ERDDAP Search: temperature2024-03-29T14:31:32ZScott Brucescott.bruce@mi.mun.cahttps://www.smartatlantic.ca/erddap/opensearch1.1/search?page=1&itemsPerPage=1000&searchTerms=temperature&format=atom5611000Conception Bay Conductivity Temperature Depth Deployed 2021-02-14 | Conception Bay Conductivité/Température/Profondeur déployé 2021-02-14https://www.smartatlantic.ca/erddap/tabledap/uvic_onc_mun_mi_conception_bay_ctd.html2024-03-29T14:37:42Z
abstract: English = The Sea-Bird Microcat SBE37SIP 5682 was deployed on 2021-02-14 at Conception Bay. Conception Bay is located west of the city St. John's, Newfoundland. This device is a Conductivity Temperature Depth. Conductivity Temperature Depth (CTD) is an instrument package that contains sensors for measuring the conductivity, temperature, and pressure of seawater. Salinity, sound velocity, depth and density are variables that can be derived from sensor measurements. CTDs can carry additional instruments and sensors such as oxygen sensors, turbidity sensors and fluorometers. It was deployed on a fixed platform. Data from this deployment were archived and made available through Ocean Networks Canada's Oceans 3.0 digital infrastructure, with quality assurance and derived data products following established practices., abstract: French = Ce Sea-Bird Microcat SBE37SIP 5682 a été déployé le 2021-02-14 au Conception Bay. Conception Bay est située à l'ouest de la ville de St John's, Terre-Neuve. Cet instrument est un Conductivité/Température/Profondeur. Conductivité Température Profondeur (CTD) est un nom abrégé pour un ensemble d'instruments qui contient des capteurs permettant de mesurer la conductivité, la température et la pression de l'eau de mer. La salinité, la vitesse du son, la profondeur et la densité sont des variables qui peuvent être dérivées des mesures par capteurs. Les CTD peuvent transporter d'autres instruments et capteurs, comme des capteurs d'oxygène, des capteurs de turbidité et des fluoromètres. Il a été deployé sur une plateforme fixe. Les données de ce déploiement sont archivées et accessibles sur l’infrastructure numérique Oceans 3.0 du Réseau Canadien des Océans (ONC), avec assurance de la qualité et produits dérivés selon les conventions établies.
cdm_data_type = TimeSeries
VARIABLES:
timeseries_id (Dataset Identifier)
time (seconds since 1970-01-01T00:00:00Z)
cond (Sea Water Electrical Conductivity, S m-1)
salinity (Sea Water Practical Salinity, 1e-3)
density (Sea Water Density, kg m-3)
SIGMA_THETA (Sea Water Sigma Theta, kg m-3)
sigmaT (Sea Water Sigma T, kg m-3)
Sound_Speed (Speed Of Sound In Sea Water, m s-1)
Temperature (Sea Water Temperature, K)
latitude (degrees_north)
longitude (degrees_east)
depth (m)
Fortune Bay: Pool's Cove - POOLChttps://www.smartatlantic.ca/erddap/tabledap/DFO_Sutron_POOLC.html2024-03-29T14:31:30Z
POOLC (47.679933 N, 55.43001667 W): is a water temperature and pressure gauge located in Pool's Cove, Fortune Bay. The station is equipped with an HydroMet OTT Pressure Level Sensor (PLS) measuring water pressure and temperature. The sensor is connected to a SUTRON Satlink2-V2 which collect 1 min average values (from a 1 Hz internal sampling) logged every 10 min and transmitted via an Omni-directional GOES antenna every hour. The station is installed on a wharf and the sensor is moored at about 1.5 m depth from mean sea level. This station was installed as part of a bay-scale monitoring program that occurred from May 2015 to May 2017 and that aimed at understanding the dominant ocean dynamics of Fortune Bay. It has been maintained ever since and visited on a yearly basis (approximately) though it suffered from instrument failure from late 2018 to late 2020. Details on the original program can be found at https://essd.copernicus.org/articles/12/1877/2020/essd-12-1877-2020.html
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
water_pressure (Sea Water Pressure, mbar)
water_temperature (Surface Temp Avg, degree_C)
battery_voltage (V)
latitude (degrees_north)
longitude (degrees_east)
Placentia Bay: North Harbour - NHARBhttps://www.smartatlantic.ca/erddap/tabledap/DFO_Sutron_NHARB.html2024-03-29T14:31:29Z
NHARB (47.84626 N , 54.09684 W) is a water temperature and pressure gauge located in North Harbour, Placentia Bay. The station is equipped with an HydroMet OTT Pressure Level Sensor (PLS) measuring water pressure and temperature. The sensor is connected to a SUTRON Satlink2-V2 which collect 1 min average values (from a 1 Hz internal sampling) logged every 10 min and transmitted via an Omni-directional GOES antenna every hour. The station is installed on a wharf and the sensor is moored at about 3 m depth from mean sea level. This station is part of a monitoring program led by the Northwest Atlantic Fisheries Centre (Fisheries and Oceans, Canada) to provide with an oceanographic baseline of the area.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
water_pressure (Sea Water Pressure, mbar)
water_temperature (Surface Temp Avg, degree_C)
battery_voltage (V)
latitude (degrees_north)
longitude (degrees_east)
NEGL, Postville, Nunatsiavut (NLQU0001)https://www.smartatlantic.ca/erddap/tabledap/sma_negl_postville_nlqu0001.html2024-03-29T14:16:37Z
NEGL - Postville, Nunatsiavut (NLQU0001). Tri-leg tower masts are 25 feet tall (7.62 m) and stations are all located at mid-slopes in cleared terrain. Sites at Cartwright Junction, near Red Bay and at North West River all include fence enclosures which may impact snow accumulation at these sites. All stations are owned and operated by the Northern Environmental Geoscience Laboratory led by Dr. Robert Way. All stations were established in partnership with the communities of Black Tickle, North West River, Postville, Red Bay and Rigolet. Support for this project was received from the Labrador Institute of Memorial University of Newfoundland, the Nunatsiavut Government, the NunatuKavut Community Council, the Government of Newfoundland and Labrador's Department of Fisheries and Land Resources & Department of Municipal Affairs and Environment, and Queen's University. Funding for this project was received from Crown-Indigenous and Northern Affairs Canada (Government of Canada) through the Indigenous Community-Based Climate Monitoring Program. Climate stations were purchased from Forest Technology Systems Inc headquatered in British Columbia, Canada.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
