ru34-20200729T1430 Real-Time Raw Trajectory

This glider mission will serve as an integral component of Ørsted’s Ecosystem and Passive Acoustic Monitoring (ECO-PAM) project, which will help advance research for detection of North Atlantic right whale, to better understand their presence, distribution and seasonality and to contribute to characterization of their habitat in offshore wind lease areas. Additional benefits of the glider mission include collection of tagged fish data disseminated thru the Animal Telemetry Network as well as contribution of data gathered to the NOAA IOOS Glider DAC that will help improve accuracy of weather forecasting and predicting severe storms. The ECO-PAM project is in partnership with the University of Rhode Island, Woods Hole Oceanographic Institution and Rutgers, The State University of New Jersey. This real-time dataset contains temperature, salinity and oxygen concentration measurements. Acoustic monitoring data will be packaged separately and is not included in this dataset. The glider was deployed southeast of Atlantic City and will perform zig-zag transects south along the coast of New Jersey

Data e Risorse

Campo Valore
access_constraints []
bbox-east-long -74.01511
bbox-north-lat 39.50883
bbox-south-lat 38.840557
bbox-west-long -74.50069
contact-email kerfoot@marine.rutgers.edu
coupled-resource [{"href": ["#DataIdentification"], "uuid": [], "title": []}, {"href": ["#DataIdentification"], "uuid": [], "title": []}, {"href": ["#DataIdentification"], "uuid": [], "title": []}]
dataset-reference-date [{"type": "creation", "value": "2020-08-26"}, {"type": "issued", "value": "2020-08-26"}]
guid ru34-20200729T1430-trajectory-raw-rt
licence []
metadata-date 2021-06-16
metadata-language eng
metadata_type geospatial
old-spatial {"type": "Polygon", "coordinates": [[[-74.50069, 38.840557], [-74.01511, 38.840557], [-74.01511, 39.50883], [-74.50069, 39.50883], [-74.50069, 38.840557]]]}
resource-type dataset
responsible-party [{"name": "Rutgers University", "roles": ["pointOfContact"]}]
spatial {"type": "Polygon", "coordinates": [[[-74.50069, 38.840557], [-74.01511, 38.840557], [-74.01511, 39.50883], [-74.50069, 39.50883], [-74.50069, 38.840557]]]}
spatial-data-service-type ERDDAP tabledap
spatial_harvester true
temporal-extent-begin 2020-07-29T14:34:08Z
temporal-extent-end 2020-08-26T15:02:19Z
Gruppi
  • AmeriGEOSS
  • National Provider
  • North America
Tag
  • amerigeo
  • amerigeoss
  • ckan
  • crs
  • depth
  • eastwardseawatervelocity
  • eco-pam
  • geo
  • geoss
  • latitude
  • longitude
  • national
  • north-america
  • northwardseawatervelocity
  • platform
  • pressure
  • ru34
  • ru34-20200729t1430
  • seafloordepthbelowseasurface
  • seawaterelectricalconductivity
  • seawaterpressure
  • seawatertemperature
  • time
  • trajectory
  • united-states
isopen False
metadata_created 2025-11-22T17:39:15.149586
metadata_modified 2025-11-22T17:39:15.149590
notes This glider mission will serve as an integral component of Ørsted’s Ecosystem and Passive Acoustic Monitoring (ECO-PAM) project, which will help advance research for detection of North Atlantic right whale, to better understand their presence, distribution and seasonality and to contribute to characterization of their habitat in offshore wind lease areas. Additional benefits of the glider mission include collection of tagged fish data disseminated thru the Animal Telemetry Network as well as contribution of data gathered to the NOAA IOOS Glider DAC that will help improve accuracy of weather forecasting and predicting severe storms. The ECO-PAM project is in partnership with the University of Rhode Island, Woods Hole Oceanographic Institution and Rutgers, The State University of New Jersey. This real-time dataset contains temperature, salinity and oxygen concentration measurements. Acoustic monitoring data will be packaged separately and is not included in this dataset. The glider was deployed southeast of Atlantic City and will perform zig-zag transects south along the coast of New Jersey
num_resources 10
num_tags 25
title ru34-20200729T1430 Real-Time Raw Trajectory