvenile Olympia oysters; conducted at Bodega Marine Lab in July-Sept 2009	Seawater pH (NBS) and temperature were quantified using a pH/temperature meter: Accumet Excel XL60 (Thermo Fisher Scientific, Waltham, MA)	Accumet Excel XL60
Juvenile growth post-settlement under four larval-to-juvenile ocean acidification transitions in the laboratory; conducted at Bodega Marine Lab in July-Sept 2009	Seawater pH (NBS) and temperature were quantified using a pH/temperature meter: Accumet Excel XL60 (Thermo Fisher Scientific, Waltham, MA)	Accumet Excel XL60
Oyster larval growth at day 9 post-release under ocean acidification in the laboratory; experiments conducted at Bodega Marine Laboratory	Seawater pH (NBS) and temperature were quantified using a pH/temperature meter: Accumet Excel XL60 (Thermo Fisher Scientific, Waltham, MA)	Accumet Excel XL60
Juvenile growth of Olympia oysters outplanted to the field in Tomales Bay after being reared as larvae in the lab at Bodega Marine Lab in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Juvenile growth of Olympia oysters outplanted to the field in Tomales Bay after being reared as larvae in the lab at Bodega Marine Lab in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Juvenile survival of Olympia oysters outplanted to the field in Tomales Bay after being reared as larvae in the lab at Bodega Marina lab in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Juvenile survival of Olympia oysters outplanted to the field in Tomales Bay after being reared as larvae in the lab at Bodega Marina lab in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Percent settlement (metamorphosis) of Olympia oysters exposed to ocean acidification in the laboratory at Bodega Marine Lab in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Percent settlement (metamorphosis) of Olympia oysters exposed to ocean acidification in the laboratory at Bodega Marine Lab in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Size at settlement of Olympia oysters exposed to ocean acidification in the laboratory at lab Bodega Marine in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Size at settlement of Olympia oysters exposed to ocean acidification in the laboratory at lab Bodega Marine in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Water chemistry during larval rearing experiments concerning persistent effects of ocean acidification on larval and juvenile Olympia oysters conducted at Bodega Marine Laboratory in September 2010	Seawater pH(NBS) and temperature were quantified using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Water chemistry during larval rearing experiments concerning persistent effects of ocean acidification on larval and juvenile Olympia oysters conducted at Bodega Marine Laboratory in September 2010	Tiles deployed on four of the six stakes per site and shore level were outfitted with temperature loggers (iButton, Maxim, Sunnyvale, CA, USA).	iButton
Effects of food on growth of larval Olympia oysters under different levels of ocean acidification; experiments conducted at Bodega Marine Laboratory (BML), UC Davis in June 2011	Seawater pH and temperature were measured using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Effects of food on body condition of larval oysters under different levels of ocean acidification; experiments conducted at Bodega Marine Laboratory (BML), UC Davis in June 2011	Seawater pH and temperature were measured using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Effects of food on percent metamorphosis of settling Olympia oysters under different levels of ocean acidification; experiments conducted at Bodega Marine Laboratory, UC Davis in June 2011	Seawater pH and temperature were measured using a potentiometric pH/temperature meter (Accumet Excel XL60).	Accumet Excel XL60
Panopeus herbstii activity level and feeding with and without predator cues North Inlet Estuary, Georgetown, SC during 2012 (Variation in Metabolic Processes project)
Mud crabs refuge use and activity level - initial measurements collected from North Inlet Estuary, Georgetown, SC during 2012 (Variation in Metabolic Processes project)