stat_num
wsc_num
air_temp_avg (Air Temperature, degree_C)
rel_humidity (Relative Humidity, 1)
air_pressure_avg (Air Pressure, mbar)
precip_tb (Precipitation (Tipping Bucket), mm)
rain (mm)
snow (m)
snow_depth (m)
wind_spd_avg (Wind Speed, m s-1)
wind_dir_avg (Wind From Direction, degree)
... (16 more variables)
NEGL, Red Bay, NunatuKavut (NLQU0005)https://www.smartatlantic.ca/erddap/tabledap/sma_negl_red_bay_nlqu0005.html2024-03-29T14:16:38Z
NEGL - Red Bay, NunatuKavut (NLQU0005). Tri-leg tower masts are 25 feet tall (7.62 m) and stations are all located at mid-slopes in cleared terrain. Sites at Cartwright Junction, near Red Bay and at North West River all include fence enclosures which may impact snow accumulation at these sites. All stations are owned and operated by the Northern Environmental Geoscience Laboratory led by Dr. Robert Way. All stations were established in partnership with the communities of Black Tickle, North West River, Postville, Red Bay and Rigolet. Support for this project was received from the Labrador Institute of Memorial University of Newfoundland, the Nunatsiavut Government, the NunatuKavut Community Council, the Government of Newfoundland and Labrador's Department of Fisheries and Land Resources & Department of Municipal Affairs and Environment, and Queen's University. Funding for this project was received from Crown-Indigenous and Northern Affairs Canada (Government of Canada) through the Indigenous Community-Based Climate Monitoring Program. Climate stations were purchased from Forest Technology Systems Inc headquatered in British Columbia, Canada.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
stat_num
wsc_num
air_temp_avg (Air Temperature, degree_C)
rel_humidity (Relative Humidity, 1)
air_pressure_avg (Air Pressure, mbar)
precip_tb (Precipitation (Tipping Bucket), mm)
rain (mm)
snow (m)
snow_depth (m)
wind_spd_avg (Wind Speed, m s-1)
wind_dir_avg (Wind From Direction, degree)
... (16 more variables)
NEGL, Rigolet, Nunatsiavut (NLQU0002)https://www.smartatlantic.ca/erddap/tabledap/sma_negl_rigolet_nlqu0002.html2024-03-29T14:16:39Z
NEGL - Rigolet, Nunatsiavut (NLQU0002). Tri-leg tower masts are 25 feet tall (7.62 m) and stations are all located at mid-slopes in cleared terrain. Sites at Cartwright Junction, near Red Bay and at North West River all include fence enclosures which may impact snow accumulation at these sites. All stations are owned and operated by the Northern Environmental Geoscience Laboratory led by Dr. Robert Way. All stations were established in partnership with the communities of Black Tickle, North West River, Rigolet, Red Bay and Rigolet. Support for this project was received from the Labrador Institute of Memorial University of Newfoundland, the Nunatsiavut Government, the NunatuKavut Community Council, the Government of Newfoundland and Labrador's Department of Fisheries and Land Resources & Department of Municipal Affairs and Environment, and Queen's University. Funding for this project was received from Crown-Indigenous and Northern Affairs Canada (Government of Canada) through the Indigenous Community-Based Climate Monitoring Program. Climate stations were purchased from Forest Technology Systems Inc headquatered in British Columbia, Canada.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
stat_num
wsc_num
air_temp_avg (Air Temperature, degree_C)
rel_humidity (Relative Humidity, 1)
air_pressure_avg (Air Pressure, mbar)
precip_tb (Precipitation (Tipping Bucket), mm)
rain (mm)
snow (m)
snow_depth (m)
wind_spd_avg (Wind Speed, m s-1)
wind_dir_avg (Wind From Direction, degree)
... (16 more variables)
NEGL, Black Tickle-Domino, NunatuKavut (NLQU0003)https://www.smartatlantic.ca/erddap/tabledap/sma_negl_black_tickle_nlqu0003.html2024-03-29T14:16:35Z
NEGL - Black Tickle-Domino, NunatuKavut (NLQU0003). Tri-leg tower masts are 25 feet tall (7.62 m) and stations are all located at mid-slopes in cleared terrain. Sites at Cartwright Junction, near Red Bay and at North West River all include fence enclosures which may impact snow accumulation at these sites. All stations are owned and operated by the Northern Environmental Geoscience Laboratory led by Dr. Robert Way. All stations were established in partnership with the communities of Black Tickle, North West River, Postville, Red Bay and Rigolet. Support for this project was received from the Labrador Institute of Memorial University of Newfoundland, the Nunatsiavut Government, the NunatuKavut Community Council, the Government of Newfoundland and Labrador's Department of Fisheries and Land Resources & Department of Municipal Affairs and Environment, and Queen's University. Funding for this project was received from Crown-Indigenous and Northern Affairs Canada (Government of Canada) through the Indigenous Community-Based Climate Monitoring Program. Climate stations were purchased from Forest Technology Systems Inc headquatered in British Columbia, Canada.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
stat_num
wsc_num
air_temp_avg (Air Temperature, degree_C)
rel_humidity (Relative Humidity, 1)
air_pressure_avg (Air Pressure, mbar)
precip_tb (Precipitation (Tipping Bucket), mm)
rain (mm)
snow (m)
snow_depth (m)
wind_spd_avg (Wind Speed, m s-1)
wind_dir_avg (Wind From Direction, degree)
... (16 more variables)
NEGL, North West River, Labrador (NLQU0007)https://www.smartatlantic.ca/erddap/tabledap/sma_negl_north_west_river_nlqu0007.html2024-03-29T14:16:36Z
