netcdf M0106.sbe37.realtime.100m {
dimensions:
	lat = 1 ;
	lon = 1 ;
	depth = 1 ;
	time = 44 ;
variables:
	double lat(lat) ;
		lat:long_name = "Latitude" ;
		lat:standard_name = "latitude" ;
		lat:short_name = "lat" ;
		lat:units = "degrees_north" ;
		lat:_FillValue = -999. ;
		lat:valid_range = -90., 90. ;
		lat:Comment = "Coordinate variable" ;
		lat:epic_code = 500 ;
	double lon(lon) ;
		lon:long_name = "Longitude" ;
		lon:standard_name = "longitude" ;
		lon:short_name = "lon" ;
		lon:modulo = 360. ;
		lon:units = "degrees_east" ;
		lon:_FillValue = -999. ;
		lon:valid_range = -180., 180. ;
		lon:Comment = "Coordinate variable" ;
		lon:epic_code = 502 ;
	double depth(depth) ;
		depth:long_name = "Depth" ;
		depth:standard_name = "depth" ;
		depth:short_name = "D" ;
		depth:units = "meters" ;
		depth:positive = "down" ;
		depth:_FillValue = -999. ;
		depth:valid_range = -10000., 100. ;
		depth:Comment = "Coordinate variable" ;
		depth:epic_code = 3 ;
	double time(time) ;
		time:long_name = "Time" ;
		time:standard_name = "time" ;
		time:short_name = "time" ;
		time:units = "days since -4713-01-01 00:00:00" ;
		time:_FillValue = -999. ;
		time:valid_range = 0., 2460000. ;
		time:Comment = "Coordinate variable" ;
		time:epic_code = 624 ;
	float conductivity(time, depth, lat, lon) ;
		conductivity:standard_name = "sea_water_electrical_conductivity" ;
		conductivity:long_name = "Conductivity" ;
		conductivity:short_name = "COND" ;
		conductivity:ancillary_variables = "conductivity_qc" ;
		conductivity:_FillValue = -999.f ;
		conductivity:units = "msiemens/cm" ;
		conductivity:is_dead = 0 ;
		conductivity:valid_range = 20.f, 60.f ;
		conductivity:epic_code = 51 ;
	byte conductivity_qc(time, depth, lat, lon) ;
		conductivity_qc:long_name = "Conductivity QC" ;
		conductivity_qc:short_name = "CONDQ" ;
		conductivity_qc:intent = "data_quality" ;
		conductivity_qc:standard_name = "conductivity data_quality" ;
		conductivity_qc:_FillValue = 128s ;
		conductivity_qc:units = "1" ;
		conductivity_qc:valid_range = -127s, 127s ;
		conductivity_qc:flag_values = 0s, 1s, 2s ;
		conductivity_qc:flag_meanings = "quality_good out_of_range sensor_nonfunctional" ;
	float temperature(time, depth, lat, lon) ;
		temperature:long_name = "Water Temperature" ;
		temperature:standard_name = "sea_water_temperature" ;
		temperature:short_name = "WT" ;
		temperature:ancillary_variables = "temperature_qc" ;
		temperature:_FillValue = -999.f ;
		temperature:units = "celsius" ;
		temperature:valid_range = -0.5f, 30.f ;
		temperature:is_dead = 0 ;
		temperature:epic_code = 20 ;
	byte temperature_qc(time, depth, lat, lon) ;
		temperature_qc:long_name = "Water Temperature QC" ;
		temperature_qc:short_name = "WTQC" ;
		temperature_qc:intent = "data_quality" ;
		temperature_qc:standard_name = "sea_water_temperature data_quality" ;
		temperature_qc:_FillValue = 128s ;
		temperature_qc:units = "1" ;
		temperature_qc:valid_range = -127s, 127s ;
		temperature_qc:flag_values = 0s, 1s, 2s, 3s ;
		temperature_qc:flag_meanings = "quality_good out_of_range sensor_nonfunctional invalid_input" ;
	float salinity(time, depth, lat, lon) ;
		salinity:long_name = "Salinity" ;
		salinity:standard_name = "sea_water_salinity" ;
		salinity:short_name = "SAL" ;
		salinity:ancillary_variables = "salinity_qc" ;
		salinity:_FillValue = -999.f ;
		salinity:units = "psu" ;
		salinity:valid_range = 10.f, 100.f ;
		salinity:is_dead = 0 ;
		salinity:epic_code = 41 ;
	byte salinity_qc(time, depth, lat, lon) ;
		salinity_qc:long_name = "Salinity QC" ;
		salinity_qc:short_name = "SALQC" ;
		salinity_qc:intent = "data_quality" ;
		salinity_qc:standard_name = "sea_water_salinity data_quality" ;
		salinity_qc:_FillValue = 128s ;
		salinity_qc:units = "1" ;
		salinity_qc:valid_range = -127s, 127s ;
		salinity_qc:flag_values = 0s, 1s, 2s, 3s ;
		salinity_qc:flag_meanings = "quality_good out_of_range sensor_nonfunctional invalid_input" ;
	float sigma_t(time, depth, lat, lon) ;
		sigma_t:long_name = "Sigma T" ;
		sigma_t:standard_name = "sea_water_density" ;
		sigma_t:short_name = "SIGMAT" ;
		sigma_t:ancillary_variables = "sigma_t_qc" ;
		sigma_t:_FillValue = -999.f ;
		sigma_t:units = "kg/m^3" ;
		sigma_t:valid_range = 10.f, 100.f ;
		sigma_t:is_dead = 0 ;
		sigma_t:epic_code = 70 ;
	byte sigma_t_qc(time, depth, lat, lon) ;
		sigma_t_qc:long_name = "SigmaT QC" ;
		sigma_t_qc:short_name = "SIGTQC" ;
		sigma_t_qc:intent = "data_quality" ;
		sigma_t_qc:standard_name = "sea_water_density data_quality" ;
		sigma_t_qc:_FillValue = 128s ;
		sigma_t_qc:units = "1" ;
		sigma_t_qc:valid_range = -127s, 127s ;
		sigma_t_qc:flag_values = 0s, 1s, 2s, 3s ;
		sigma_t_qc:flag_meanings = "quality_good out_of_range sensor_nonfunctional invalid_input" ;

