The Palmer, Antarctica LTER builds on meteorological, ocean color and seabird observations since ... more The Palmer, Antarctica LTER builds on meteorological, ocean color and seabird observations since the late 1970s. It occupies annually in summer a regional-scale grid extending 700 km northward from Charcot Island to Anvers Island, and 200 km cross-shelf from the coast to the shelfbreak. In addition to routine CTD profiles and zooplankton tows throughout the grid, the observing system also
During the summer of 2001, the Rutgers University Longterm Ecosystem Observatory was the focus of... more During the summer of 2001, the Rutgers University Longterm Ecosystem Observatory was the focus of an intense satellite/ in situ ocean optics research program (HyCODE). Ocean color data from SeaWiFS, MODIS, Oceansat, Fy1-C and the PHILLS hyperspectral scanner were compared and contrasted to each other and in situ measurements from ships, moorings and AUVs. Early results will be presented here.
ABSTRACT Optical Phytoplankton Discriminator (OPD, a.k.a. BreveBuster) determines colored dissolv... more ABSTRACT Optical Phytoplankton Discriminator (OPD, a.k.a. BreveBuster) determines colored dissolved organic material (CDOM) absorption spectra and particulate light absorbance spectra. The CDOM absorption spectra and correlation coefficients (referred to as 'similarity indexes') between the particulate absorbance spectra and known phytoplankton classes are available in real-time. Post-deployment processing calculates the best fit of multiple absorbance spectra from known phytoplankton taxonomic classes. Through this process the OPD provides an estimate of the phytoplankton community chlorophyll distribution among the classes included in the fit process. The major components of the OPD include: a liquid-waveguide capillary cell (LWCC), a fiber-optic spectrometer, a tungsten-deuterium fiber-optic light and a 0.2 micrometer pore cross-flow filter. In-water operation of the OPD began in May 2003. Since that date 25 of these instruments have been deployed on a variety of autonomous underwater vehicles, buoys, piers, channel markers and boats and ships. It has been utilized in CDOM studies off the New Jersey coast, in HAB monitoring efforts in the Gulf of Mexico and the Great Lakes, and in phytoplankton community structure studies in the Galapagos Islands and the Mediterranean Sea. Most recently, it has been deployed to Veracruz, Mexico for HAB monitoring. Presently, several OPD's operating on Slocum gliders and coastal buoys make up a local HAB observatory south of Tampa Bay, Florida, partially supported by the NOAA/IOOS through GCOOS. This presentation will detail the OPD's capabilities and report results from several of the deployments listed above. The ongoing effort to effectively visualize 4-D phytoplankton community structure will be discussed.
The Palmer, Antarctica LTER builds on meteorological, ocean color and seabird observations since ... more The Palmer, Antarctica LTER builds on meteorological, ocean color and seabird observations since the late 1970s. It occupies annually in summer a regional-scale grid extending 700 km northward from Charcot Island to Anvers Island, and 200 km cross-shelf from the coast to the shelfbreak. In addition to routine CTD profiles and zooplankton tows throughout the grid, the observing system also
During the summer of 2001, the Rutgers University Longterm Ecosystem Observatory was the focus of... more During the summer of 2001, the Rutgers University Longterm Ecosystem Observatory was the focus of an intense satellite/ in situ ocean optics research program (HyCODE). Ocean color data from SeaWiFS, MODIS, Oceansat, Fy1-C and the PHILLS hyperspectral scanner were compared and contrasted to each other and in situ measurements from ships, moorings and AUVs. Early results will be presented here.
ABSTRACT Optical Phytoplankton Discriminator (OPD, a.k.a. BreveBuster) determines colored dissolv... more ABSTRACT Optical Phytoplankton Discriminator (OPD, a.k.a. BreveBuster) determines colored dissolved organic material (CDOM) absorption spectra and particulate light absorbance spectra. The CDOM absorption spectra and correlation coefficients (referred to as 'similarity indexes') between the particulate absorbance spectra and known phytoplankton classes are available in real-time. Post-deployment processing calculates the best fit of multiple absorbance spectra from known phytoplankton taxonomic classes. Through this process the OPD provides an estimate of the phytoplankton community chlorophyll distribution among the classes included in the fit process. The major components of the OPD include: a liquid-waveguide capillary cell (LWCC), a fiber-optic spectrometer, a tungsten-deuterium fiber-optic light and a 0.2 micrometer pore cross-flow filter. In-water operation of the OPD began in May 2003. Since that date 25 of these instruments have been deployed on a variety of autonomous underwater vehicles, buoys, piers, channel markers and boats and ships. It has been utilized in CDOM studies off the New Jersey coast, in HAB monitoring efforts in the Gulf of Mexico and the Great Lakes, and in phytoplankton community structure studies in the Galapagos Islands and the Mediterranean Sea. Most recently, it has been deployed to Veracruz, Mexico for HAB monitoring. Presently, several OPD's operating on Slocum gliders and coastal buoys make up a local HAB observatory south of Tampa Bay, Florida, partially supported by the NOAA/IOOS through GCOOS. This presentation will detail the OPD's capabilities and report results from several of the deployments listed above. The ongoing effort to effectively visualize 4-D phytoplankton community structure will be discussed.
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