NEGL - North West River, Labrador (NLQU0007). Tri-leg tower masts are 25 feet tall (7.62 m) and stations are all located at mid-slopes in cleared terrain. Sites at Cartwright Junction, near Red Bay and at North West River all include fence enclosures which may impact snow accumulation at these sites. All stations are owned and operated by the Northern Environmental Geoscience Laboratory led by Dr. Robert Way. All stations were established in partnership with the communities of Black Tickle, North West River, Postville, Red Bay and Rigolet. Support for this project was received from the Labrador Institute of Memorial University of Newfoundland, the Nunatsiavut Government, the NunatuKavut Community Council, the Government of Newfoundland and Labrador's Department of Fisheries and Land Resources & Department of Municipal Affairs and Environment, and Queen's University. Funding for this project was received from Crown-Indigenous and Northern Affairs Canada (Government of Canada) through the Indigenous Community-Based Climate Monitoring Program. Climate stations were purchased from Forest Technology Systems Inc headquatered in British Columbia, Canada.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
stat_num
wsc_num
air_temp_avg (Air Temperature, degree_C)
rel_humidity (Relative Humidity, 1)
air_pressure_avg (Air Pressure, mbar)
precip_tb (Precipitation (Tipping Bucket), mm)
rain (mm)
snow (m)
snow_depth (m)
wind_spd_avg (Wind Speed, m s-1)
wind_dir_avg (Wind From Direction, degree)
... (16 more variables)
NEGL, Cartwright Junction, Labrador (NLQU0004)https://www.smartatlantic.ca/erddap/tabledap/sma_negl_cartwright_junction_nlqu0004.html2024-03-29T14:16:36Z
NEGL - Cartwright Junction, Labrador (NLQU0004). Tri-leg tower masts are 25 feet tall (7.62 m) and stations are all located at mid-slopes in cleared terrain. Sites at Cartwright Junction, near Red Bay and at North West River all include fence enclosures which may impact snow accumulation at these sites. All stations are owned and operated by the Northern Environmental Geoscience Laboratory led by Dr. Robert Way. All stations were established in partnership with the communities of Black Tickle, North West River, Postville, Red Bay and Rigolet. Support for this project was received from the Labrador Institute of Memorial University of Newfoundland, the Nunatsiavut Government, the NunatuKavut Community Council, the Government of Newfoundland and Labrador's Department of Fisheries and Land Resources & Department of Municipal Affairs and Environment, and Queen's University. Funding for this project was received from Crown-Indigenous and Northern Affairs Canada (Government of Canada) through the Indigenous Community-Based Climate Monitoring Program. Climate stations were purchased from Forest Technology Systems Inc headquatered in British Columbia, Canada.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
stat_num
wsc_num
air_temp_avg (Air Temperature, degree_C)
rel_humidity (Relative Humidity, 1)
air_pressure_avg (Air Pressure, mbar)
precip_tb (Precipitation (Tipping Bucket), mm)
rain (mm)
snow (m)
snow_depth (m)
wind_spd_avg (Wind Speed, m s-1)
wind_dir_avg (Wind From Direction, degree)
... (16 more variables)
COVE Weather Station, IDARTM1https://www.smartatlantic.ca/erddap/tabledap/cove_weather_station_idartm1.html2024-03-29T14:01:29Z
The COVE weather station is a Davis Vantage Pro 2, it is a weather monitoring device designed to measure temperature, humidity, wind speed and direction, rainfall amounts, barometric pressure, and other weather elements. It is installed on a 40-foot mast on COVE's south marginal wharf. The Vantage Pro 2 is designed to withstand extreme weather conditions and provides accurate weather data. The outdoor sensor suite is equipped with a fan aspirated radiation shield that minimizes the effect of solar heating on the sensors, ensuring accurate temperature readings.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wind_dir_avg (Wind From Direction, degree)
rel_humidity (Humidity, 1)
air_temp_avg (Average Air Temperature, degree_C)
wind_spd_avg (Wind Speed Average, m s-1)
wind_gust_avg (Wind Speed Of Gust, m s-1)
air_dewpoint_avg (Dew Point, degree_C)
wind_chill (degree_C)
heat_index (degree_C)
air_pressure_avg (Air Pressure, mbar)
precip_rate (Lwe Precipitation Rate, mm h-1)
precip_total (Precipitation Total, mm)
qc_status
XEOS H1 Buoy Wave Sensorhttps://www.smartatlantic.ca/erddap/tabledap/SmartAtlantic_XEOS_h1_buoy.html2024-03-29T14:16:31Z
Buoy H1 is a lateral navigation buoy deployed in the vicinity of Duncan Reef. The buoy’s position (44 29.6001N, 063 30.5655W) (DD MM.MMMM). The BRIZO sensor is being sponsored by the Atlantic Pilotage Authority.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
precise_lat (Precise Latitude, degrees_north)
precise_lon (Precise Longitude, degrees_east)
battery_level (Battery Voltage, V)
temperature (degree_C)
wave_ht_sig (Sea Surface Wave Significant Height, m)
wave_period_max (Sea Surface Wave Maximum Period, s)
wave_ht_max (Sea Surface Wave Significant Height, m)
wave_dir_avg (Sea Surface Wave To Direction, degree)
wave_spread_avg (Wavespread, degree)
sea_surface_wave_mean_period (Mean Zero-Upcrossing Period, s)
sample_quality (1)
XEOS HKB Buoy Wave Sensorhttps://www.smartatlantic.ca/erddap/tabledap/SmartAtlantic_XEOS_hkb_buoy.html2024-03-29T14:16:32Z
The Brizo is a GNSS-based, directional wave height sensor. Developed by Xeos Technologies, it is a breakthrough product on the market that provides significant wave height, maximum wave height, peak wave period, average wave direction, and average wave spread. It was installed on the HKB navigational buoy in the Halifax Harbour near Meagher's Beach.
When the Port Authority raised a need for capturing wave data at this location, Xeos Technologies was happy to provide and install its own wave height sensor for the SmartAtlantic project. It is an opportunity to aid in the environmental monitoring of harbor conditions.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
precise_lat (Precise Latitude, degrees_north)
precise_lon (Precise Longitude, degrees_east)
battery_level (Battery Voltage, V)
temperature (degree_C)
wave_ht_sig (Sea Surface Wave Significant Height, m)
wave_period_max (Sea Surface Wave Maximum Period, s)
wave_ht_max (Sea Surface Wave Significant Height, m)
wave_dir_avg (Sea Surface Wave To Direction, degree)
wave_spread_avg (Wavespread, degree)
sea_surface_wave_mean_period (Mean Zero-Upcrossing Period, s)
sample_quality (1)
Holyrood Buoy 1https://www.smartatlantic.ca/erddap/tabledap/SMA_Holyrood_Buoy1.html2024-03-29T14:02:09Z
Holyrood Buoy 1. MI data from a local source.
