Easier access to scientific data
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|
ERDDAP
Easier access to scientific data |
Brought to you by NOAA NMFS SWFSC ERD |
| Dataset Title: | Zooplankton collected with a 2-m, 700-um net towed from surface to 120 m, aboard Palmer Station Antarctica LTER annual cruises off the western antarctic peninsula, 2009, 2019. 
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| Institution: | National Science Foundation (Dataset ID: ZooplanktonDensityCurrent) |
| Range: | longitude = -78.2043 to -64.0356°E, latitude = -70.0846 to -63.9564°N, depth = 0.0 to 3837.0m, time = 2009-01-06T18:03:00Z to 2019-02-04T13:14:00Z |
| Information: | Summary
| License
| FGDC
| ISO 19115
| Metadata
| Background
| Subset
| Data Access Form
| Files
|
|
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Zoom: ![[The graph you specified. Please be patient.]](https://pallter-data.marine.rutgers.edu/erddap/tabledap/ZooplanktonDensityCurrent.png?longitude,latitude,time&.draw=markers&.marker=6%7C5&.color=0x000000&.colorBar=%7C%7C%7C%7C%7C&.bgColor=0xffccccff)
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Attributes {
s {
time {
String _CoordinateAxisType "Time";
Float64 actual_range 1.23126498e+9, 1.54928604e+9;
String axis "T";
String calendar "proleptic_gregorian";
Float64 column_id 3864;
String column_name "col_3864";
String comment "Date and time of the start of the net tow";
String ioos_category "Time";
String long_name "Start Time";
String lter_column_description "Greenwich Mean Time, a.k.a UTC";
String lter_column_name "TimeStart GMT";
String lter_mscale "dateTime";
String lter_num_type "f8";
String source_name "start_time";
String standard_name "time";
String time_origin "01-JAN-1970 00:00:00";
String units "seconds since 1970-01-01T00:00:00Z";
}
end_time {
Float64 actual_range 1.23126648e+9, 1.54928808e+9;
String calendar "proleptic_gregorian";
Float64 column_id 3868;
String column_name "col_3868";
String comment "Date and time of the end of the net tow";
String ioos_category "Time";
String long_name "End Time";
String lter_column_description "Greenwich Mean Time, a.k.a UTC";
String lter_column_name "TimeEnd GMT";
String lter_mscale "dateTime";
String lter_num_type "f8";
String standard_name "time";
String time_origin "01-JAN-1970 00:00:00";
String units "seconds since 1970-01-01T00:00:00Z";
}
depth {
String _CoordinateAxisType "Height";
String _CoordinateZisPositive "down";
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 3837.0;
String axis "Z";
Float64 colorBarMaximum 8000.0;
Float64 colorBarMinimum -8000.0;
String colorBarPalette "TopographyDepth";
Float64 column_id 3874;
String column_name "col_3874";
String ioos_category "Location";
String long_name "Depth";
String lter_column_description "measurement or sample collection distance from water column surface";
String lter_column_name "WaterDepth";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "m";
String lter_units_string "meter";
String positive "down";
String standard_name "depth";
String units "m";
String units_conventions "AND-LTER,BNZ-LTER,CDR-LTER,EML-2.0.1,EML-2.1.0,EML-LTER,LUQ-LTER,SGS-LTER";
}
latitude {
String _CoordinateAxisType "Lat";
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range -70.0846, -63.9564;
String axis "Y";
Float64 colorBarMaximum 90.0;
Float64 colorBarMinimum -90.0;
Float64 column_id 3866;
String column_name "col_3866";
String comment "Latitude at the end of the tow";
String ioos_category "Location";
String long_name "Latitude";
String lter_column_description "latitude measured from the equator in decimal degrees, South is negative";
String lter_column_name "LatitudeStart";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "º";
String lter_units_string "degree";
String source_name "lat_start";
String standard_name "latitude";
String units "degrees_north";
String units_conventions "EML-2.0.1,EML-2.1.0,EML-LTER";
}
longitude {
String _CoordinateAxisType "Lon";
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range -78.2043, -64.0356;
String axis "X";
Float64 colorBarMaximum 180.0;
Float64 colorBarMinimum -180.0;
Float64 column_id 3867;
String column_name "col_3867";
String comment "Longitude at the end of the tow";
String ioos_category "Location";
String long_name "Longitude";
String lter_column_description "longitude measured from the Prime Meridian in decimal degrees, West is negative";
String lter_column_name "LongitudeStart";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "º";
String lter_units_string "degree";
String source_name "lon_start";
String standard_name "longitude";
String units "degrees_east";
String units_conventions "EML-2.0.1,EML-2.1.0,EML-LTER";
}
lat_end {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range -70.0881, -63.9539;
Float64 colorBarMaximum 90.0;
Float64 colorBarMinimum -90.0;
Float64 column_id 3869;
String column_name "col_3869";
String comment "Latitude at the end of the tow";
String ioos_category "Location";
String long_name "Latitude";
String lter_column_description "latitude measured from the equator in decimal degrees, South is negative";
String lter_column_name "LatitudeEnd";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "º";
String lter_units_string "degree";
String standard_name "latitude";
String units "degrees_north";
String units_conventions "EML-2.0.1,EML-2.1.0,EML-LTER";
}
lon_end {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range -78.2151, -64.0717;
Float64 colorBarMaximum 180.0;
Float64 colorBarMinimum -180.0;
Float64 column_id 3870;
String column_name "col_3870";
String comment "Longitude at the end of the tow";
