Map showing the location and wind roses for the main airports in Puerto Rico, U.S. Virgin Islands, Sint Maarten, and Saint Kitts. The San Juan WFO writes TAFs for these airports. The wind roses are shown in an image per month for each airport, covering the years 1983-2015. The airports in Puerto Rico are the San Juan - Luis Muñoz Marín International Airport (TJSJ), Aguadilla - Rafael Hernandez (a.k.a. "Borinquen") Airport (TJBQ), Ponce - Mercedita International Airport (TJPS), Mayagüez - Eugenio M. de Hostos Airport (TJMZ). The airports in the U.S. Virgin Islands are the international airports of Saint Thomas - Cyril E. King Airport (TIST) and Saint Croix - Henry E. Rohlsen (TISX). Also, the international airports of Sint Maarten - Princess Juliana (TNCM) and the Saint Kitts - Robert L. Bradshaw (TKPK).In addition to the wind roses, you can find the latest TAF and METAR for each airport via a web link.

No description is available. Visit https://dataone.org/datasets/%7B3B3FB610-433A-420F-A55C-CE3C7D4E8ACD%7D for complete metadata about this dataset.

NODC Accession 0127322 contains raw underway meteorological, navigational, physical and time series data logged by the Scientific Computer System (SCS) aboard the NOAA Ship Hi'ialakai in the North Pacific Ocean and South Pacific Ocean from 2015-01-22 to 2015-05-04. Office of Marine and Aviation Operations (OMAO) personnel aboard the ship submitted these data and associated metadata to NODC. In addition, NODC Accession 0127322 contains supplementary cruise-level metadata, which OMAO personnel logged in the Ship Daily Activity Log (SDAL). OMAO and NODC personnel developed the automated process to archive these data under the auspices of the NOAA Rolling Deck to Repository (NOAA R2R) program.

NCEI Accession 0164154 contains raw underway meteorological, navigational, optical, physical and time series data logged by the Scientific Computer System (SCS) aboard NOAA Ship Oscar Elton Sette in the South Pacific Ocean from 2016-04-14 to 2016-05-06. Office of Marine and Aviation Operations (OMAO) personnel aboard the ship submitted these data and associated metadata to NCEI. In addition, NCEI Accession 0164154 contains supplementary cruise-level metadata, which OMAO personnel logged in the Ship Daily Activity Log (SDAL). OMAO and NCEI personnel developed the automated process to archive these data under the auspices of the NOAA Rolling Deck to Repository (NOAA R2R) program.

This collection contains comprehensive datasets and reports collected in support of the Mamala Bay Study during 1993-1995. Physical, chemical, biological, and geological datasets and reports are included.

Reports included in this collection include the following:

MB-1 Mamala Bay Study Management Mamala Bay Study Commission: R. R. Colwell, G. T. Orlob, and J. R. Schubel, Commissioners MB-2 Mamala Bay Database: W. J. Kimmerer, Garcia and Associates (formerly with BioSystems, Inc.), Tiburon, CA MB-3 Pollutant Source Identification: M. Stevenson, and J. M. O'Connor, Kinnetic Laboratories, Inc., Lahaina, HI MB-4 Plume Modeling: P. J. W. Roberts, Georgia Institute of Technology, Atlanta, GA MB-5 Modeling Transport and Fate of Pathogenic Organisms in Mamala Bay: A. F. Blumberg and J. P. Connolly, HydroQual, Inc., Mahwah, NJ MB-6 Ocean Current Measurements: P. Hamilton, J. Singer and E. Waddell, Science Application International Corporation, Raleigh, NC MB-7 Characterization of the Microbiological Quality of Water in Mamala Bay: R. S. Fujioka, University of Hawaii, Honolulu, HI MB-7 Overall Impact of Sand Island Outfall on the Incidence of Pathogens in Mamala Bay: C. P. Gerba and I. L. Pepper, University of Arizona, Tucson, AZ MB-7 Risk of Swimming-Acquired Illnesses in Mamala Bay: C. P. Gerba, University of Arizona, Tucson, AZ; C. N. Haas, Drexel University, Philadelphia, PA; J. B. Rose, University of South Florida, St. Petersburg, FL MB-7 Molecular Investigation of the Effects of Pollution on Pathogenic and Indigenous Bacteria in Mamala Bay: R. T. Hill, University of Maryland, Baltimore, MD MB-7 Molecular Detection of Staphylococcus aureus in Waters of Mamala Bay, Hawaii: R. T. Hill, University of Maryland, Baltimore, MD MB-7 Microbiological Aspects of Point and Non-Point Source Pollution in Mamala Bay: M. R. Landry, University of Hawaii, Honolulu, Hawaii; F. C. Dobbs, Old Dominion University, Norfolk, VA MB-7 Coliphage and Indigenous Phage in Mamala Bay: J. H. Paul and J. B. Rose, University of South Florida, St. Petersburg, FL MB-7 Viability of cryptosporidium parvum in Marine Waters: J. B. Rose, University of South Florida, St. Petersburg, FL MB-9 Definition of Indicator Species for Pollution Monitoring in Mamala Bay, Oahu, Hawaii: J. H. Bailey-Brock, University of Hawaii, Honolulu, HI MB-9 Impact of Point and Non-Point Source Pollution on Coral Reef Ecosystems in Mamala Bay: R. W. Grigg, University of Hawaii, Honolulu, HI MB-9 Shallow Marine Community Response to Point and Non-Point Sources of Pollution in Mamala Bay, Oahu, Part A: Fish and Coral Communities: E. A. Kay, J. H. Bailey-Brock, R. E. Brock, University of Hawaii, Honolulu, HI MB-9 Shallow Marine Community Response to Point and Non-Point Sources of Pollution in Mamala Bay, Oahu, Part B: Micromolluscan Assemblages and Algal Biomass: E. A. Kay, J. H. Bailey-Brock, R. E. Brock, University of Hawaii, Honolulu, HI MB-9 Effects of Sewage Discharges and Stream Runoff on Phytoplankton Communities and Water Quality in Mamala Bay: E. A. Laws and D. Ziemann, University of Hawaii, Honolulu, HI MB-9 Temporal Variability in Macrobenthic Community Structure and the Effect of Freshwater Runoff: S. A. McCarthy, E. A. Kay and J. H. Bailey-Brock, University of Hawaii, Honolulu, HI MB-9 Recruitment Patterns of Marine Benthic Invertebrates in Mamala Bay: A Process-Oriented Measure of Ecosystem Response to Pollution: C. R. Smith and P. E. Parnell, University of Hawaii, Honolulu, HI MB-10 Part I: Management Alternatives and Management Measures for Waste Discharges to the Mamala Bay Ecosystem: K. Courtney, PRC Environmental Management, Inc., Honolulu, HI; J. M. O'Connor, Kinnetic Laboratories, Inc., Santa Cruz, CA MB-10 Part II: Identification of Stressors of Concern in the Mamala Bay Ecosystem: J. M. O'Connor, Kinnetic Laboratories, Inc., Santa Cruz, CA MB-10 Part III: Effects of Effluent from the Barbers Point and Sand Island Outfalls on the Mamala Bay Ecosystem: W. J. Kimmerer, Romberg Tiburon Center, Tiburon, CA; J. M. O'Connor, Kinnetic Laboratories, Inc., Santa Cruz, CA MB-10 Part IV: Proposed Monitoring Plan to Assess the Efficacy of Waste Treatment Alternatives Applied in the Mamala Bay Watershed: J. M. O'Connor, Kinnetic Laboratories, Inc., Santa Cruz, CA MB-10 Infectious Disease Public Health Risk Assessment: A. W. Oliveri and R. C. Cooper, Eisenberg, Oliveri, and Associates, Oakland, CA MB-11 Water Quality Management in Mamala Bay: Mamala Bay Study Commissioners and project PIs MB-11A Wastewater Management Strategies in an Integrated Coastal Management Plan for Mamala Bay: D. R. F. Harleman, Consulting Engineers, Cambridge, MA MB-SP2 Plume Dynamics and Dispersion in Mamala Bay, Hawaii: B. H. Jones and T. D. Dickey, University of Southern California, Los Angeles, CA