Seawater carbonate chemistry from 13 sites in Palau collected from small boats in the Palauan archipelago from 2011-2013	In 2011, in situ temperature was measured with TidbiT v2 water temperature data loggers produced by Onset with a manufacturer stated accuracy of 0.2 degrees C. In 2012, in situ temperature was measured with a RBR XR-620 CTD with a manufacturer stated temperature accuracy of +/- 0.002 degrees C. Information from the manufacturers:TidbiT v2 Temperature Data LoggerRBR XR-620	Water Temperature Sensors
pCO2, pH, salinity and temperature data collected off the coast of Oregon, USA by a SAMI-CO2 sensor on the Shelf Break Mooring located below the National Data Buoy Center?s meteorological Buoy 46050; 2007-2011 (NH10_ShelfBreak_MLR project)	SAMI-CO2 pCO2 and Temperature mooring time series data collected on the Buzzards Bay mooring	SAMI-CO2 pCO2 and Temperature
PUA (polyunsaturated aldehydes) experiments: Experimental Conditions, Virginia Coastal Bays and Bay of Napoli, Mar-July 2015	Used to measure temperature and salinity at stations.	YSI ProDO2020
Data from in situ pump profiler system collected on R/V Hugh R. Sharp cruise HRS1415 in August 2014	The YSI model 350 probe measures salinity and temperature.	YSI model 350
Phosphate redox data from cruise AE1409 from R/V Atlantic Explorer AE1409 in the Western Tropical North Atlantic from May 2014 (P Processing by Tricho project)	Temperature in the incubators was occasionally monitored with a waterproof temperature logger (Onset).	temperature logger (Onset)
Temperature, salinity, and fluorescence of seawater collected from Alamitos Bay, Long Beach, CA during 2017-2019		alcohol thermometer
Chemical composition of hydrothermal fluids collected on RV/Roger Revelle RR1507 in the Eastern Lau Spreading Center and Valu Fa Ridge, April-May 2015 (Functional microbial dynamics of vent deposits project)	Used to measure in-situ temperature.	type-J thermocouple attached to the inlet snorkel
SAMI-CO2 pCO2 temperature and oxygen time series from Air-Sea Interaction Spar (ASIS) buoy in the Labrador Sea, (53.04N, 49.207W), June to August 2004 (CO2Flux_LabradorSea project)	During the deployment 2 separate ASIS Buoys were deployed, ASIS-1 & ASIS-2, upon each of which 2 SAMIs were attached. Each buoy had 1 SAMI-CO2 attached at 1 meter and 1 SAMI-CO2 attached at 5 meters depth. The SAMI-CO2 sampled on a 30 minute interval and a non-absorbing blank measurement was taken every 3.5 days. PAR was measured by a Li-COR LI-192 underwater quantum sensor (not calibrated). Oxygen data was obtained using a calibrated Aanderaa O2 sensor (model 4175). Both the PAR and O2 sensors were attached to a SAMI-CO2 sensor. There is no pCO2 record at 1 meter on ASIS-2.	SAMI-CO2 pCO2 and Temperature
SAMI-CO2 pCO2 and temperature mooring time series data at LEO15 and MVCO moorings from Buzzards Bay and Martha's Vineyard Coastal Observatory Air-Sea Interaction Tower (41.325, -70.5667) 1999-2005 inclusive (LEO-15 project)	SAMI-CO2 pCO2 and Temperature mooring time series data collected on the Buzzards Bay mooring	SAMI-CO2 pCO2 and Temperature
SAMI-CO2 pCO2 temperature and oxygen time series dataset from multiple buoys in the NE Atlantic Ocean, west of Iberian Peninsula and Ireland from June to July 2007 (DOGEE-II project)	During the deployment 2 separate ASIS Buoys were deployed, ASIS-1 & ASIS-2, upon each of which 2 SAMIs were attached. Each buoy had 1 SAMI-CO2 attached at 1 meter and 1 SAMI-CO2 attached at 5 meters depth. The SAMI-CO2 sampled on a 30 minute interval and a non-absorbing blank measurement was taken every 3.5 days. PAR was measured by a Li-COR LI-192 underwater quantum sensor (not calibrated). Oxygen data was obtained using a calibrated Aanderaa O2 sensor (model 4175). Both the PAR and O2 sensors were attached to a SAMI-CO2 sensor. There is no pCO2 record at 1 meter on ASIS-2.	SAMI-CO2 pCO2 and Temperature