String ioos_category "Location";
String long_name "Longitude";
String lter_column_description "longitude measured from the Prime Meridian in decimal degrees, West is negative";
String lter_column_name "LongitudeEnd";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "º";
String lter_units_string "degree";
String standard_name "longitude";
String units "degrees_east";
String units_conventions "EML-2.0.1,EML-2.1.0,EML-LTER";
}
cruise_name {
String cf_role "trajectory_id";
Float64 column_id 3859;
String column_name "col_3859";
String ioos_category "Unknown";
String long_name "Cruise Name";
String lter_column_description "cruiseName";
String lter_column_name "CruiseName";
String lter_mscale "nominal";
}
event {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 9.0, 575.0;
Float64 column_id 3860;
String column_name "col_3860";
String ioos_category "Unknown";
String long_name "Event";
String lter_column_description "sequence of cruise happenings ordered by time";
String lter_column_name "Event";
String lter_mscale "interval";
String lter_num_type "real";
String lter_units_string "number";
String units_conventions "EML-2.0.1,EML-2.1.0,EML-LTER";
}
cruise_tow_number {
Int32 _FillValue 2147483647;
Int32 actual_range 170001, 270116;
Float64 colorBarMaximum 100.0;
Float64 colorBarMinimum 0.0;
Float64 column_id 3858;
String column_name "col_3858";
String ioos_category "Statistics";
String long_name "Cruise Tow Number";
String lter_column_description "index number";
String lter_column_name "CruiseTow";
String lter_mscale "interval";
String lter_num_type "integer";
String lter_units_string "number";
String units_conventions "EML-2.0.1,EML-2.1.0,EML-LTER";
}
grid_line {
Int16 _FillValue -32767;
Int16 actual_range -158, 616;
Float64 column_id 3861;
String column_name "col_3861";
String ioos_category "Unknown";
String long_name "Grid Line";
String lter_column_description "line on a pre-defined survey grid in the LTER Palmer study area";
String lter_column_name "GridLine";
String lter_mscale "nominal";
}
grid_station {
Int16 _FillValue -32767;
Int16 actual_range -80, 200;
Float64 column_id 3862;
String column_name "col_3862";
String ioos_category "Unknown";
String long_name "Grid Station";
String lter_column_description "Palmer LTER grid station";
String lter_column_name "GridStation";
String lter_mscale "nominal";
String lter_num_type "f8";
}
tow_duration {
Byte _FillValue 127;
String _Unsigned "false";
Byte actual_range 0, 53;
Float64 column_id 3871;
String column_name "col_3871";
String ioos_category "Unknown";
String long_name "Tow Duration";
String lter_column_description "measure of the passing of time";
String lter_column_name "TowDuration";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units_string "nominalDay";
String units_conventions "AND-LTER,EML-2.0.1,EML-2.1.0,EML-LTER,SGS-LTER";
}
heading {
Int16 _FillValue 32767;
Int16 actual_range 0, 360;
Float64 column_id 3872;
String column_name "col_3872";
String ioos_category "Unknown";
String long_name "Heading";
String lter_column_description "direction in degrees";
String lter_column_name "Heading";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "º";
String lter_units_string "degree";
String units "degrees";
String units_conventions "EML-2.0.1,EML-2.1.0,EML-LTER";
}
speed_over_ground {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 3.8;
Float64 column_id 3873;
String column_name "col_3873";
String ioos_category "Currents";
String long_name "Speed Over Ground";
String lter_column_description "distance travelled per unit of time";
String lter_column_name "SOG";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units_string "knot";
String units_conventions "EML-LTER";
}
wind_speed_start {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 39.0;
Float64 colorBarMaximum 15.0;
Float64 colorBarMinimum 0.0;
Float64 column_id 3875;
String column_name "col_3875";
String ioos_category "Wind";
String long_name "Wind Speed";
String lter_column_description "Wind speed";
String lter_column_name "WindSpeed";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units_string "knot";
String standard_name "wind_speed";
String units "m s-1";
String units_conventions "EML-LTER";
}
net_id {
Byte _FillValue 127;
String _Unsigned "false";
Byte actual_range 2, 2;
Float64 column_id 3876;
String column_name "col_3876";
String ioos_category "Identifier";
String long_name "Net Id";
String lter_column_description "trawl net size";
String lter_column_name "NetID";
String lter_mscale "nominal";
String lter_num_type "f8";
}
tow_type {
Float64 column_id 3877;
String column_name "col_3877";
String ioos_category "Unknown";
String long_name "Tow Type";
String lter_column_description "Description of a tow that may describe a single characteristic (ie oblique versus vertical tow) or a suite of characteristics represented by a code describing net tow type, depth, size, mesh, etc";
String lter_column_name "TowType";
String lter_mscale "nominal";
String lter_num_type "f8";
}
depth_range {
Float64 column_id 3878;
String column_name "col_3878";
String ioos_category "Location";
String long_name "Depth";
String lter_column_description "depth range of sample collection";
String lter_column_name "DepthTarget";
String lter_mscale "nominal";
String lter_num_type "f8";
String standard_name "depth";
}
depth_max {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 266.2;
Float64 colorBarMaximum 8000.0;
Float64 colorBarMinimum -8000.0;
String colorBarPalette "TopographyDepth";
Float64 column_id 3879;
String column_name "col_3879";
String ioos_category "Location";
String long_name "Depth";
