ru30-20191015T1824-profile-sci-delayed
eng
UTF8
dataset
service
TBD
MARACOOS
401-789-6224
55 Village Square
South Kingstown
RI
028979
USA
devops@rpsgroup.com
pointOfContact
2024-03-28
ISO 19115-2 Geographic Information - Metadata Part 2 Extensions for Imagery and Gridded Data
ISO 19115-2:2009(E)
4
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row
vertical
temporal
ru30-20191015T1824 Delayed Science Profile
2020-04-07
creation
2020-04-07
issued
erddap.maracoos.org
ru30-20191015T1824-profile-sci-delayed
John Kerfoot
Rutgers University
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Grace Saba, Liza Wright-Fairbanks, Travis Miles, Dave Aragon, Nicole Waite, Chip Haldeman, John Kerfoot, Laura Nazzaro
contributor
This project integrated a deep rated version of the Ion Sensitive Field Effect Transistor (ISFET)-based pH sensor, the Deep ISFET pH, into a Slocum Webb G2 glider. The pH sensor unit is complemented with existing glider sensors including a CTD, a WETLabs FLBBCD ECO puck configured for simultaneous chlorophyll fluorescence and optical backscatter measurements, and an Aanderaa Optode for measuring dissolved oxygen. This approximately 15 to 30 day deployment near Sandy Hook, NJ, and is running a cross-shelf transect to the shelf break north of Hudson Canyon to sample in Atlantic sea scallop habitat. Then the glider will turn and fly back to shore in a west-southwest direction to cover more sea scallop and Atlantic surfclam habitat with possible recovery targeted for Barneget, NJ. However, if pH data are still stable after 15 days (no increased time lag response due to biofouling), the glider will turn southeast and head back to the shelf break then fly back inshore toward Atlantic City. This deployment also supports the realtime data delivery of autonomous underwater gliders in the coastal ocean to better resolve and understand essential ocean features and processes that contribute to hurricane intensification or weakening prior to making landfall. This is a partnership between NOAA Ocean and Atmospheric Research (OAR) through the Atlantic Oceanographic and Meteorological Laboratory (AOML) and Integrated Ocean Observing System (IOOS) regional associations such as MARACOOS, SECOORA, CariCOOS and institutions including the University of Puerto Rico, University of the Virgin Islands, Skidaway Institute of Oceanography, University of Delaware, and Rutgers University. The goal of the project is to provide realtime data for ocean model validation and assimilation throughout hurricane season. This project is supported by the Disaster Recovery Act. The glider was deployed out of Tuckerton, NJ and will transect E to an offshore waypoint north of Carteret Canyon, then transect SSW to Wilmington Canyon, then NW back to Tuckerton, NJ as the battery pack allows. This delayed-mode dataset contains CTD, chlorphyll a, CDOM, optical backscatter and oxygen measurements.
John Kerfoot
Rutgers University
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
pointOfContact
cdom
conductivity
crs
density
platform
pressure
ru30
ru30-20191015T1824
salinity
temperature
trajectory
u
v
theme
OTIC-pH,Sustained Underwater Glider Observations for Improving Atlantic Tropical Cyclone Intensity Forecast
project
time
latitude
longitude
depth
mole_concentration_of_dissolved_molecular_oxygen_in_sea_water
mass_concentration_of_chlorophyll_a_in_seawater
sea_water_electrical_conductivity
time
sea_water_density
time
time
sea_water_potential_temperature
sea_water_pressure
latitude
longitude
time
sea_water_practical_salinity
time
time
sea_water_pressure
speed_of_sound_in_sea_water
sea_water_temperature
eastward_sea_water_velocity
northward_sea_water_velocity
sea_floor_depth_below_sea_surface
theme
CF Standard Name Table v27
This data may be redistributed and used without restriction. Data provided as is with no expressed or implied assurance of quality assurance or quality control
OTIC-pH,Sustained Underwater Glider Observations for Improving Atlantic Tropical Cyclone Intensity Forecast
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project
Unidata Common Data Model
Profile
largerWorkCitation
project
eng
geoscientificInformation
1
-73.85679
-71.813515
39.36295
40.381657
seconds
2019-10-15T18:26:39Z
2019-11-06T17:22:39Z
-188.9775
0.3671587
ru30-20191015T1824 Delayed Science Profile
2020-04-07
creation
2020-04-07
issued
John Kerfoot
Rutgers University
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Grace Saba, Liza Wright-Fairbanks, Travis Miles, Dave Aragon, Nicole Waite, Chip Haldeman, John Kerfoot, Laura Nazzaro
contributor
