ru32-20200111T1444-trajectory-raw-delayed
eng
UTF8
dataset
service
John Kerfoot
Rutgers University - DMCS
+1 848-932-3344
71 Dudley Road
New Brunswick
NJ
08901
USA
kerfoot@marine.rutgers.edu
pointOfContact
2024-03-27
ISO 19115-2 Geographic Information - Metadata Part 2 Extensions for Imagery and Gridded Data
ISO 19115-2:2009(E)
4
column
row
vertical
temporal
ru32-20200111T1444 Delayed Raw Trajectory
2021-02-23
creation
2021-02-23
issued
slocum-data.marine.rutgers.edu
ru32-20200111T1444-trajectory-raw-delayed
John Kerfoot
Rutgers University,University of Delaware,University of Alaska Fairbanks
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Oscar Schofield,Josh Kohut,Matt Oliver,Hank Statscewich,Katherine Hudson,Dave Aragon,Nicole Waite,Chip Haldeman,Laura Nazzaro,John Kerfoot
contributor
The short surface ocean residence times of 1-2 days over Palmer Deep is in conflict with the prevailing hypotheses that local growth support phytoplankton at the base of the food web in these biological hotspots. Instead, the implication is that horizontal dynamics are likely more important to maintaining these biological hotspots than local upwelling. However, coincident measures of phytoplankton, prey fields, and predator locations in their advective context have not been made to establish the ecological importance of horizontal flow. In this project, we will simultaneously sample across the entire food web from the phytoplankton and prey fields to the top predators to understand the ocean features that support life in these polar systems. For the first time in this region, we will integrate these glider deployed sensors with moored, remote sensed and small boat platforms to simultaneously map phytoplankton blooms, krill aggregations, and top predator foraging relative to dynamic ocean features. This real-time low-resolution dataset contains temperature, salinity, chlorophyll_a, CDOM, beta_700nm and oxygen profiles. Delayed mode dataset.
John Kerfoot
Rutgers University,University of Delaware,University of Alaska Fairbanks
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
pointOfContact
crs
platform
pressure
ru32
ru32-20200111T1444
trajectory
theme
SWARM
project
time
latitude
longitude
depth
depth
eastward_sea_water_velocity
northward_sea_water_velocity
latitude
longitude
time
sea_water_pressure
sea_floor_depth_below_sea_surface
eastward_sea_water_velocity
northward_sea_water_velocity
sea_water_pressure
time
time
sea_water_electrical_conductivity
sea_water_pressure
sea_water_temperature
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
SWARM
largerWorkCitation
project
Unidata Common Data Model
Trajectory
largerWorkCitation
project
eng
geoscientificInformation
1
-64.46035
-63.995857
-64.99308
-64.82074
seconds
2020-01-11T14:44:31Z
2020-03-11T14:06:29Z
-907.7445
0.4753011
ru32-20200111T1444 Delayed Raw Trajectory
2021-02-23
creation
2021-02-23
issued
John Kerfoot
Rutgers University,University of Delaware,University of Alaska Fairbanks
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Oscar Schofield,Josh Kohut,Matt Oliver,Hank Statscewich,Katherine Hudson,Dave Aragon,Nicole Waite,Chip Haldeman,Laura Nazzaro,John Kerfoot
contributor
The short surface ocean residence times of 1-2 days over Palmer Deep is in conflict with the prevailing hypotheses that local growth support phytoplankton at the base of the food web in these biological hotspots. Instead, the implication is that horizontal dynamics are likely more important to maintaining these biological hotspots than local upwelling. However, coincident measures of phytoplankton, prey fields, and predator locations in their advective context have not been made to establish the ecological importance of horizontal flow. In this project, we will simultaneously sample across the entire food web from the phytoplankton and prey fields to the top predators to understand the ocean features that support life in these polar systems. For the first time in this region, we will integrate these glider deployed sensors with moored, remote sensed and small boat platforms to simultaneously map phytoplankton blooms, krill aggregations, and top predator foraging relative to dynamic ocean features. This real-time low-resolution dataset contains temperature, salinity, chlorophyll_a, CDOM, beta_700nm and oxygen profiles. Delayed mode dataset.