String lter_column_description "measurement or sample collection distance from water column surface";
String lter_column_name "DepthMaximum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "m";
String lter_units_string "meter";
String standard_name "depth";
String units "meters";
String units_conventions "AND-LTER,BNZ-LTER,CDR-LTER,EML-2.0.1,EML-2.1.0,EML-LTER,LUQ-LTER,SGS-LTER";
}
volume_filtered {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 393.6, 100990.6;
Float64 column_id 3880;
String column_name "col_3880";
String ioos_category "Unknown";
String long_name "Volume Filtered";
String lter_column_description "seawater";
String lter_column_name "VolumeFilteredM3";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "m³";
String lter_units_string "meterCubed";
String units "m3";
String units_conventions "EML-LTER";
}
analysis_procedure {
Float64 column_id 3881;
String column_name "col_3881";
String ioos_category "Unknown";
String long_name "Analysis Procedure";
String lter_column_description "analysis procedure";
String lter_column_name "ZAID";
String lter_mscale "nominal";
String lter_num_type "f8";
}
tow_number {
Byte _FillValue 127;
String _Unsigned "false";
Byte actual_range -127, 126;
Float64 colorBarMaximum 100.0;
Float64 colorBarMinimum 0.0;
Float64 column_id 3948;
String column_name "col_3948";
String ioos_category "Statistics";
String long_name "Tow Number";
String lter_column_description "index number";
String lter_column_name "Tow";
String lter_mscale "interval";
String lter_num_type "integer";
String lter_units_string "number";
String units_conventions "EML-2.0.1,EML-2.1.0,EML-LTER";
}
wind_direction {
Int16 _FillValue 32767;
Int16 actual_range 0, 359;
Float64 colorBarMaximum 360.0;
Float64 colorBarMinimum 0.0;
Float64 column_id 3949;
String column_name "col_3949";
String ioos_category "Wind";
String long_name "Wind From Direction";
String lter_column_description "direction in degrees";
String lter_column_name "WindDirection";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "º";
String lter_units_string "degree";
String standard_name "wind_from_direction";
String units "degrees";
String units_conventions "EML-2.0.1,EML-2.1.0,EML-LTER";
}
siphon_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 490.836;
Float64 column_id 3882;
String column_name "col_3882";
String ioos_category "Physical Oceanography";
String long_name "Siphon Density";
String lter_column_description "density";
String lter_column_name "SiphonNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
siphon_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 16.228;
Float64 column_id 3883;
String column_name "col_3883";
String ioos_category "Unknown";
String long_name "Siphon Biomass";
String lter_column_description "biomass";
String lter_column_name "SiphonVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
hydrozoa_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 52.016;
Float64 column_id 3884;
String column_name "col_3884";
String ioos_category "Physical Oceanography";
String long_name "Hydrozoa Density";
String lter_column_description "density";
String lter_column_name "Hydrozoa_oNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
hydrozoa_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 3.824;
Float64 column_id 3885;
String column_name "col_3885";
String ioos_category "Unknown";
String long_name "Hydrozoa Biomass";
String lter_column_description "biomass";
String lter_column_name "Hydrozoa_oVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
periphyl_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.194;
Float64 column_id 3886;
String column_name "col_3886";
String ioos_category "Physical Oceanography";
String long_name "Periphyl Density";
String lter_column_description "density";
String lter_column_name "PeriphylNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
periphyl_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 435.258;
Float64 column_id 3887;
String column_name "col_3887";
String ioos_category "Unknown";
String long_name "Periphyl Biomass";
String lter_column_description "biomass";
String lter_column_name "PeriphylVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
ctenoph_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 166.993;
Float64 column_id 3888;
String column_name "col_3888";
String ioos_category "Physical Oceanography";
String long_name "Ctenoph Density";
String lter_column_description "density";
String lter_column_name "CtenophNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
ctenoph_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 214.594;
Float64 column_id 3889;
String column_name "col_3889";
String ioos_category "Unknown";
String long_name "Ctenoph Biomass";
String lter_column_description "biomass";
String lter_column_name "CtenophVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
clio_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 3.129;
Float64 column_id 3890;
String column_name "col_3890";
String ioos_category "Physical Oceanography";
String long_name "Clio Density";
String lter_column_description "density";
String lter_column_name "ClioNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
clio_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.925;
Float64 column_id 3891;
String column_name "col_3891";
String ioos_category "Unknown";
String long_name "Clio Biomass";
String lter_column_description "biomass";
String lter_column_name "ClioVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
limacina_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 4037.792;
Float64 column_id 3892;
String column_name "col_3892";