cdm_data_type = Other
VARIABLES:
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
wind_gust
relative_wind_direction
relative_wind_speed
corrected_wind_direction
corrected_speed
pressure
relative_humidity
temperature
dewpoint
internal_date_and_time
supply_voltage
latitude2 (Latitude, degrees_north)
longitude2 (Longitude, degrees_east)
altitude2 (Altitude)
date
time2 (Time)
serial
buoyid
number_of_zero_crossings
average_wave_height (Sea Surface Wave Significant Height)
mean_spectral_period
maximum_wave_height (Sea Surface Wave Significant Height)
significant_wave_height (Sea Surface Wave Significant Height)
significant_period
average_height_of_highest_tenth_of_waves (Sea Surface Wave Significant Height)
average_period_of_h10_waves (Sea Surface Swell Wave Period)
... (6 more variables)
Daily Average Weather Data, Lord's Covehttps://www.smartatlantic.ca/erddap/tabledap/cna_werc_weather_daily_avg.html2024-03-28T16:16:05Z
Weather station data from the Wave Environment Research Centre (WERC) at the College of the North Atlantic (CNA), Lord's Cove, Newfoundland & Labrador, Canada
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wind_vec_avg (Vector Averaged Windspeed, km h-1)
wind_scalar_avg (Scalar Averaged Windspeed, km h-1)
wind_dir (Average Wind Direction, degree)
wind_dir_sd (Standard Deviation, Wind Direction, degree)
air_temp_avg (Mean Air Temperature, degree_C)
air_temp_max (Maximum Air Temperature, degree_C)
time_air_temp_max (Time of Temperature Max)
air_temp_min (Minimum Air Temperature, degree_C)
time_air_temp_min (Time of Temperature Min)
air_dewpoint_avg (Average Dew Point Temperature, degree_C)
air_dewpoint_max (Maximum Dew Point Temperature, degree_C)
time_air_dewpoint_max
air_dewpoint_min (Minimum Dew Point Temperature, degree_C)
time_air_dewpoint_min
pyr_solar (Average Solar Irradiance, kW m-2)
rain_gauge_1 (mm)
rain_gauge_2 (mm)
Holyrood Buoy 1, Raw Wind Datahttps://www.smartatlantic.ca/erddap/tabledap/SMA_Holyrood_Buoy1_wind_raw.html2024-03-29T14:02:10Z
Holyrood Buoy 1 Raw Wind Data. MI data from a local source.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
relative_wind_direction (Wind From Direction)
relative_wind_speed (Wind Speed)
corrected_wind_direction (Wind From Direction)
corrected_speed
pressure
relative_humidity
temperature
dewpoint
internal_date_and_time (seconds since 1970-01-01T00:00:00Z)
supply_voltage
status
latitude (degrees_north)
longitude (degrees_east)
altitude (m)
Shipissipan, Remote Automatic Weather Station (RAWS), Nitassinanhttps://www.smartatlantic.ca/erddap/tabledap/parks_canada_shipissipan.html2024-03-29T14:16:30Z
"Shipissipan" is a FTS fixed RAWS station @ 53.21798, -58.679 elevation 334m. NESID: CAE012A6. Data format type: BLM. It has a 10 meter tower. It has a solar radiation and snow depth sensor added in addition to temp/Rh, wind speed/dir and rain (tipping bucket). This station will remain in place year round.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
dcp_header
latitude (degrees_north)
longitude (degrees_east)
relative_humidity (1)
relative_humidity_min_1hr (1)
relative_humidity_max_1hr (1)
air_temp (Air Temperature, degree_C)
air_temp_min_1hr (Air Temperature Min 1hr, degree_C)
air_temp_max_1hr (Air Temperature Max 1hr, degree_C)
avg_wind_speed_10min (km h-1)
avg_wind_dir_10min (Wind From Direction, degree)
max_wind_speed_1hr (km h-1)
max_wind_dir_1hr (Wind From Direction, degree)
rainfall_1hr (mm)
rainfall_total (mm)
battery_voltage (V)
battery_voltage_loaded (V)
battery_voltage_avg_1hr (V)
battery_current_avg_1hr (A)
avg_solar_voltage_1hr (V)
avg_solar_current_1hr (A)
relative_humidity_rolling_24hr_min (1)
... (8 more variables)
10-Minute Average Weather Data, Lord's Covehttps://www.smartatlantic.ca/erddap/tabledap/cna_werc_weather_10-min_avg.html2024-03-28T16:16:05Z
Weather station data from the Wave Energy Research Centre (WERC) at the College of the North Atlantic (CNA), Lord's Cove, Newfoundland & Labrador, Canada
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wind_spd_avg (Average Windspeed, km h-1)
wind_dir_avg (Average Wind Direction, degree)
wind_dir_sd (Standard Deviation, Wind Direction, degree)
wind_max (Maximum Wind Speed, km h-1)
wind_min (Minimum Wind Speed, km h-1)
air_temp_avg (Mean Air Temperature, degree_C)
air_temp_max (Maximum Air Temperature, degree_C)
air_temp_min (Minimum Air Temperature, degree_C)
rel_humidity (Relative Humidity, 1)
air_dewpoint_avg (Average Dew Point Temperature, degree_C)
pyr_solar (Average Solar Irradiance, kW m-2)
rain_gauge_1 (mm)
rain_gauge_2 (mm)
batt_v (Battery Voltage, V)
Holyrood Shore Stationhttps://www.smartatlantic.ca/erddap/tabledap/SMA_holyrood_shore_station.html2024-03-29T14:02:14Z
Replacing the Holyrood Wharf station, the new shore station is located in the South Arm of Holyrood Bay, at The Launch in Conception Bay. The station consists of a Gill MaxiMet GMX300 weather station and a Gill WindSonic 60 anemometer. The weather station measures air pressure, relative humidity, temperature and dewpoint. The anemometer measures wind speed and direction. Data from the station is available in near-real time and is utilized by mariners in this region in support of safer and more efficient marine operations.
cdm_data_type = TimeSeries
VARIABLES:
station_name
latitude (degrees_north)
longitude (degrees_east)
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
system_date_wind_sonic (System Date (Wind Sonic), seconds since 1970-01-01T00:00:00Z)
wind_direction (Wind From Direction, degree_true)
wind_speed (m s-1)
status_wind_sonic (Status (Wind Sonic))
system_date_maximet (System Date (Maximet), seconds since 1970-01-01T00:00:00Z)
air_pressure (hpa)
relative_humidity (1)
air_temp (Air Temperature, degree_C)
air_dewpoint (Dewpoint, degree_C)
date_and_time (seconds since 1970-01-01T00:00:00Z)
supply_voltage (V)
status_maximet (Status (Maximet))
MSC Datamart realtime moored buoy datahttps://www.smartatlantic.ca/erddap/tabledap/eccc_opp_atlantic.html2024-03-29T14:01:55Z
MSC Datamart realtime moored buoy data
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Sampling Time, seconds since 1970-01-01T00:00:00Z)
wmo_synop_id (WMO synoptic identifier, 1)
msc_id (MSC Identifier, 1)
stn_nam (Station Name)
stn_elev (Station Elevation, m)
latitude (degrees_north)
longitude (degrees_east)
stn_typ (Station Type)
date_tm (Date and Time, seconds since 1970-01-01T00:00:00Z)
rpt_typ (Report Type)
result_time (seconds since 1970-01-01T00:00:00Z)
crnt_buoy_lat (current buoy latitude, degrees_north)
crnt_buoy_lat_qa_summary
crnt_buoy_long (current buoy longitude, degrees_east)
crnt_buoy_long_qa_summary
avg_air_temp_pst10mts (10-min average air temperature, degree_C)
avg_air_temp_pst10mts_qa_summary
avg_sea_sfc_temp_pst10mts (10-minute sea surface temperature, degree_C)
avg_sea_sfc_temp_pst10mts_qa_summary
avg_batry_volt_pst10mts (10-minute average battery voltage, V)
avg_batry_volt_pst10mts_qa_summary
avg_solr_panl_crnt_pst10mts (10-minute average current voltage, A)