ERDDAP tabledap
1
-64.46035
-63.995857
-64.99308
-64.82074
seconds
2020-01-11T14:44:31Z
2020-03-11T14:06:29Z
-907.7445
0.4753011
tight
ERDDAPtabledapDatasetQueryAndAccess
https://slocum-data.marine.rutgers.edu/erddap/tabledap/ru32-20200111T1444-trajectory-raw-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
ru32-20200111T1444 Delayed Raw Trajectory
2021-02-23
creation
2021-02-23
issued
John Kerfoot
Rutgers University,University of Delaware,University of Alaska Fairbanks
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Oscar Schofield,Josh Kohut,Matt Oliver,Hank Statscewich,Katherine Hudson,Dave Aragon,Nicole Waite,Chip Haldeman,Laura Nazzaro,John Kerfoot
contributor
The short surface ocean residence times of 1-2 days over Palmer Deep is in conflict with the prevailing hypotheses that local growth support phytoplankton at the base of the food web in these biological hotspots. Instead, the implication is that horizontal dynamics are likely more important to maintaining these biological hotspots than local upwelling. However, coincident measures of phytoplankton, prey fields, and predator locations in their advective context have not been made to establish the ecological importance of horizontal flow. In this project, we will simultaneously sample across the entire food web from the phytoplankton and prey fields to the top predators to understand the ocean features that support life in these polar systems. For the first time in this region, we will integrate these glider deployed sensors with moored, remote sensed and small boat platforms to simultaneously map phytoplankton blooms, krill aggregations, and top predator foraging relative to dynamic ocean features. This real-time low-resolution dataset contains temperature, salinity, chlorophyll_a, CDOM, beta_700nm and oxygen profiles. Delayed mode dataset.
OPeNDAP
1
-64.46035
-63.995857
-64.99308
-64.82074
seconds
2020-01-11T14:44:31Z
2020-03-11T14:06:29Z
-907.7445
0.4753011
tight
OPeNDAPDatasetQueryAndAccess
https://slocum-data.marine.rutgers.edu/erddap/tabledap/ru32-20200111T1444-trajectory-raw-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
ru32-20200111T1444 Delayed Raw Trajectory
2021-02-23
creation
2021-02-23
issued
John Kerfoot
Rutgers University,University of Delaware,University of Alaska Fairbanks
kerfoot@marine.rutgers.edu
https://rucool.marine.rutgers.edu
information
web browser
Background Information
Background information from the source
information
originator
Oscar Schofield,Josh Kohut,Matt Oliver,Hank Statscewich,Katherine Hudson,Dave Aragon,Nicole Waite,Chip Haldeman,Laura Nazzaro,John Kerfoot
contributor
The short surface ocean residence times of 1-2 days over Palmer Deep is in conflict with the prevailing hypotheses that local growth support phytoplankton at the base of the food web in these biological hotspots. Instead, the implication is that horizontal dynamics are likely more important to maintaining these biological hotspots than local upwelling. However, coincident measures of phytoplankton, prey fields, and predator locations in their advective context have not been made to establish the ecological importance of horizontal flow. In this project, we will simultaneously sample across the entire food web from the phytoplankton and prey fields to the top predators to understand the ocean features that support life in these polar systems. For the first time in this region, we will integrate these glider deployed sensors with moored, remote sensed and small boat platforms to simultaneously map phytoplankton blooms, krill aggregations, and top predator foraging relative to dynamic ocean features. This real-time low-resolution dataset contains temperature, salinity, chlorophyll_a, CDOM, beta_700nm and oxygen profiles. Delayed mode dataset.