String ioos_category "Physical Oceanography";
String long_name "Limacina Density";
String lter_column_description "density";
String lter_column_name "LimacinaNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
limacina_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 202.813;
Float64 column_id 3893;
String column_name "col_3893";
String ioos_category "Unknown";
String long_name "Limacina Biomass";
String lter_column_description "biomass";
String lter_column_name "LimacinaVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
clion_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 37.911;
Float64 column_id 3894;
String column_name "col_3894";
String ioos_category "Physical Oceanography";
String long_name "Clion Density";
String lter_column_description "density";
String lter_column_name "ClioneNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
clion_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 3.282;
Float64 column_id 3895;
String column_name "col_3895";
String ioos_category "Unknown";
String long_name "Clion Biomass";
String lter_column_description "biomass";
String lter_column_name "ClioneVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
spongiob_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 3.647;
Float64 column_id 3896;
String column_name "col_3896";
String ioos_category "Physical Oceanography";
String long_name "Spongiob Density";
String lter_column_description "density";
String lter_column_name "SpongiobNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
spongiob_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.279;
Float64 column_id 3897;
String column_name "col_3897";
String ioos_category "Unknown";
String long_name "Spongiob Biomass";
String lter_column_description "biomass";
String lter_column_name "SpongiobVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
cephalop_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.744;
Float64 column_id 3898;
String column_name "col_3898";
String ioos_category "Physical Oceanography";
String long_name "Cephalop Density";
String lter_column_description "density";
String lter_column_name "CephalopNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
cephalop_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.586;
Float64 column_id 3899;
String column_name "col_3899";
String ioos_category "Unknown";
String long_name "Cephalop Biomass";
String lter_column_description "biomass";
String lter_column_name "CephalopVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
tomopter_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 13.835;
Float64 column_id 3900;
String column_name "col_3900";
String ioos_category "Physical Oceanography";
String long_name "Tomopter Density";
String lter_column_description "density";
String lter_column_name "TomopterNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
tomopter_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 6.297;
Float64 column_id 3901;
String column_name "col_3901";
String ioos_category "Unknown";
String long_name "Tomopter Biomass";
String lter_column_description "biomass";
String lter_column_name "TomopterVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
polychae_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 1.59;
Float64 column_id 3902;
String column_name "col_3902";
String ioos_category "Physical Oceanography";
String long_name "Polychae Density";
String lter_column_description "density";
String lter_column_name "Polychae_oNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
polychae_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 1.298;
Float64 column_id 3903;
String column_name "col_3903";
String ioos_category "Unknown";
String long_name "Polychae Biomass";
String lter_column_description "biomass";
String lter_column_name "Polychae_oVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
pseudosa_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 22.864;
Float64 column_id 3904;
String column_name "col_3904";
String ioos_category "Physical Oceanography";
String long_name "Pseudosa Density";
String lter_column_description "density";
String lter_column_name "PseudosaNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
pseudosa_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 11.686;
Float64 column_id 3905;
String column_name "col_3905";
String ioos_category "Unknown";
String long_name "Pseudosa Biomass";
String lter_column_description "biomass";
String lter_column_name "PseudosaVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
chaetogn_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 577.332;
Float64 column_id 3906;
String column_name "col_3906";
String ioos_category "Physical Oceanography";
String long_name "Chaetogn Density";
String lter_column_description "density";
String lter_column_name "Chaetogn_oNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
chaetogn_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 12.351;
Float64 column_id 3907;
String column_name "col_3907";
String ioos_category "Unknown";
String long_name "Chaetogn Biomass";
String lter_column_description "biomass";
String lter_column_name "Chaetogn_oVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
copepoda_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 6456.418;
Float64 column_id 3908;
String column_name "col_3908";
String ioos_category "Physical Oceanography";
String long_name "Copepoda Density";
String lter_column_description "density";
String lter_column_name "CopepodaNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
copepoda_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 37.345;
Float64 column_id 3909;