This project integrated a deep rated version of the Ion Sensitive Field Effect Transistor (ISFET)-based pH sensor, the Deep ISFET pH, into a Slocum Webb G2 glider. The pH sensor unit is complemented with existing glider sensors including a CTD, a WETLabs FLBBCD ECO puck configured for simultaneous chlorophyll fluorescence and optical backscatter measurements, and an Aanderaa Optode for measuring dissolved oxygen. This approximately 15 to 30 day deployment near Sandy Hook, NJ, and is running a cross-shelf transect to the shelf break north of Hudson Canyon to sample in Atlantic sea scallop habitat. Then the glider will turn and fly back to shore in a west-southwest direction to cover more sea scallop and Atlantic surfclam habitat with possible recovery targeted for Barneget, NJ. However, if pH data are still stable after 15 days (no increased time lag response due to biofouling), the glider will turn southeast and head back to the shelf break then fly back inshore toward Atlantic City. This deployment also supports the realtime data delivery of autonomous underwater gliders in the coastal ocean to better resolve and understand essential ocean features and processes that contribute to hurricane intensification or weakening prior to making landfall. This is a partnership between NOAA Ocean and Atmospheric Research (OAR) through the Atlantic Oceanographic and Meteorological Laboratory (AOML) and Integrated Ocean Observing System (IOOS) regional associations such as MARACOOS, SECOORA, CariCOOS and institutions including the University of Puerto Rico, University of the Virgin Islands, Skidaway Institute of Oceanography, University of Delaware, and Rutgers University. The goal of the project is to provide realtime data for ocean model validation and assimilation throughout hurricane season. This project is supported by the Disaster Recovery Act. The glider was deployed out of Tuckerton, NJ and will transect E to an offshore waypoint north of Carteret Canyon, then transect SSW to Wilmington Canyon, then NW back to Tuckerton, NJ as the battery pack allows. This delayed-mode dataset contains CTD, chlorphyll a, CDOM, optical backscatter and oxygen measurements.
ERDDAP tabledap
1
-73.85679
-71.813515
39.36295
40.381657
seconds
2019-10-15T18:26:39Z
2019-11-06T17:22:39Z
-188.9775
0.3671587
tight
ERDDAPtabledapDatasetQueryAndAccess
http://erddap.maracoos.org/erddap/tabledap/ru30-20191015T1824-profile-sci-delayed
ERDDAP:tabledap
ERDDAP-tabledap
ERDDAP's tabledap service (a flavor of OPeNDAP) for tabular (sequence) data. Add different extensions (e.g., .html, .graph, .das, .dds) to the base URL for different purposes.
download
ru30-20191015T1824 Delayed Science Profile
2020-04-07
creation
2020-04-07
issued
John Kerfoot
Rutgers University
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Grace Saba, Liza Wright-Fairbanks, Travis Miles, Dave Aragon, Nicole Waite, Chip Haldeman, John Kerfoot, Laura Nazzaro
contributor
This project integrated a deep rated version of the Ion Sensitive Field Effect Transistor (ISFET)-based pH sensor, the Deep ISFET pH, into a Slocum Webb G2 glider. The pH sensor unit is complemented with existing glider sensors including a CTD, a WETLabs FLBBCD ECO puck configured for simultaneous chlorophyll fluorescence and optical backscatter measurements, and an Aanderaa Optode for measuring dissolved oxygen. This approximately 15 to 30 day deployment near Sandy Hook, NJ, and is running a cross-shelf transect to the shelf break north of Hudson Canyon to sample in Atlantic sea scallop habitat. Then the glider will turn and fly back to shore in a west-southwest direction to cover more sea scallop and Atlantic surfclam habitat with possible recovery targeted for Barneget, NJ. However, if pH data are still stable after 15 days (no increased time lag response due to biofouling), the glider will turn southeast and head back to the shelf break then fly back inshore toward Atlantic City. This deployment also supports the realtime data delivery of autonomous underwater gliders in the coastal ocean to better resolve and understand essential ocean features and processes that contribute to hurricane intensification or weakening prior to making landfall. This is a partnership between NOAA Ocean and Atmospheric Research (OAR) through the Atlantic Oceanographic and Meteorological Laboratory (AOML) and Integrated Ocean Observing System (IOOS) regional associations such as MARACOOS, SECOORA, CariCOOS and institutions including the University of Puerto Rico, University of the Virgin Islands, Skidaway Institute of Oceanography, University of Delaware, and Rutgers University. The goal of the project is to provide realtime data for ocean model validation and assimilation throughout hurricane season. This project is supported by the Disaster Recovery Act. The glider was deployed out of Tuckerton, NJ and will transect E to an offshore waypoint north of Carteret Canyon, then transect SSW to Wilmington Canyon, then NW back to Tuckerton, NJ as the battery pack allows. This delayed-mode dataset contains CTD, chlorphyll a, CDOM, optical backscatter and oxygen measurements.
