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Electricity generation/consumption, renewable energy, smart grid, oil/gas, carbon emissions
4,433 datasets
168 coordinated sites near Deadhorse, Alaska form the only standardized network for observing decadal changes in seasonal thawing and freezing of high-latitude soils. The data, collected under the CALM network, represents active-layer thickness on a 1-hectare grid. It was last updated by SCIOPS via NASA EarthData on November 23, -2010.
The U7b dataset contains active-layer thickness measurements collected near Deadhorse, Alaska under the Circumpolar Active Layer Monitoring (CALM) network. The CALM network is described as the only coordinated and standardized program using standard protocols to observe decadal changes in seasonal thawing and freezing in high-latitude soils. The dataset was last updated by SCIOPS on 2010-11-23.
Active-layer thickness data collected near Deadhorse, Alaska as part of the Circumpolar Active Layer Monitoring (CALM) network. The dataset represents the only coordinated and standardized program of observations using standard measurement protocols designed to detect decadal changes in seasonal thawing and freezing in high-latitude soils. The data was provided by the organization SCIOPS and last updated on NASA EarthData in November 2010.
Northern Alaska active-layer thickness measurements collected under the Circumpolar Active Layer Monitoring (CALM) network. The data represent a coordinated and standardized program of observations designed to detect decadal changes in seasonal thawing and freezing dynamics in high-latitude soils. The dataset was last updated by organization SCIOPS on 2010-11-23.
Deadhorse, Alaska is the location for this dataset of active-layer thickness measurements collected under the Circumpolar Active Layer Monitoring (CALM) network. The data represents a coordinated, standardized program using consistent protocols to observe decadal changes in seasonal thawing and freezing dynamics in high-latitude soils. The dataset was last updated by organization SCIOPS on November 23, -2010.
U6 data represents active-layer thickness measurements collected near Deadhorse, Alaska as part of the CALM network. The CALM network is described as the only coordinated and standardized program using standard protocols to observe decadal changes in seasonal thawing and freezing in high-latitude soils. The dataset was last updated by organization SCIOPS on 2010-11-23.
Active-layer thickness data collected near Deadhorse, Alaska as part of the CALM network. The data represent a coordinated and standardized program of observations designed to detect decadal changes in seasonal thawing and freezing in high-latitude soils. The dataset was last updated on 2010-11-23.
Over 13 days in October 2010, the Subsurface Monitoring Unit collected chemical, physical, and sediment data aboard the GYRE vessel in the Gulf of Mexico. The dataset includes measurements of CDOM fluorescence, total organic carbon, metals, volatile organic compounds, conductivity, temperature, and sediment properties. Data were gathered in response to the Deepwater Horizon oil spill event.
NOAA NCEI Accession 0069356 contains chemical, physical, and sediment analysis data collected aboard the RYAN CHOUEST vessel in the Gulf of Mexico from October 7 to 17, 2010. The Subsurface Monitoring Unit gathered measurements including CDOM fluorescence, Total Organic Carbon, metals, volatile organic compounds, conductivity, salinity, and temperature. Data includes provisional laboratory analysis results and products created for real-time decision support.
168 active-layer thickness measurement sites near Atqasuk, Alaska, collected under the CALM network. The data represent a coordinated and standardized program using standard protocols designed to observe decadal changes in seasonal thawing and freezing in high-latitude soils. The dataset was last updated by SCIOPS on 2010-11-18.
Three days of oceanographic data were collected aboard the RV GYRE in October 2010 by a multi-agency Subsurface Monitoring Unit. The dataset contains provisional laboratory analysis results for water and sediment samples, including Total Organic Carbon, Volatile Organic Compounds, and Total Petroleum Hydrocarbons. This collection was a direct response to the Deepwater Horizon oil spill event that began on April 20, 2010.
Over 10 oceanographic parameters, including CDOM fluorescence, conductivity, dissolved oxygen, salinity, and temperature, were collected aboard NOAA Ship Gordon Gunter in the Gulf of Mexico and North Atlantic Ocean from September 16 to 29, 2010. The Subsurface Monitoring Unit gathered this data in response to the Deepwater Horizon oil spill event. Instruments included an ADCP, CTD, fluorometer, and oxygen meter.
Oceanographic data was collected aboard the RV GYRE in the Gulf of Mexico over four days in September 2010 in response to the Deepwater Horizon oil spill. The dataset includes measurements of total organic carbon, metals, volatile and semivolatile organic compounds, total petroleum hydrocarbons, and sediment properties from water and sediment samples. Data collection and provisional laboratory analysis were conducted by the multi-agency Subsurface Monitoring Unit (SMU) and archived by NOAA NCEI.
May to August 2010 data collection of near-realtime oceanographic profiles from gliders, captured in response to the Deepwater Horizon oil spill. The dataset includes temperature and salinity measurements transmitted via the Global Telecommunication System and processed by the Global Temperature and Salinity Profile Programme. It is managed and updated weekly by NOAA's National Oceanographic Data Center.
Conductivity, temperature, depth, dissolved oxygen, and fluorometry data were collected aboard the R/V F.G. Walton Smith during a 7-day cruise in the Gulf of Mexico from September 26 to October 2, 2010. This dataset, processed and quality-checked by NOAA NCEI, captures physical water column parameters associated with the Deepwater Horizon oil spill event.
Cruise data from the GYRE vessel captured chemical, physical, and sediment properties in the Gulf of Mexico for 10 days following the Deepwater Horizon oil spill. The Subsurface Monitoring Unit, a multi-agency group, collected provisional laboratory analysis results for organic carbon, metals, and petroleum hydrocarbons. This dataset represents a direct environmental response to the April 2010 disaster.
Conductivity, temperature, depth, dissolved oxygen, and fluorometry data were collected aboard NOAA Ship Pisces from September 25 to October 3, 2010. The data consists of processed and quality-checked CTD casts from a cruise associated with the Deepwater Horizon oil spill event. It was produced by NOAA NCEI.
Chemical and physical oceanographic data were collected aboard the R/V RYAN CHOUEST in the Gulf of Mexico over a 7-day period from September 9-15, 2010, specifically in response to the Deepwater Horizon oil spill. The Subsurface Monitoring Unit, a consortium of government and corporate agencies, gathered measurements including CDOM fluorescence, Total Petroleum Hydrocarbons, conductivity, dissolved oxygen, salinity, and temperature. Instruments used included CTD, fluorometer, gas chromatograph, and oxygen meter.
NOAA NCEI Accession 0074853 contains chemical, physical, and laboratory analysis data collected aboard the research vessel Brooks McCall. The dataset includes measurements of Semivolatile Organic Compounds, Total Petroleum Hydrocarbons, and Volatile Organic Compounds in response to the Deepwater Horizon oil spill. Data were collected by a multi-agency Subsurface Monitoring Unit from September 7 to 11, 2010, using CTD instruments, bottles, and other physical sampling devices.
Gulf of Mexico chemical and physical oceanographic profile data were collected from 19 CTD casts aboard the HOS Davis vessel between September 9 and 27, 2010. The dataset includes measurements of conductivity, temperature, depth, dissolved oxygen, fluorescence, salinity, sound velocity, and water density. Data were gathered by the multi-agency Subsurface Monitoring Unit in response to the Deepwater Horizon oil spill and underwent quality assurance by the National Coastal Data Development Center.