String column_name "col_3909";
String ioos_category "Unknown";
String long_name "Copepoda Biomass";
String lter_column_description "biomass";
String lter_column_name "CopepodaVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
ostracod_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 75.795;
Float64 column_id 3910;
String column_name "col_3910";
String ioos_category "Physical Oceanography";
String long_name "Ostracod Density";
String lter_column_description "density";
String lter_column_name "OstracodNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
ostracod_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.35;
Float64 column_id 3911;
String column_name "col_3911";
String ioos_category "Unknown";
String long_name "Ostracod Biomass";
String lter_column_description "biomass";
String lter_column_name "OstracodVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
vibilia_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 118.498;
Float64 column_id 3912;
String column_name "col_3912";
String ioos_category "Physical Oceanography";
String long_name "Vibilia Density";
String lter_column_description "density";
String lter_column_name "VibiliaNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
vibilia_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 5.105;
Float64 column_id 3913;
String column_name "col_3913";
String ioos_category "Unknown";
String long_name "Vibilia Biomass";
String lter_column_description "biomass";
String lter_column_name "VibiliaVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
cyllopus_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 23.802;
Float64 column_id 3914;
String column_name "col_3914";
String ioos_category "Physical Oceanography";
String long_name "Cyllopus Density";
String lter_column_description "density";
String lter_column_name "CyllopusNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
cyllopus_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 1.702;
Float64 column_id 3915;
String column_name "col_3915";
String ioos_category "Unknown";
String long_name "Cyllopus Biomass";
String lter_column_description "biomass";
String lter_column_name "CyllopusVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
primno_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 4.716;
Float64 column_id 3916;
String column_name "col_3916";
String ioos_category "Physical Oceanography";
String long_name "Primno Density";
String lter_column_description "density";
String lter_column_name "PrimnoNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
primno_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.303;
Float64 column_id 3917;
String column_name "col_3917";
String ioos_category "Unknown";
String long_name "Primno Biomass";
String lter_column_description "biomass";
String lter_column_name "PrimnoVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
themisto_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 630.819;
Float64 column_id 3918;
String column_name "col_3918";
String ioos_category "Physical Oceanography";
String long_name "Themisto Density";
String lter_column_description "density";
String lter_column_name "ThemistoNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
themisto_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 37.145;
Float64 column_id 3919;
String column_name "col_3919";
String ioos_category "Unknown";
String long_name "Themisto Biomass";
String lter_column_description "biomass";
String lter_column_name "ThemistoVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
hyperiel_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 3.392;
Float64 column_id 3920;
String column_name "col_3920";
String ioos_category "Physical Oceanography";
String long_name "Hyperiel Density";
String lter_column_description "density";
String lter_column_name "HyperielNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
hyperiel_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.134;
Float64 column_id 3921;
String column_name "col_3921";
String ioos_category "Unknown";
String long_name "Hyperiel Biomass";
String lter_column_description "biomass";
String lter_column_name "HyperielVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
hyperoche_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 46.344;
Float64 column_id 3922;
String column_name "col_3922";
String ioos_category "Physical Oceanography";
String long_name "Hyperoche Density";
String lter_column_description "density";
String lter_column_name "HyperocheNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
hyperoche_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.564;
Float64 column_id 3923;
String column_name "col_3923";
String ioos_category "Unknown";
String long_name "Hyperoche Biomass";
String lter_column_description "biomass";
String lter_column_name "HyperocheVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
amphipod_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.558;
Float64 column_id 3924;
String column_name "col_3924";
String ioos_category "Physical Oceanography";
String long_name "Amphipod Density";
String lter_column_description "density";
String lter_column_name "Amphipod_oNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
amphipod_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.19;
Float64 column_id 3925;
String column_name "col_3925";
String ioos_category "Unknown";
String long_name "Amphipod Biomass";
String lter_column_description "biomass";
String lter_column_name "Amphipod_oVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
esuperba_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 10591.748;
Float64 column_id 3926;