avg_solr_panl_crnt_pst10mts_qa_summary
avg_wtr_lvl_snsr_volt_pst10mts (V)
avg_wtr_lvl_snsr_volt_pst10mts_qa_summary
avg_wave_hgt_pst20mts (20-minute average wave height, m)
... (41 more variables)
MUN Glider Deployment: Sunfish, Labrador Sea, 2021-12-03https://www.smartatlantic.ca/erddap/tabledap/sunfish_labrador_sea_2022_60ac_212a_97de.html2024-03-28T15:31:57Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14,663 mission kms, 620 deployment days and 25,108 individual glider profiles. L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = Point
VARIABLES:
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
water_u (mean eastward water velocity in segment, m s-1)
water_v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
temperature (Ctd Cell Water Temperature, degree_C)
pressure (Gpctd Cell Water Pressure, dbar)
conductivity (Ctd Cell Water Conductivity, S m-1)
... (22 more variables)
ECCC OPP, 44490, West Bay of Fundyhttps://www.smartatlantic.ca/erddap/tabledap/eccc_opp_44490_west_bay_of_fundy.html2024-03-29T14:01:48Z
ECCC OPP, 44490, West Bay of Fundy
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Sampling Time, seconds since 1970-01-01T00:00:00Z)
wmo_synop_id (WMO synoptic identifier)
msc_id (MSC Identifier)
stn_nam (Station Name)
stn_elev (Station Elevation, m)
latitude (degrees_north)
longitude (degrees_east)
stn_typ (Station Type)
date_tm (Date and Time, seconds since 1970-01-01T00:00:00Z)
rpt_typ (Report Type)
result_time (seconds since 1970-01-01T00:00:00Z)
crnt_buoy_lat (current buoy latitude, degrees_north)
crnt_buoy_lat_qa_summary
crnt_buoy_long (current buoy longitude, degrees_east)
crnt_buoy_long_qa_summary
avg_air_temp_pst10mts (10-min average air temperature, degree_C)
avg_air_temp_pst10mts_qa_summary
avg_sea_sfc_temp_pst10mts (10-minute sea surface temperature, degree_C)
avg_sea_sfc_temp_pst10mts_qa_summary
avg_batry_volt_pst10mts (10-minute average battery voltage, V)
avg_batry_volt_pst10mts_qa_summary
avg_solr_panl_crnt_pst10mts (10-minute average current voltage, A)
avg_solr_panl_crnt_pst10mts_qa_summary
avg_wtr_lvl_snsr_volt_pst10mts (V)
avg_wtr_lvl_snsr_volt_pst10mts_qa_summary
avg_wave_hgt_pst20mts (20-minute average wave height, m)
... (41 more variables)
ECCC OPP, 44488, East Chedabucto Bayhttps://www.smartatlantic.ca/erddap/tabledap/eccc_opp_44488_east_chedabucto_bay.html2024-03-29T13:46:32Z
ECCC OPP, 44488, East Chedabucto Bay
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Sampling Time, seconds since 1970-01-01T00:00:00Z)
wmo_synop_id (WMO synoptic identifier)
msc_id (MSC Identifier)
stn_nam (Station Name)
stn_elev (Station Elevation, m)
latitude (degrees_north)
longitude (degrees_east)
stn_typ (Station Type, 1)
date_tm (Date and Time, seconds since 1970-01-01T00:00:00Z)
rpt_typ (Report Type, 1)
result_time (seconds since 1970-01-01T00:00:00Z)
crnt_buoy_lat (current buoy latitude, degrees_north)
crnt_buoy_lat_qa_summary (1)
crnt_buoy_long (current buoy longitude, degrees_east)
crnt_buoy_long_qa_summary (1)
avg_air_temp_pst10mts (10-min average air temperature, degree_C)
avg_air_temp_pst10mts_qa_summary (1)
avg_sea_sfc_temp_pst10mts (10-minute sea surface temperature, degree_C)
avg_sea_sfc_temp_pst10mts_qa_summary (1)
avg_batry_volt_pst10mts (10-minute average battery voltage, V)
avg_batry_volt_pst10mts_qa_summary (1)
avg_solr_panl_crnt_pst10mts (10-minute average current voltage, A)
avg_solr_panl_crnt_pst10mts_qa_summary (1)
avg_wtr_lvl_snsr_volt_pst10mts (V)
avg_wtr_lvl_snsr_volt_pst10mts_qa_summary (1)
avg_wave_hgt_pst20mts (20-minute average wave height, m)
... (41 more variables)
ECCC OPP, 44489, West Chedabucto Bayhttps://www.smartatlantic.ca/erddap/tabledap/eccc_opp_44489_west_chedabucto_bay.html2024-03-29T14:01:35Z
ECCC OPP, 44489, West Chedabucto Bay
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Sampling Time, seconds since 1970-01-01T00:00:00Z)
wmo_synop_id (WMO synoptic identifier)
msc_id (MSC Identifier)
stn_nam (Station Name)
stn_elev (Station Elevation, m)
latitude (degrees_north)
longitude (degrees_east)
stn_typ (Station Type)
date_tm (Date and Time, seconds since 1970-01-01T00:00:00Z)
rpt_typ (Report Type)
result_time (seconds since 1970-01-01T00:00:00Z)
crnt_buoy_lat (current buoy latitude, degrees_north)
crnt_buoy_lat_qa_summary
crnt_buoy_long (current buoy longitude, degrees_east)
crnt_buoy_long_qa_summary
avg_air_temp_pst10mts (10-min average air temperature, degree_C)
avg_air_temp_pst10mts_qa_summary
avg_sea_sfc_temp_pst10mts (10-minute sea surface temperature, degree_C)
avg_sea_sfc_temp_pst10mts_qa_summary
avg_batry_volt_pst10mts (10-minute average battery voltage, V)
avg_batry_volt_pst10mts_qa_summary
avg_solr_panl_crnt_pst10mts (10-minute average current voltage, A)
avg_solr_panl_crnt_pst10mts_qa_summary
avg_wtr_lvl_snsr_volt_pst10mts (V)
avg_wtr_lvl_snsr_volt_pst10mts_qa_summary
avg_wave_hgt_pst20mts (20-minute average wave height, m)
... (41 more variables)
MUN Glider Deployment: Nunkaysa, Pacific, 2012-08-18https://www.smartatlantic.ca/erddap/tabledap/mun_glider_nunkaysa_pacific_2012.html2024-03-28T15:31:53Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (13 more variables)
MUN Glider Deployment: Scidaana, Pacific, 2012-08-18https://www.smartatlantic.ca/erddap/tabledap/mun_glider_scidaana_pacific_2012.html2024-03-28T15:31:56Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (13 more variables)
MUN Glider Deployment: Unit 048, Fortune Bay, 2012-03-05https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_048_fortune_bay_2012.html2024-03-28T15:31:58Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (8 more variables)
MUN Glider Deployment: Unit 334, Labrador Sea, 2014-07-22https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_334_labrador_sea_2014.html2024-03-28T15:32:00Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (6 more variables)
MUN Glider Deployment: Unit 472, Trinity Bay, 2014-10-01https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_472_trinity_bay_2014.html2024-03-28T15:32:01Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (9 more variables)
MUN Glider Deployment: Unit 472, Trinity Bay, 2015-09-30https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_472_trinity_bay_2015.html2024-03-28T15:32:02Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (13 more variables)
MUN Glider Deployment: Unit 473, Labrador Sea, 2016-08-31https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_473_labrador_sea_2016.html2024-03-28T15:32:03Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (13 more variables)
MUN Glider Deployment: Unit 473, Trinity Bay, 2014-10-01https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_473_trinity_bay_2014.html2024-03-28T15:32:04Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (9 more variables)
MUN Glider Deployment: Unit 473, Trinity Bay, 2016-08-16https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_473_trinity_bay_2016.html2024-03-28T15:32:05Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (13 more variables)