ERDDAP Subset
1
-64.46035
-63.995857
-64.99308
-64.82074
seconds
2020-01-11T14:44:31Z
2020-03-11T14:06:29Z
-907.7445
0.4753011
tight
ERDDAP_Subset
https://slocum-data.marine.rutgers.edu/erddap/tabledap/ru32-20200111T1444-trajectory-raw-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
c_azfp_on
float
c_azfp_on
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_wpt_lat
double
C Wpt Lat
c_wpt_lon
double
C Wpt Lon
crs
int
http://www.opengis.net/def/crs/EPSG/0/4326
instrument_ctd
int
AZFP
instrument_flbbcdslc
int
ECO Triplet Puck
instrument_optode
int
Oxygen Optode
m_altitude
float
m_altitude
m_appear_to_be_at_surface
byte
m_appear_to_be_at_surface
m_coulomb_amphr
float
M Coulomb Amphr
m_depth
float
Depth
m_fin
float
M Fin
m_final_water_vx
float
M Final Water Vx
m_final_water_vy
float
M Final Water Vy
m_gps_full_status
byte
m_gps_full_status
m_gps_lat
double
GPS Measured Latitude
m_gps_lon
double
GPS Measured Longitude
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
Dead-Reckoned Latitude
m_lon
double
Dead-Reckoned Longitude
m_pitch
float
M Pitch
m_present_time
double
m_present_time
m_pressure
float
Flight Pressure
m_roll
float
M Roll
m_science_clothesline_lag
float
m_science_clothesline_lag
m_vacuum
float
M Vacuum
m_water_depth
float
M Water Depth
m_water_vx
float
Depth-averaged Eastward Sea Water Velocity
m_water_vy
float
Depth-averaged Northward Sea Water Velocity
platform
int
Slocum Glider ru32
pressure
float
CTD Pressure
sci_azfp_file_offset
float
sci_azfp_file_offset
sci_azfp_is_installed
byte
sci_azfp_is_installed
sci_azfp_pause_signal
byte
sci_azfp_pause_signal
sci_azfp_run_state
float
sci_azfp_run_state
sci_ctd41cp_timestamp
double
Sci Ctd41Cp Timestamp
sci_flbbcd_bb_ref
float
sci_flbbcd_bb_ref
sci_flbbcd_bb_sig
float
sci_flbbcd_bb_sig
sci_flbbcd_bb_units
float
Sci Flbbcd Bb Units
sci_flbbcd_cdom_ref
float
sci_flbbcd_cdom_ref
sci_flbbcd_cdom_sig
float
sci_flbbcd_cdom_sig
sci_flbbcd_cdom_units
float
Sci Flbbcd Cdom Units
sci_flbbcd_chlor_ref
float
sci_flbbcd_chlor_ref
sci_flbbcd_chlor_sig
float
sci_flbbcd_chlor_sig
sci_flbbcd_chlor_units
float
Sci Flbbcd Chlor Units
sci_flbbcd_is_installed
byte
sci_flbbcd_is_installed
sci_flbbcd_therm
float
sci_flbbcd_therm
sci_flbbcd_timestamp
double
sci_flbbcd_timestamp
sci_m_present_time
double
Sci M Present Time
sci_oxy4_c1amp
float
sci_oxy4_c1amp
sci_oxy4_c1rph
float
sci_oxy4_c1rph
sci_oxy4_c2amp
float
sci_oxy4_c2amp
sci_oxy4_c2rph
float
sci_oxy4_c2rph
sci_oxy4_calphase
float
sci_oxy4_calphase
sci_oxy4_is_installed
byte
sci_oxy4_is_installed
sci_oxy4_oxygen
float
sci_oxy4_oxygen
sci_oxy4_rawtemp
float
sci_oxy4_rawtemp
sci_oxy4_saturation
float
sci_oxy4_saturation
sci_oxy4_tcphase
float
sci_oxy4_tcphase
sci_oxy4_temp
float
sci_oxy4_temp
sci_oxy4_timestamp
double
sci_oxy4_timestamp
sci_software_ver
float
sci_software_ver
sci_water_cond
float
Sci Water Cond
sci_water_pressure
float
CTD Pressure
sci_water_temp
float
sci_water_temp
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
x_software_ver
float
x_software_ver
John Kerfoot
Rutgers University - DMCS
+1 848-932-3344
71 Dudley Road
New Brunswick
NJ
08901
USA
kerfoot@marine.rutgers.edu
distributor
OPeNDAP
DAP/2.0
https://slocum-data.marine.rutgers.edu/erddap/tabledap/ru32-20200111T1444-trajectory-raw-delayed.html
order
Data Subset Form
ERDDAP's version of the OPeNDAP .html web page for this dataset. Specify a subset of the dataset and download the data via OPeNDAP or in many different file types.
download
https://slocum-data.marine.rutgers.edu/erddap/tabledap/ru32-20200111T1444-trajectory-raw-delayed.graph
order
Make-A-Graph Form
ERDDAP's Make-A-Graph .html web page for this dataset. Create an image with a map or graph of a subset of the data.
mapDigital
dataset
2021-02-23T22:26:53Z: /tmp/tmpoop1hm_6/TrajectoryNetCDFWriter.py1dzkpxyq.nc created
2021-02-23T22:26:53Z: /home/kerfoot/code/glider-proc/scripts/proc_deployment_trajectories_to_nc.py /home/coolgroup/slocum/deployments/2020/ru32-20200111T1444/data/in/ascii/dbd/ru32_2020_065_0_9_dbd.dat
This record was created from dataset metadata by ERDDAP Version 2.22