String column_name "col_3926";
String ioos_category "Physical Oceanography";
String long_name "Esuperba Density";
String lter_column_description "density";
String lter_column_name "EsuperbaNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
esuperba_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 889.083;
Float64 column_id 3927;
String column_name "col_3927";
String ioos_category "Unknown";
String long_name "Esuperba Biomass";
String lter_column_description "biomass";
String lter_column_name "EsuperbaVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
ecrystal_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 2549.232;
Float64 column_id 3928;
String column_name "col_3928";
String ioos_category "Physical Oceanography";
String long_name "Ecrystal Density";
String lter_column_description "density";
String lter_column_name "EcrystalNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
ecrystal_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 194.051;
Float64 column_id 3929;
String column_name "col_3929";
String ioos_category "Unknown";
String long_name "Ecrystal Biomass";
String lter_column_description "biomass";
String lter_column_name "EcrystalVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
efrigida_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 82.216;
Float64 column_id 3930;
String column_name "col_3930";
String ioos_category "Physical Oceanography";
String long_name "Efrigida Density";
String lter_column_description "density";
String lter_column_name "EfrigidaNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
efrigida_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 3.348;
Float64 column_id 3931;
String column_name "col_3931";
String ioos_category "Unknown";
String long_name "Efrigida Biomass";
String lter_column_description "biomass";
String lter_column_name "EfrigidaVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
etriacan_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 28.416;
Float64 column_id 3932;
String column_name "col_3932";
String ioos_category "Physical Oceanography";
String long_name "Etriacan Density";
String lter_column_description "density";
String lter_column_name "EtriacanNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
etriacan_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 7.459;
Float64 column_id 3933;
String column_name "col_3933";
String ioos_category "Unknown";
String long_name "Etriacan Biomass";
String lter_column_description "biomass";
String lter_column_name "EtriacanVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
thysanoe_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 8913.679;
Float64 column_id 3934;
String column_name "col_3934";
String ioos_category "Physical Oceanography";
String long_name "Thysanoe Density";
String lter_column_description "density";
String lter_column_name "ThysanoeNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
thysanoe_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 196.399;
Float64 column_id 3935;
String column_name "col_3935";
String ioos_category "Unknown";
String long_name "Thysanoe Biomass";
String lter_column_description "biomass";
String lter_column_name "ThysanoeVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
euphaus_density {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 193.619;
Float64 column_id 3936;
String column_name "col_3936";
String ioos_category "Physical Oceanography";
String long_name "Euphaus Density";
String lter_column_description "density";
String lter_column_name "Euphaus_oNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
}
euphaus_biomass {
Float64 _FillValue 9.969209968386869e+36;
Float64 actual_range 0.0, 0.395;
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String units_conventions "CCE-LTER";
}
teleoste_density {
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String lter_mscale "ratio";
String lter_num_type "real";
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String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
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}
teleoste_biomass {
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String lter_mscale "ratio";
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String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
other_density {
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String lter_column_name "otherNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
String units "1000m-3";
String units_conventions "CCE-LTER";
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other_biomass {
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String lter_column_name "otherVol";
String lter_mscale "ratio";
String lter_num_type "natural";
String lter_units "ml/1000m3";
String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
radio_density {
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radio_biomass {
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String lter_units_string "milliliterPerThousandCubicMeter";
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scyphozo_density {
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String long_name "Scyphozo Density";
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String lter_column_name "Scyphozo_oNum";
String lter_mscale "ratio";
String lter_num_type "real";
String lter_units "num/1000m³";
String lter_units_string "numberPerThousandMetersCubed";
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String lter_units "ml/1000m3";
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cnidaria_density {
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String lter_units "num/1000m³";