MUN Glider Deployment: Unit 473, Trinity Bay, 2018-09-05https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_473_trinity_bay_2018.html2024-03-28T15:32:06Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (13 more variables)
MUN Glider Deployment: Pearldiver, Labrador Sea, 2019-12-04https://www.smartatlantic.ca/erddap/tabledap/mun_glider_data_pearldiver_labrador_sea_2019.html2024-03-28T15:31:51Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (9 more variables)
MUN Glider Deployment: Pearldiver, Labrador Shelf, 2014-07-05https://www.smartatlantic.ca/erddap/tabledap/mun_glider_pearldiver_labrador_shelf_2014.html2024-03-28T15:31:54Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (9 more variables)
MUN Glider Deployment: Unit 049, Newfoundland Shelf, 2006-07-26https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_049_newfoundland_shelf_2006.html2024-03-28T15:31:58Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (11 more variables)
MUN Glider Deployment: Unit 334, Placentia Bay, 2022-09-13https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_334_placentia_bay_2022.html2024-03-28T15:31:52Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14,663 mission kms, 620 deployment days and 25,108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = Point
VARIABLES:
mission_file
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
water_u (mean eastward water velocity in segment, m s-1)
water_v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (16 more variables)
MUN Glider Deployment: Unit 473, Labrador Shelf, 2014-07-05https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_473_labrador_shelf_2014.html2024-03-28T15:32:04Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (9 more variables)
MUN Glider Deployment: Unit 334, Gulf of St. Lawrence, 2021-09-06https://www.smartatlantic.ca/erddap/tabledap/mun_glider_unit_334_gulf_of_st_lawrence_2021.html2024-03-28T15:31:59Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (9 more variables)
MUN Glider Deployment: Pearldiver, Gulf of St. Lawrence, 2019-08-08https://www.smartatlantic.ca/erddap/tabledap/mun_glider_pearldiver_north_gulf_of_st_lawrence_2019.html2024-03-28T15:31:55Z
Memorial University has over the past 15 years been involved in various ocean glider activities with deployments focused primarily on the Newfoundland Shelf and the Labrador Sea. For example, there are four deployments with glider data in the Labrador Sea. Partnerships with Fisheries and Oceans Canada and Ocean Gliders Canada have also resulted in deployments of Memorial's gliders in the Pacific. The data contain 14'663 mission kms, 620 deployment days and 25'108 individual glider profiles.
L1 NETCDF files for every deployment archived on the Memorial University's Glider Data server are made available publicly for scientific research. Deployments vary in duration and region. All files were processed with the SOCIB glider toolbox (Troupin et al., 2015), modified by Nicolai von Oppeln-Bronikowski, 2019 for MUN glider deployments.
cdm_data_type = TrajectoryProfile
VARIABLES:
trajectory (Trajectory Name)
time2 (glider merged time, (MATLAB Serial Date) days since 0000-01-01 00:00:00)
time (glider merged epoch time, seconds since 1970-01-01T00:00:00Z)
time_ctd (science time, seconds since 1970-01-01T00:00:00Z)
latitude (degrees_north)
longitude (degrees_east)
wpt_lat (waypoint latitude, degree_north)
wpt_lon (waypoint longitude, degree_east)
distance_over_ground (cummulative distance over ground since deployment start, km)
pitch (glider pitch angle, degree)
roll (glider roll angle, degree)
heading (glider heading angle, degree)
u (mean eastward water velocity in segment, m s-1)
v (mean northward water velocity in segment, m s-1)
profile_index (number of profiles)
profile_direction (-down/+up direction of profiles)
depth (glider depth, m)
... (9 more variables)
Halifax Ocean Terminals: Fairviewhttps://www.smartatlantic.ca/erddap/tabledap/SMA_halifax_fairview.html2024-03-29T12:46:48Z
Deployed in November 2015, the Meteorological Station is located at the Fairview Cove Container Terminal on Bedford Basin. The station consists of an RM Young Model 85004 anemometer, mounted on a 20m tripod atop the Ceres Administration Building on the terminal. Data from the station is available in near-real time and is utilized by mariners in this region in support of safer and more efficient marine operations.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
wind_spd_avg (m s-1)
wind_dir_avg (Wind From Direction, degree)
wind_spd_max (m s-1)
air_temp_avg (degree_C)
air_dewpoint_avg (degree_C)
air_humidity_avg (1)
air_pressure_avg (Air Pressure, mbar)
Halifax Ocean Terminals: Pier 9Chttps://www.smartatlantic.ca/erddap/tabledap/SMA_halifax_pier9c.html2024-03-29T12:46:49Z
Deployed in November 2014, the Meteorological Station is located at Pier 9C of the Halifax Ocean Terminals. The station consists of an RM Young Model 85004 anemometer, mounted on a three-meter boom arm approximately 10 meters above ground level, affixed to a light standard at the end of the pier. Data from the station is available in near-real time and is utilized by mariners in this region in support of safer and more efficient marine operations.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
wind_spd_avg (m s-1)
wind_dir_avg (Wind From Direction, degree)
wind_spd_max (m s-1)
air_temp_avg (degree_C)
air_dewpoint_avg (degree_C)
air_humidity_avg (1)
air_pressure_avg (Air Pressure, mbar)
tide_ht_avg (Sea Surface Height, m)
Holyrood Wharf Weather Stationhttps://www.smartatlantic.ca/erddap/tabledap/SMA_holyrood_wharf.html2024-03-29T12:46:57Z
Deployed in April 2014, the weather station is located in the South Arm of Holyrood Bay, at the Marine Institute's Holyrood Marine Base in Conception Bay. The station consists of a AIRMAR WX200 WeatherStation and a Belfort 6500 Visibility Sensor.The WX200 WeatherStation sensors measure apparent wind speed and direction, barometric pressure, air temperature, relative humidity, and dew point. Wind chill values are provided from calculations using temperature and wind speed. The Belfort 6500 Visibility Sensor monitors visibility conditions over a range of 6 meters to 80 kilometers. Data from the station is available in near-real time and is utilized by mariners in this region in support of safer and more efficient marine operations.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
vis_avg (Horizontal Visibility, nmi)
Manolis Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_manolis_buoy.html2024-03-29T14:02:15Z
A 3 metre diameter meteorological/oceanographic buoy built by AXYS Environmental Technologies of Sidney, British Columbia.The buoy is capable of measuring a variety of atmospheric and surface conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current speed and direction (0.5 m. depth), wave height, direction and period as well as wave spectral information. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