OPeNDAP
1
-73.85679
-71.813515
39.36295
40.381657
seconds
2019-10-15T18:26:39Z
2019-11-06T17:22:39Z
-188.9775
0.3671587
tight
OPeNDAPDatasetQueryAndAccess
http://erddap.maracoos.org/erddap/tabledap/ru30-20191015T1824-profile-sci-delayed
OPeNDAP:OPeNDAP
OPeNDAP
An OPeNDAP service for tabular (sequence) data. Add different extensions (e.g., .html, .das, .dds) to the base URL for different purposes.
download
ru30-20191015T1824 Delayed Science Profile
2020-04-07
creation
2020-04-07
issued
John Kerfoot
Rutgers University
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Grace Saba, Liza Wright-Fairbanks, Travis Miles, Dave Aragon, Nicole Waite, Chip Haldeman, John Kerfoot, Laura Nazzaro
contributor
This project integrated a deep rated version of the Ion Sensitive Field Effect Transistor (ISFET)-based pH sensor, the Deep ISFET pH, into a Slocum Webb G2 glider. The pH sensor unit is complemented with existing glider sensors including a CTD, a WETLabs FLBBCD ECO puck configured for simultaneous chlorophyll fluorescence and optical backscatter measurements, and an Aanderaa Optode for measuring dissolved oxygen. This approximately 15 to 30 day deployment near Sandy Hook, NJ, and is running a cross-shelf transect to the shelf break north of Hudson Canyon to sample in Atlantic sea scallop habitat. Then the glider will turn and fly back to shore in a west-southwest direction to cover more sea scallop and Atlantic surfclam habitat with possible recovery targeted for Barneget, NJ. However, if pH data are still stable after 15 days (no increased time lag response due to biofouling), the glider will turn southeast and head back to the shelf break then fly back inshore toward Atlantic City. This deployment also supports the realtime data delivery of autonomous underwater gliders in the coastal ocean to better resolve and understand essential ocean features and processes that contribute to hurricane intensification or weakening prior to making landfall. This is a partnership between NOAA Ocean and Atmospheric Research (OAR) through the Atlantic Oceanographic and Meteorological Laboratory (AOML) and Integrated Ocean Observing System (IOOS) regional associations such as MARACOOS, SECOORA, CariCOOS and institutions including the University of Puerto Rico, University of the Virgin Islands, Skidaway Institute of Oceanography, University of Delaware, and Rutgers University. The goal of the project is to provide realtime data for ocean model validation and assimilation throughout hurricane season. This project is supported by the Disaster Recovery Act. The glider was deployed out of Tuckerton, NJ and will transect E to an offshore waypoint north of Carteret Canyon, then transect SSW to Wilmington Canyon, then NW back to Tuckerton, NJ as the battery pack allows. This delayed-mode dataset contains CTD, chlorphyll a, CDOM, optical backscatter and oxygen measurements.
ERDDAP Subset
1
-73.85679
-71.813515
39.36295
40.381657
seconds
2019-10-15T18:26:39Z
2019-11-06T17:22:39Z
-188.9775
0.3671587
tight
ERDDAP_Subset
http://erddap.maracoos.org/erddap/tabledap/ru30-20191015T1824-profile-sci-delayed.subset
search
Subset
Web page to facilitate selecting subsets of the dataset
download
physicalMeasurement
time
double
Timestamp
trajectory
String
Trajectory/Deployment Name
source_file
String
Source data file
beta_700nm
float
Beta 700nm at 117 degrees
beta_700nm_reference
float
Beta 700nm Reference at 117 degrees
beta_700nm_signal
float
Beta 700nm Signal at 117 degrees
c_fin
float
C Fin
c_flbbcd_num_fields_to_send
float
c_flbbcd_num_fields_to_send
c_flbbcd_on
float
c_flbbcd_on
c_heading
float
C Heading
c_pitch
float
C Pitch
c_roll
float
c_roll
c_sbe41n_ph_num_fields_to_send
float
C Sbe41N Ph Num Fields To Send
c_sbe41n_ph_on
float
C Sbe41N Ph On
c_wpt_lat
double
C Wpt Lat
c_wpt_lon
double