NODC Accession 0140191 contains raw underway meteorological, navigational, physical and time series data logged by the Scientific Computer System (SCS) aboard the NOAA Ship Ronald H. Brown in the Coastal Waters of SE Alaska, North Pacific Ocean and South Pacific Ocean from 2015-11-10 to 2015-12-08. Office of Marine and Aviation Operations (OMAO) personnel aboard the ship submitted these data and associated metadata to NODC. In addition, NODC Accession 0140191 contains supplementary cruise-level metadata, which OMAO personnel logged in the Ship Daily Activity Log (SDAL). OMAO and NODC personnel developed the automated process to archive these data under the auspices of the NOAA Rolling Deck to Repository (NOAA R2R) program.

No description is available. Visit https://dataone.org/datasets/%7B60D3E124-676E-4723-859F-109FB2FCED7C%7D for complete metadata about this dataset.

A dry cold front passed through eastern Montana on 31 October 1999 bringing in a strong northwest wind behind it. Warmer and drier than normal conditions existed in the region at this time, so with the addition of strong wind, the fire danger rose greatly. Sustained winds of 50+ knots and gusts to near 80 knots were reported in eastern Montana, driving fires near the towns of Outlook and Wolf Point. Over $12 million in damages are estimated statewide from the strong wind and fires.

For more information, see: http://data.eol.ucar.edu/codiac/projs?COMET_CASE_029

Physical, current, meteorological, and other data were collected from XBT casts, buoys, and other instruments from a World-Wide distribution. Data were collected from 21 September 2001 to 28 November 2001. Data were submitted by the Marine Environmental Data Service (MEDS) in support of the Array for Real-time Geostrophic Oceanography (Argo), the Gulf of Mexico NOAA/NMFS Ship of Opportunity (SOOP), the World Ocean Circulation Experiment (WOCE), and the Global Temperature-Salinity Pilot Project (GTSPP). Physical parameters include profiles of temperature and salinity. Current parameters include current direction and speed. Meteorological data include dry bulb temperature, wind speed, wind direction, relative humidity, and air pressure.

No description is available. Visit https://dataone.org/datasets/%7B2B84DAF5-FFB4-4DA0-B166-6C9C05A6E5CA%7D for complete metadata about this dataset.

Physical and meteorological data were collected from drifting buoys from a World-Wide distribution from 2 January 1985 to 31 December 1989. Data were processed by NODC to the NODC standard F156 Drifting Buoy Data format. Full format description is available from NODC at www.nodc.noaa.gov/General/NODC-Archive/f156.html.

The F156 format is used for time series data on ocean circulation determined by the tracking of drifting buoys, drogues, or other instrumented devices as they are carried with the flow. Movement is reported as point-to-point geographic locations determined by shore-based, surface ship, aircraft, or satellite observations. Data from both ocean currents and ice movement can be reported in this format over time periods ranging from minutes to months. Directions and speeds between individual observations may be computed from these data and presented in graphic or summary listing form to provide information on circulation patterns and mass transport in offshore and near- shore regions. Platform name (for platform acquiring data or deploying device), drogue characteristics, start and end positions and times, and observation frequency (if constant time interval) are reported for each series of observation. Other surface meteorological or oceanographic parameters (e.g., water temperature and salinity, air temperature and pressure, wind, waves) and subsurface data (depth, pressure, temperature) may also be reported. Text records may be used to report general comments or to describe individual drogue observations.