surface_temp_avg (degree_C)
wave_ht_max (m)
wave_ht_sig (m)
wave_period_max (Sea Surface Wave Maximum Period, s)
wave_dir_avg (Sea Surface Wave To Direction, degree)
wave_spread_avg (degree)
curr_dir_avg (degree)
curr_spd_avg (mm s-1)
Channel-Port Aux Basques Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_port_aux_basques.html2024-03-29T12:47:01Z
A 3 metre diameter meteorological/oceanographic buoy built by AXYS Environmental Technologies of Sidney, British Columbia. The buoy is located at the approaches to Port Aux Basques Harbour in about 50 m. water depth. The buoy's purpose is to monitor and transmit in near real time meteorological and oceanographic data in support of operational efficiency, safety and situational awareness for marine transportation. The buoy also provides a continuous data feed in support of the Science and R&D community.The buoy is capable of measuring a variety of atmospheric and surface conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current speed and direction (0.5 m. depth), wave height, direction and period as well as wave spectral information. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
wind_spd2_avg (Wind Spd Avg 2, m s-1)
wind_spd2_max (Wind Spd Max 2, m s-1)
wind_dir2_avg (Wind From Direction 2, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
surface_temp_avg (degree_C)
wave_ht_max (m)
... (6 more variables)
Mouth of Placentia Bay Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_MouthofPlacentiaBayBuoy.html2024-03-29T12:46:58Z
A 3 m. diameter meteorological / oceanographic buoy built by AXYS Environmental Technologies of Sidney, British Columbia. The buoy is positioned at the mouth of Placentia Bay in water depth of about 230 m.The buoy is capable of measuring a variety of atmospheric and surface conditions: wind speed and direction, air temperature, humidity, dew point, barometric pressure, sea surface temperature, current speed, current direction, wave height, wave direction and wave period. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
wind_spd2_avg (m s-1)
wind_spd2_max (m s-1)
wind_dir2_avg (Wind From Direction, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
surface_temp_avg (degree_C)
wave_ht_max (m)
surface_salinity_avg (Sea Water Salinity, 1e-3)
surface_cond_avg (S m-1)
wave_ht_sig (m)
... (5 more variables)
Pilot Boarding Station / Red Island Shoal Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_red_island_shoal.html2024-03-29T12:47:02Z
A 3 m. diameter meteorological / oceanographic buoy built by AXYS Environmental Technologies of Sidney, British Columbia. The buoy is located at the Pilot Boarding Station for Placentia Bay in about 153 m. water depth. This buoy's purpose is to monitor surface conditions at the Pilot Boarding Station in support of safer and more efficient pilot and tanker operations.The buoy is capable of measuring a variety of atmospheric and surface conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current speed and direction (0.5 m. depth), wave height, direction and period as well as wave spectral information. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.Data from the buoy is available in near-real time and is utilized by SmartBay partner AMEC Earth and Environmental to generate custom weather and sea-state forecasts for Placentia Bay as well as the site-specific forecasts for this location in support of safer and more efficient pilot and tanker operations.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
wind_spd2_avg (Wind Spd Avg 2, m s-1)
wind_spd2_max (Wind Spd Max 2, m s-1)
wind_dir2_avg (Wind From Direction 2, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
... (8 more variables)
Holyrood Buoy 2https://www.smartatlantic.ca/erddap/tabledap/SMA_Holyrood_Buoy2.html2024-03-29T12:46:55Z
A modified 1.7 m. meteorological/oceanographic buoy supplied by Axys Technologies of Sidney, British Columbia is located of the mouth of Holyrood Bay in approximately 50 metres of water. The buoy provides near-real time data in support of vessel operations in this area.The buoy is capable of measuring a variety of atmospheric and water column conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current profile, wave height, direction and period as well as wave spectral information.This buoy is part of SmartBay Holyrood, a technology development, testing, validation and demonstration facility to support applied research and commercialization of new technologies and solutions in the marine and related sectors. This includes testing and validation of a wide range of novel ocean sensors and subsea equipment. The Holyrood buoy will provide a controlled environment for sensor calibration, as well as mission planning, practice and risk assessment for complicated subsea procedures prior to field execution.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
surface_temp_avg (degree_C)
wave_ht_max (m)
wave_ht_sig (m)
... (43 more variables)
Fortune Bay Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_Fortune_Bay_Buoy.html2024-03-29T14:16:34Z
A 3 metre diameter meteorological/oceanographic buoy built by AXYS Environmental Technologies of Sidney, British Columbia. The buoy is located in just North West of Garnish, Fortune Bay, NL in approximately 210 m water depth. The buoy's purpose is to monitor and transmit in near real time meteorological and oceanographic data in support of operational efficiency, safety and situational awareness for marine transportation. The buoy also provides a continuous data feed in support of the Science and R&D community. The buoy is capable of measuring a variety of atmospheric and surface conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current speed and direction (0.5 m. depth), wave height, direction and period as well as wave spectral information. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
surface_temp_avg (degree_C)
wave_ht_max (m)
wave_ht_sig (m)
wave_period_max (Sea Surface Wave Maximum Period, s)
... (42 more variables)
Halifax (Herring Cove) Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_halifax.html2024-03-29T12:46:46Z
A 3 metre diameter meteorological / oceanographic buoy built by AXYS Environmental Technologies of Sidney, British Columbia. The buoy is located in Herring Cove at the approaches to Halifax Harbour in about 35 m. water depth. The buoy's purpose is to monitor and transmit in near real time meteorological and oceanographic data in support of operational efficiency, safety and situational awareness for marine transportation. The buoy also provides a continuous data feed in support of the Science and R&D community.
The buoy is capable of measuring a variety of atmospheric and surface conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current speed and direction (0.5 m. depth), wave height, direction and period as well as wave spectral information. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.