SAMI-pH, temperature and salinity data from MBARI M0 mooring at 36.893N, 121.90W in 2007 (MBARI project)	SAMI-CO2 pCO2 and Temperature mooring time series data collected on the Buzzards Bay mooring	SAMI-CO2 pCO2 and Temperature
Seawater temperature in St. John, USVI, 1992-2008 (MCR LTER project, St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
Southern California sites surveyed for Ficopomatus enigmaticus in Orange and Los Angeles Counties, California, USA, from August to October 2015	At each site, water temperature was measured with an alcohol or digital thermometer.	alcohol or digital thermometer
Time series observations: hydrography, nutrients, and microbial, phytoplankton and zooplankton communities from the Skidaway River Estuary on the southeastern Atlantic coast of Georgia from 1986-2011 (SRiMP project)	1986 to 1996 Surface water temperature was measured weekly using a standard mercury thermometer (+- 0.1 ° C)	Standard Mercury Thermometer
Temperature time-series data from 4 depths in the Central California kelp forest, measured at the Stillwater Cove Mooring from 2010-2012 (Climate Change Kelp project)	Onset Stowaway Tidbits (+/- 0.2C) were deployed at 0.5, 4.8, 8, and 13.5 meters depth.	Water Temperature Sensor
Storm record from St. John, USVI, 1992-2008 (St. John LTREB project)	1992-1997: Ryan Industries thermistor (±0.3 °C accuracy) 1997: Optic Stowaway logger (±0.2 °C accuracy) 2001-2008: Hobo Aquapro logger (±0.2 °C accuracy	Water Temp Sensor
CH4, H2, CO, and d13C concentrations from the Strytan Hydrothermal Field collected by SCUBA July 15-8 2012 (C-DEBI, Lost City-type hydrothermal system project)		temperature probe
Dissolved inorganic carbon concentrations from the Strytan Hydrothermal Field collected by SCUBA July 15-8 2012 (C-DEBI, Lost City-type hydrothermal system project)		temperature probe
Geochemistry measurements from the Strytan Hydrothermal Field collected by SCUBA July 15-8 2012 (C-DEBI, Lost City-type hydrothermal system project)		temperature probe
Organic acid concentrations from the Strytan Hydrothermal Field collected by SCUBA July 15-8 2012 (C-DEBI, Lost City-type hydrothermal system project)		temperature probe
Subtidal temperature data (12-15 m depth) in the central Galapagos Islands, Ecuador from 2011-2013 (GMR Trophic Cascades project)	Onset Tidbit temperature loggers (http://www.onsetcomp.com/products/data-loggers/utbi-001) at 10 minute intervals. Loggers were attached to subtidal rock walls at 12-15 m depth . They are downloaded approximately twice a year. The temperature loggers have an accuracy of 0.2 degrees C.	Water Temp Sensor
CTD summary data from phytoplankton monitoring sites in Juneau, AK sampled from 2015-2016 (SEAK-AHAB project)	Equipped on CTD	SBE-3 temperature sensor
Survival data from static and fluctuating pCO2 x dissolved oxygen (DO) experiments on Menidia menidia	Temperature - Aqualogic thermostats connected to submersible heaters and chillers (Deltastar)	Aqualogic Deltastar
Data on hatching frequency and success from an experiment on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2020
Symbiodinium cell density, chlorophyll, respiration, photosynthetic yield in Seriatopora coral, Taiwan, 2010 (MCR LTER project, Climate_Coral_Larvae project)	1. Microsensor-based temperature regulators (AquaController, Neptune Systems, USA) 2. Certified digital thermometer (Fisher Scientific 15-077-8, +/- 0.05 C)	Water Temp Sensor
Seriatopora bleaching expt: Photosynthesis:irradiance (P/I) curves, Taiwan 2010 (MCR LTER project, Climate_Coral_Larvae project)	1. Microsensor-based temperature regulators (AquaController, Neptune Systems, USA) 2. Certified digital thermometer (Fisher Scientific 15-077-8, ± 0.05 C)	Water Temp Sensor
Seriatopora bleaching expt: temperature, salinity, light in tanks, Taiwan 2010 (MCR LTER project, Climate_Coral_Larvae project)	1. Microsensor-based temperature regulators (AquaController, Neptune Systems, USA) 2. Certified digital thermometer (Fisher Scientific 15-077-8, ± 0.05 C)	Water Temp Sensor