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cnidaria_biomass {
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gastropo_density {
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String lter_units "ml/1000m3";
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mysida_density {
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gammariad_density {
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ihlea_density {
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salpidae_density {
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String lter_units_string "milliliterPerThousandCubicMeter";
String units "ml 1000m-3";
String units_conventions "CCE-LTER";
}
pantarct_density {
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}
NC_GLOBAL {
String acknowledgement "Funding and support provided by the National Science Foundation";
String cdm_data_type "Trajectory";
String cdm_trajectory_variables "cruise_name";
String comment "The Palmer, Antarctica, Long-Term Ecological Research project is a member site of the Long-Term Ecological Research program, a network of sites investigating diverse biomes. A team of researchers seeks to understand the structure and function of the Western Antarctic Peninsula's marine and terrestrial ecosystems in the context of seasonal-to-interannual atmospheric and sea ice dynamics, as well as long-term climate change. The PAL measurement system (or grid) is designed to study marine and terrestrial food webs consisting principally of diatom primary producers, the dominant herbivore Antarctic krill, and the apex predator Adelie penguin. An attenuated microbial food web is also a focus. PAL studies these ecosystems annually over a regional scale grid of oceanographic stations and seasonally at Palmer Station. \\n\\nPalmer Station is located on Anvers Island west of the Antarctic Peninula. The peninsula runs perpendicular to a strong climatic gradient between the cold, dry continental regime to the south, characteristic of the Antarctic interior, and the warm, moist, maritime regime to the north. North-south shifts in the gradient give rise to large environmental variability to climate change. Sea ice extent and variability affects ecosystem changes at all trophic levels. In addition to the long-term field and research activities, information management, graduate student training, education and outreach are an integral part of the program.";
String contributor_email "debbies@vims.edu";
String contributor_name "Debbie Steinberg";
String contributor_role "PrincipalInvestigator";
String contributor_role_vocabulary "https://vocab.nerc.ac.uk/collection/G04/current/";
String Conventions "CF-1.8, ACDD-1.3, COARDS";
String creator_country "USA";
String creator_email "kerfoot@marine.rutgers.edu";
String creator_institution "Rutgers University";
String creator_name "John Kerfoot";
String creator_sector "academic";
String creator_type "person";
String creator_url "https://rucool.marine.rutgers.edu";
String datazoo_dataset_id "199";
String datazoo_datatable_id "199";
String datazoo_datatable_label "Zooplankton Density - Current";
String datazoo_datatable_name "ZooplanktonDensityCurrent";
String date_created "2022-03-02T21:02:47Z";
String date_issued "2022-03-02T21:02:47Z";
String defaultDataQuery "null";
String defaultGraphQuery "longitude%2Clatitude%2Ctime&.draw=markers&.marker=6%7C5&.color=0x000000&.colorBar=%7C%7C%7C%7C%7C&.bgColor=0xffccccff";
String doi "https://doi.org/10.6073/pasta/434b2f73803b9d3d8088cd094cf46cca";
Float64 Easternmost_Easting -64.0356;
String featureType "Trajectory";
String geospatial_bounds_crs "EPSG:4326";
String geospatial_bounds_vertical_crs "EPSG:5831";
Float64 geospatial_lat_max -63.9564;
Float64 geospatial_lat_min -70.0846;
String geospatial_lat_resolution "0.00001 degree";
String geospatial_lat_units "degrees_north";
Float64 geospatial_lon_max -64.0356;
Float64 geospatial_lon_min -78.2043;
String geospatial_lon_resolution "0.00001 degree";
String geospatial_lon_units "degrees_east";
Float64 geospatial_vertical_max 3837.0;
Float64 geospatial_vertical_min 0.0;
String geospatial_vertical_positive "down";
String geospatial_vertical_units "m";
String history
"/Users/kerfoot/data/lter/data/tsv/dat_199/dat_199_LMG19-01.tsv
2025-05-04T12:47:38Z (local files)
2025-05-04T12:47:38Z http://pallter-data.marine.rutgers.edu/tabledap/ZooplanktonDensityCurrent.das";
String infoUrl "https://pal.lternet.edu/";
String institution "National Science Foundation";
String keywords "biodiversity, biomass, communities, ecology, habitats, marine, measurements, plankton, Population Studies, populations, zooplankton";
String keywords_vocabulary "LTER Controlled Vocabulary,LTER Core Areas";
String license "All data contained herein is licensed under the LTER Network Data Access Policy (https://lternet.edu/data-access-policy/). In accordance with scientific publishing conventions and professional etiquette, the consumer of these data (the \"Data User\") is expected to appropriately cite these data in any publication that results from their use. The Data User should realize that these data may be actively used by others for ongoing research and that coordination may be necessary to prevent duplicate publication. The Data User is urged to contact the authors of these data if any questions about methodology or results occur and should realize that misinterpretation of data may occur if used out of context of the original study. Where appropriate, the Data User is encouraged to consider collaboration or co-authorship with the data authors. While substantial efforts are made to ensure the accuracy of data and associated documentation, complete accuracy of data sets cannot be guaranteed. All data are made available \"as is.\" The Data User should be aware that data are updated periodically and it is the responsibility of the Data User to check for new versions of the data. The data authors and the repository where these data were obtained shall not be liable for damages resulting from any use or misinterpretation of the data.";