Approximate Position
Latitude: 44° 33.52' N
Longitude: 063° 32.72' W
Approximate Water Depth
35m (115 ft)
Data Start Date
June 21, 2017
Sensor Height Relative to Sea Surface
Anemometer: 4.2m
Air Temp. / Humidity: 3.5m
Barometer: 0m
Sea Surf. Temp. / Current Profiler: -0.5m
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
... (55 more variables)
St. John's Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_st_johns.html2024-03-29T12:47:07Z
A 3 metre diameter meteorological/oceanographic buoy built by AXYS Environmental Technologies of Sidney, British Columbia. The buoy is located in St. John's Bay just north of Cape Spear at the approaches to St. John's Harbour in about 160 m. water depth. The buoy's purpose is to monitor and transmit in near real time meteorological and oceanographic data in support of operational efficiency, safety and situational awareness for marine transportation. The buoy also provides a continuous data feed in support of the Science and R&D community.The buoy is capable of measuring a variety of atmospheric and surface conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current speed and direction (0.5 m. depth), wave height, direction and period as well as wave spectral information. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (Wind Speed Average, m s-1)
wind_spd_max (Wind Speed Max, m s-1)
wind_dir_avg (Wind From Direction, degree)
wind_spd2_avg (Wind Speed Average 2, m s-1)
wind_spd2_max (Wind Speed Max 2, m s-1)
wind_dir2_avg (Wind From Direction 2, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
surface_temp_avg (degree_C)
... (45 more variables)
Saint John Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_saint_john.html2024-03-29T12:47:03Z
A 3 metre diameter meteorological / oceanographic buoy built by AXYS Environmental Technologies of Sidney, British Columbia. The buoy is located in the Bay of Fundy at the approaches to Saint John, NB Harbour in about 18 m. water depth. The buoy's purpose is to monitor and transmit in near real time meteorological and oceanographic data in support of operational efficiency, safety and situational awareness for marine transportation. The buoy also provides a continuous data feed in support of the Science and R&D community.The buoy is capable of measuring a variety of atmospheric and surface conditions including: wind speed and direction, air temperature, barometric pressure, water temperature, current speed and direction (0.5 m. depth), wave height, direction and period as well as wave spectral information. The buoy is also equipped with an Aids to Navigation Automatic Information System (AtoN AIS) allowing direct transmittal of the buoy data to a ship's bridge.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
surface_temp_avg (degree_C)
wave_ht_max (m)
wave_ht_sig (m)
wave_dir_avg (Sea Surface Wave To Direction, degree)
wave_spread_avg (degree)
wave_period_max (Sea Surface Wave Maximum Period, s)
curr_spd_avg (mm s-1)
... (39 more variables)
Bonavista Bay Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_bonavista.html2024-03-28T17:16:08Z
A 1.7 m. meteorological / oceanographic buoy supplied by Axys Technologies of Sidney, British Columbia is located of the Cape of Bonavista, in approximately 75 metres of water. The buoy provides near-real time data in support of vessel operations in this area.
The buoy is capable of measuring a variety of atmospheric and water column conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current profile, wave height, direction and period as well as wave spectral information.
Approximate Position
Latitude: 48° 41' 48.50" N
Longitude: 53° 43' 06.00" W
Approximate Water Depth
60m (197 feet)
Data Start Date
June 21, 2017
Sensor Height Relative to Sea Surface
Anemometer: 4.2m
Air Temp. / Humidity: 3.5m
Barometer: 0.5m
Sea Surface Temp.: -0.5m
Acoustic Doppler Current Profiler (ADCP):
-2.0m to -42.0m at 2.0m spacing
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
... (55 more variables)
Bay of Islands Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_bay_of_islands.html2024-03-28T17:16:07Z
A 1.7 m. meteorological/oceanographic buoy supplied by Axys Technologies of Sidney, British Columbia is located at the approach to Humber Arm, approximately 1.7 nm northwest of Woods Island, in approximately 68 metres of water. The buoy provides near-real time data in support of vessel operations in this area.The buoy is capable of measuring a variety of atmospheric and water column conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current profile, wave height, direction and period as well as wave spectral information. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
surface_temp_avg (degree_C)
wave_ht_max (m)
wave_ht_sig (m)
wave_period_max (Sea Surface Wave Maximum Period, s)
wave_dir_avg (Sea Surface Wave From Direction, degree)
wave_spread_avg (degree)
curr_spd_avg (mm s-1)
... (39 more variables)
Head of Placentia Bay Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_head_of_placentia_bay-come_by_chance_point.html2024-03-28T17:47:00Z
A 3 m. diameter meteorological / oceanographic buoy built by AXYS Environmental Technologies of Sidney, British Columbia is positioned at the head of Placentia Bay in water depth of about 35m. The buoy provides near-real time data in support of vessel operations in this high traffic area.The buoy is capable of measuring a variety of atmospheric and surface conditions: wind speed and direction, air temperature, humidity, dew point, barometric pressure, sea surface temperature, current speed, current direction, wave height, wave direction and wave period. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.* Note: This site was originally located at Latitude 47° 47.4' N, Longitude 54° 02.9' W. It was re-located to 47° 45.5' N, Longitude 54° 04.5' W, with an upgraded buoy platform on October 11, 2013
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
surface_temp_avg (degree_C)
wave_ht_max (m)
wave_ht_sig (m)
wave_period_max (Sea Surface Wave Maximum Period, s)
wave_dir_avg (Sea Surface Wave From Direction, degree)
... (41 more variables)
Bay of Exploits Buoyhttps://www.smartatlantic.ca/erddap/tabledap/SMA_bay_of_exploits.html2024-03-28T17:16:06Z
A 1.7 m. meteorological / oceanographic buoy supplied by Axys Technologies of Sidney, British Columbia is located at the approach to Lewisporte in approximately 86 metres of water. The buoy provides near-real time data in support of vessel operations in this area. The buoy is capable of measuring a variety of atmospheric and water column conditions including: wind speed and direction, air temperature, humidity, dew point, barometric pressure, water temperature, current profile, wave height, direction and period as well as wave spectral information. The buoy is also equipped with an Aids to Navigation Information System (ATONiS) allowing direct transmittal of the buoy data to a ship's bridge.
cdm_data_type = TimeSeries
VARIABLES:
station_name
time (Timestamp, seconds since 1970-01-01T00:00:00Z)
longitude (degrees_east)
latitude (degrees_north)
precise_lon (Precise Longitude, degrees_east)
precise_lat (Precise Latitude, degrees_north)
wind_spd_avg (m s-1)
wind_spd_max (m s-1)
wind_dir_avg (Wind From Direction, degree)
air_temp_avg (degree_C)
air_pressure_avg (Air Pressure, mbar)
air_humidity_avg (1)
air_dewpoint_avg (degree_C)
surface_temp_avg (degree_C)
wave_ht_max (m)
wave_ht_sig (m)
wave_period_max (Sea Surface Wave Maximum Period, s)
wave_dir_avg (Sea Surface Wave From Direction, degree)
wave_spread_avg (degree)
curr_spd_avg (mm s-1)
... (39 more variables)