Seriatopora bleaching expt: water pH and carbonate chemistry, Taiwan 2010 (MCR LTER project, Climate_Coral_Larvae project)	1. Microsensor-based temperature regulators (AquaController, Neptune Systems, USA) 2. Certified digital thermometer (Fisher Scientific 15-077-8, ± 0.05 C)	Water Temp Sensor
Tank conditions for pH experiments on Lophelia pertusa specimens collected in the Norwegian Skagerrak and the Gulf of Mexico (Lophelia OA project)	Indicates water temperature	Temperature sensor
Water temperature from Niskin bottle samples measured at the PICO time-series station (34.7181 deg N, 76.6707 deg W) from 2010-2012 (PICO project)	Temperature was measured in duplicate using NIST traceable thermocouples (VWR#23609-232)	Water Temperature Sensor
Temperature and light time series in the Strait of Juan de Fuca, fall 2009 (Regenerated Nitrogen project)	HOBO Pendant Temperature/Light Data Logger 64K - UA-002-64 deployed in the intertidal zone. Sampling intervals varied but averaged around 10 min. The HOBO Pendant Temperature/Light Data Logger is a waterproof, two-channel logger with 10-bit resolution and can record up to approximately 3,500 (8K model) or 28,000 (64K model) combined temperature and light readings or internal logger events. The logger uses a coupler and optical base station with USB interface for launching and data readout by a computer.
Experiment Tank Conditions during a thermal stress experiment using reef building corals collected in Kāne'ohe Bay, O'ahu, Hawai'i.		Apex temperature probe (Neptune Systems)
Trichodesmium data from R/V Atlantic Explorer cruise AE1409 in the Western Tropical North Atlantic from May 2014 (P Processing by Tricho project)	Temperature in the incubators was occasionally monitored with a waterproof temperature logger (Onset).	temperature logger (Onset)
Data on unhatched embryos from an experiment on CO2 sensitivity of Northern sand lance (Ammodytes dubius) embryos conducted in 2018
Pencil urchin respiration rates at different temperatures from four sites in the Galápagos archipelago		temperature probe (Pt1000)
Sea water temperatures corresponding to the experimental trials for 2 species of sea urchin found in the subtidal areas of Isla Baltra, Galapagos during June-July 2012 (GMR Trophic Cascades project)
Concentrations of anions, cations, and trace elements/metals from vents near Milos Island, Greece. from May 2012 (Hydrothermal Autotrophic Carbon Fixation project)	Hand-held temperature probe	temperature probe
Vent fluid chemistry from R/V Atlantis AT26-10 and AT26-23 in the East Pacific Rise, Pacific Ocean from 2013-2014 (Microbial Communities at Deep-Sea Vents project)	Used to measure in-situ temperature.	type-J thermocouple attached to the inlet snorkel
Temperature profiles along shallow-water hydothermal vents in Paleochori Bay, Milos Island, Greece during 2012 (Hydrothermal Autotrophic Carbon Fixation project)	Digital thermometer in custom underwater housing	Digital thermometer
Underwater temperature, salinity, conductivity at Cantilever Point, Friday Harbor in the San Juan Islands from 2010-2013	SeaBird 37 MicroCAT measures temperature and conductivity.	Water Temperature Sensor
Water column data from R/V Atlantic Explorer cruise AE1409 in the Western Tropical North Atlantic from May 2014 (P Processing by Tricho project)	Temperature in the incubators was occasionally monitored with a waterproof temperature logger (Onset).	temperature logger (Onset)
Zooplankton counts and abundances from net tows from the R/V Gunnerus in the Tronheimsfjord, Norway during 2012 (Calanus Diapause project)	SeaBird SBE39 depth-temperature recorder	Temperature and depth recorder
Zooplankton net haul metadata and specimen removal records collected from the R/V Gunnerus in the Tronheimsfjord, Norway during 2012 (Calanus Diapause project)	SeaBird SBE39 depth-temperature recorder	Temperature and depth recorder

Instrument: Water Temperature Sensor

Acronym: Water Temp Sensor

External Identifier: skos:broadMatch: http://vocab.nerc.ac.uk/collection/L05/current/134/

Description

Instrument: Water Temperature Sensor

Acronym: Water Temp Sensor

External Identifier: skos:broadMatch: http://vocab.nerc.ac.uk/collection/L05/current/134/

Description