C Wpt Lon
cdom
float
CDOM
cdom_reference
float
CDOM Reference
cdom_signal
float
CDOM Signal
chlorophyll_a
float
Chlorophyll a
conductivity
float
Raw Conductivity
crs
int
http://www.opengis.net/def/crs/EPSG/0/4326
ctd41cp_timestamp
double
CTD41cp Timestamp
density
float
Density
flbbcd_timestamp
double
FLBBCD Timestamp
glider_altitude
float
Glider Altitude Above the Seafloor
instrument_ctd
int
Conductivity, Temperature, Depth (CTD) Sensor
instrument_flbbcd
int
ECO Triplet Puck
instrument_optode
int
Oxygen Optode
instrument_ph
int
Deep ISFET Ocean pH Sensor
m_appear_to_be_at_surface
byte
m_appear_to_be_at_surface
m_coulomb_amphr
float
M Coulomb Amphr
m_depth
float
m_depth
m_fin
float
M Fin
m_gps_full_status
byte
m_gps_full_status
m_gps_lat
double
m_gps_lat
m_gps_lon
double
m_gps_lon
m_gps_status
byte
M Gps Status
m_heading
float
M Heading
m_iridium_call_num
float
m_iridium_call_num
m_iridium_redials
float
m_iridium_redials
m_iridium_signal_strength
float
m_iridium_signal_strength
m_lat
double
m_lat
m_lon
double
m_lon
m_pitch
float
M Pitch
m_present_time
double
M Present Time
m_pressure
float
m_pressure
m_roll
float
M Roll
m_science_clothesline_lag
float
m_science_clothesline_lag
m_vacuum
float
M Vacuum
m_water_vx
float
m_water_vx
m_water_vy
float
m_water_vy
platform
int
Slocum Glider ru30
potential_temperature
float
Potential Temperature
pressure
float
CTD Pressure
profile_id
int
Profile ID
profile_lat
double
Profile Center Latitude
profile_lon
double
Profile Center Longitude
profile_time
double
Profile Center Time
salinity
float
Practical Salinity
sbe41n_ph_electrode_current
float
sbe41n pH Electrode Current
sbe41n_ph_electrode_voltage
float
sbe41n pH Electrode Voltage
sbe41n_ph_is_installed
byte
sbe41n pH Is Installed
sbe41n_ph_ref_voltage
float
sbe41n pH Ref Voltage
sbe41n_ph_substrate_current
float
sbe41n pH Substrate Current
sbe41n_ph_timestamp
double
sbe41n pH Timestamp
sci_flbbcd_chlor_ref
float
sci_flbbcd_chlor_ref
sci_flbbcd_chlor_sig
float
sci_flbbcd_chlor_sig
sci_flbbcd_is_installed
byte
sci_flbbcd_is_installed
sci_flbbcd_therm
float
sci_flbbcd_therm
sci_m_present_time
double
Sci M Present Time
sci_software_ver
float
sci_software_ver
sci_water_pressure
float
CTD Pressure
sound_speed
float
Sound Velocity
temperature
float
Raw Temperature
u
float
Eastward Depth-Averaged Current
u_flbbcd_bb_cwo
float
u_flbbcd_bb_cwo
u_flbbcd_bb_sf
float
u_flbbcd_bb_sf
u_flbbcd_cdom_cwo
float
u_flbbcd_cdom_cwo
u_flbbcd_cdom_sf
float
u_flbbcd_cdom_sf
u_flbbcd_chlor_cwo
float
u_flbbcd_chlor_cwo
u_flbbcd_chlor_sf
float
u_flbbcd_chlor_sf
u_flbbcd_is_calibrated
byte
u_flbbcd_is_calibrated
u_sbe41n_ph_f0
float
U Sbe41N Ph F0
u_sbe41n_ph_f1
float
U Sbe41N Ph F1
u_sbe41n_ph_f2
float
U Sbe41N Ph F2
u_sbe41n_ph_f3
float
U Sbe41N Ph F3
u_sbe41n_ph_f4
float
U Sbe41N Ph F4
u_sbe41n_ph_is_calibrated
byte
U Sbe41N Ph Is Calibrated
u_sbe41n_ph_k0
float
U Sbe41N Ph K0
u_sbe41n_ph_k2
float
U Sbe41N Ph K2
v
float
Northward Depth-Averaged Current
water_depth
float
m_water_depth
x_software_ver
float
x_software_ver
TBD
MARACOOS
401-789-6224
55 Village Square
South Kingstown
RI
028979
USA
devops@rpsgroup.com
distributor
OPeNDAP
DAP/2.0
http://erddap.maracoos.org/erddap/tabledap/ru30-20191015T1824-profile-sci-delayed.html
order
Data Subset Form
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download
http://erddap.maracoos.org/erddap/tabledap/ru30-20191015T1824-profile-sci-delayed.graph
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dataset
2020-04-07T02:47:09Z: /tmp/tmp16afgbwa/ru30_20191106T172015Z_dbd5vzn_c40.nc created
2020-04-07T02:47:09Z: /home/kerfoot/code/glider-proc/scripts/proc_deployment_profiles_to_nc.py /home/coolgroup/slocum/deployments/2019/ru30-20191015T1824/data/in/ascii/dbd/ru30_2019_309_1_0_dbd.dat
This record was created from dataset metadata by ERDDAP Version 2.02