Physical, current, meteorological, and other data were collected from XBT casts, buoys, and other instruments from a World-Wide distribution. Data were collected from 16 July 1978 to 28 December 2001. Data were submitted by the Marine Environmental Data Service (MEDS) in support of the Gulf of Mexico NOAA/NMFS Ship of Opportunity (SOOP), the World Ocean Circulation Experiment (WOCE), and the Global Temperature-Salinity Pilot Project (GTSPP). Physical parameters include profiles of temperature and salinity. Current parameters include current direction and speed. Meteorological data include dry bulb temperature, wind speed, wind direction, relative humidity, and air pressure.

The Integrated Science Data Management (ISDM) office processes oceanographic profiles reported for the world oceans in near real-time from the Global Telecommunications System (GTS) for the Global Temperature and Salinity Profile Program (GTSPP). These data also support the activities of the Ship of Opportunity Programme Implementation Panel (SOOPIP) and the WOCE Upper Ocean Thermal Program WOCE UOT.

The Integrated Science Data Management (ISDM) office processes oceanographic profiles reported for the world oceans in near real-time from the Global Telecommunications System (GTS) for the Global Temperature and Salinity Profile Program (GTSPP). These data also support the activities of the Ship of Opportunity Programme Implementation Panel (SOOPIP)and the WOCE Upper Ocean Thermal Program (WOCE UOT).

Buoy data is available in real time to platform operators via telecommunications providers and distributed on the Global Telecommunications System (GTS) of the World Meteorological Organization in real-time.

As a Global Data Assembly Center for Drifting Buoy Data, DFO OSB MEDS (pka ISDM, OSD, OSB) decodes data transmitted on the GTS in buoy code form. This includes moored buoy data as well.

This is OSB MEDS's annual submission of such data to the U.S. NCEI. This dataset should not be considered as complete since several buoys failed to report BUOY (TAC FM-18) messages in 2015. Another dataset will be submitted when the BUFR data from 2015 is recovered, selected and formatted.

The Integrated Science Data Management (ISDM) office processes oceanographic profiles reported for the world oceans in near real-time from the Global Telecommunicatons System (GTS) for the Global Temperature and Salinity Profile Program (GTSPP). These data also support the activities of the Ship of Opportunity Programme Implementation Panel (SOOPIP) and the WOCE Upper Ocean Thermal Program (WOCE UOT).

The Integrated Science Data Management (ISDM) office processes oceanographic profiles reported for the world oceans in near real-time from the Global Telecommunicatons System (GTS) for the Global Temperature and Salinity Profile Program (GTSPP). These data also support the activities of the Ship of Opportunity Programme Implementation Panel (SOOPIP) and the WOCE Upper Ocean Thermal Program (WOCE UOT).

The Integrated Science Data Management (ISDM) office processes oceanographic profiles reported for the world oceans in near real-time from the Global Telecommunications System (GTS) for the Global Temperature and Salinity Profile Program (GTSPP). These data also support the activities of the Ship-of-Opportunity Programme Implementation Panel (SOOPIP) and the WOCE Upper Ocean Thermal Program (WOCE UOT).

The Integrated Science Data Management (ISDM) office processes oceanographic profiles reported for the world oceans in near real-time from the Global Telecommunications System (GTS) for the Global Temperature and Salinity Profile Program (GTSPP). These data also support the activities of the Ship-of-Opportunity Programme Implementation Panel (SOOPIP) and the WOCE Upper Ocean Thermal Program (WOCE UOT).

The Integrated Science Data Management (ISDM) office processes oceanographic profiles reported for the world oceans in near real-time from the Global Telecommunications System (GTS) for the Global Temperature and Salinity Profile Program (GTSPP). These data also support the activities of the Ship-of-Opportunity Programme Implementation Panel (SOOPIP) and the WOCE Upper Ocean Thermal Program (WOCE UOT).