String license_link "https://lternet.edu/data-access-policy/";
String methods "General Methods: Zooplankton net tows were conducted at Palmer LTER grid stations. Tows were double oblique with a 2x2-m square mouth (700-um stretch mesh) Metro net to 120 m. Abundance (#/1000 m3) and biomass (i.e., biovolume, mL/1000 m3) were determined for dominant macrozooplankton taxa. Data includes tow location, time, depth, and volume of water filtered by the net. Samples were preserved in 4% buffered formaldehyde. Density prefixes: Radio = Radiolaria; Siphon = Siphonophorae; Hydrozoa_o = Hydrozoa (other hydrozoans, excluding Siphonophorae); Periphyl = Periphylla sp. scyphozoans; Scyphozo_o = Scyphozoa (other scyphozoans, excluding Periphylla); Cnidaria_o = Cnidaria (other cnidarians, excluding defined taxa); Ctenoph = Ctenophora; Clio = Clio spp. pteropods; Limacina = Limacina helicina; Clione = Clione spp. pteropods; Spongiob = Spongiobranchaea spp. pteropods; Gastropo_o = Gastropoda (other gastropods, excluding defined taxa); Cephalop = Cephalopoda; Tomopter = Tomopteris spp. polychaetes; Polychae_o = Polychaeta (other polychaetes, excluding Tomopteris); Pseudosa = Pseudosagitta spp. chaetognaths; Chaetogn_o = Sagittoidea (other chaetognaths, excluding Pseudosagitta); Copepoda = Copepoda; Ostracod = Ostracoda; Mysida = Mysida; Vibilia = Vibilia spp. amphipods; Cyllopus = Cyllopus spp. amphipods; Primno = Primno macropa; Themisto = Themisto gaudichaudii; Hyperiel = Hyperiella spp. amphipods; Hyperoche = Hyperoche spp. amphipods; Amphipod_o = Amphipoda (other amphipods, excluding defined taxa); Esuperba = Euphausia superba; Ecrystal = Euphausia crystallorophias; Efrigida = Euphausia frigida; Etriacan = Euphausia triacantha; Thysanoe = Thysanoessa macrura; Euphaus_o = Euphausiacea (other euphausiids, excluding defined taxa) (mostly immature stages); Decapoda = Decapoda; Ihlea = Ihlea racovitzai (2013 to present); SalpaAgg = Salpa thompsoni aggregate stage; SalpaSol = Salpa thompsoni solitary stage; Pantarct = Pleuragramma antarcticum; Teleoste = Teleostei (other fish, excluding P. antarcticum); other = other taxa not listed (taxonomic details available on request). A blank abundance or biovolume value means that the sample was not analyzed for that taxonomic group; a value of -1 means that the taxonomic group was present but not quantified.";
String naming_authority "edu.rutgers.rucool";
Float64 Northernmost_Northing -63.9564;
String product_version "1.0";
String program "LTER";
String project "Palmer LTER";
String publisher_country "USA";
String publisher_email "kerfoot@marine.rutgers.edu";
String publisher_institution "Rutgers University";
String publisher_name "John Kerfoot";
String publisher_type "person";
String publisher_url "https://rucool.marine.rutgers.edu";
String references "https://pal.lternet.edu/";
String sea_name "Southern Ocean";
String source "/Users/kerfoot/data/lter/data/tsv/dat_199/dat_199_LMG19-01.tsv";
String sourceUrl "(local files)";
Float64 Southernmost_Northing -70.0846;
String standard_name_vocabulary "CF Standard Name Table v77";
String subsetVariables "cruise_name";
String summary "Zooplankton collected with a 2-m, 700-um net towed from surface to 120 m, aboard Palmer Station Antarctica LTER annual cruises off the western antarctic peninsula, 2009 - 2019. Zooplankton are a morphologically and taxonomically diverse group of animals. Many zooplankton feed on phytoplankton and thus provide a link between primary producers and higher trophic levels. Zooplankton density and biovolume were determined at grid stations on the annual LTER cruises along the western Antarctic Peninsula (WAP). Typically, zooplankton were collected with a 2x2 meter, 700um mesh net fitted with a flow meter and towed obliquely to 120m. Zooplankton distributions vary spatially due to water column characteristics, which affect their predators' distributions. As climate change continues to affect the WAP, the relative abundance of the various zooplankton components can also be expected to change.\\n\\n";
String time_coverage_end "2019-02-04T13:14:00Z";
String time_coverage_start "2009-01-06T18:03:00Z";
String title "Zooplankton collected with a 2-m, 700-um net towed from surface to 120 m, aboard Palmer Station Antarctica LTER annual cruises off the western antarctic peninsula, 2009, 2019.";
Float64 Westernmost_Easting -78.2043;
}
}
Data Access Protocol (DAP) and its
selection constraints.
The URL specifies what you want: the dataset, a description of the graph or the subset of the data, and the file type for the response.
Tabledap request URLs must be in the form
https://coastwatch.pfeg.noaa.gov/erddap/tabledap/datasetID.fileType{?query}
For example,
https://coastwatch.pfeg.noaa.gov/erddap/tabledap/pmelTaoDySst.htmlTable?longitude,latitude,time,station,wmo_platform_code,T_25&time>=2015-05-23T12:00:00Z&time<=2015-05-31T12:00:00Z
Thus, the query is often a comma-separated list of desired variable names,
followed by a collection of
constraints (e.g., variable<value),
each preceded by '&' (which is interpreted as "AND").
For details, see the tabledap Documentation.