// global attributes:
		:title = "Gulf of Maine Ocean Observing System: Realtime Buoy Observations" ;
		:institution = "Department of Physical Oceanography, School of Marine Sciences, University of Maine" ;
		:institution_url = "http://gyre.umeoce.maine.edu" ;
		:history = "" ;
		:source = "Ocean Data Acquisition Systems (ODAS) Buoy" ;
		:references = "http://gyre.umeoce.maine.edu/data/gomoos/buoy/doc/buoy_system_doc/buoy_system/book1.html" ;
		:comment = "" ;
		:Conventions = "CF-1.0" ;
		:project = "GOMOOS" ;
		:project_url = "http://gomoos.org" ;
		:contact = "nealp@maine.edu,ljm@umeoce.maine.edu,jevans@umeoce.maine.edu" ;
		:time_zone = "UTC" ;
		:julian_day_convention = "Julian date convention begins at 00:00:00 UTC on 1 January 4713 BC" ;
		:buffer_type = "sbe37" ;
		:instrument_number = 3 ;
		:sbe37_serial_number = "SBEIM2577" ;
		:processing = "realtime" ;
		:water_depth = 285 ;
		:mooring_site_id = "M0106" ;
		:mooring_site_desc = "Jordan Basin" ;
		:breakout_id = 4 ;
		:delta_t = 60 ;
		:magnetic_variation = -17.5 ;
		:goes_platform_id = "0440C04A" ;
		:starting_julian_day_number = 2453261.00000579 ;
		:starting_julian_day_string = "2004-09-12 00:00:00" ;
		:ending_julian_day_number = 2453265.83333912 ;
		:ending_julian_day_string = "2004-09-16 20:00:00" ;
		:algorithm_ids = "Conductivity_at_35PSU_15C_0P_1.2:  30-Aug-2004 11:34:18\n",
			"Salinity_1.2:  30-Aug-2004 11:34:18\n",
			"Conductivity_Ratio_1.2:  30-Aug-2004 11:34:18\n",
			"Salinity_RT_T_1.2:  30-Aug-2004 11:34:18\n",
			"Sigma_T_1.3:  30-Aug-2004 11:34:18\n",
			"Standard_Mean_Ocean_Water_Density_1.2:  30-Aug-2004 11:34:18" ;
data:

 lat = 44.4907 ;

 lon = -67.8798 ;

 depth = 100 ;

 time = 2453261, 2453261.04166667, 2453261.08333333, 2453261.125, 
    2453261.16666667, 2453261.20833333, 2453261.25, 2453261.29166667, 
    2453261.33333333, 2453261.375, 2453261.41666667, 2453261.45833333, 
    2453261.5, 2453261.54166667, 2453261.58333333, 2453261.625, 
    2453261.66666667, 2453261.70833333, 2453261.75, 2453261.79166667, 
    2453261.83333333, 2453261.875, 2453261.91666667, 2453261.95833333, 
    2453262, 2453262.04166667, 2453262.08333333, 2453262.125, 
    2453262.16666667, 2453262.20833333, 2453262.25, 2453262.29166667, 
    2453262.33333333, 2453262.375, 2453262.41666667, 2453262.45833333, 
    2453262.5, 2453265.54166667, 2453265.58333333, 2453265.66666667, 
    2453265.70833333, 2453265.75, 2453265.79166667, 2453265.83333333 ;

 conductivity =
  0.0003,
  0.0004,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0004,
  0.0003,
  0.0003,
  0.0003,
  0.0004,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0004,
  0.0004,
  0.0003,
  0.0003,
  0.0004,
  0.0004,
  0.0003,
  0.0003,
  0.0004,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0003,
  0.0002,
  1e-04,
  0.0003,
  0.0005,
  0.0005 ;

 conductivity_qc =
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1,
  1 ;

 temperature =
  21.15,
  20.97,
  20.6,
  20.51,
  20.36,
  20.17,
  19.99,
  19.8,
  19.59,
  19.41,
  19.22,
  19.03,
  18.31,
  18.45,
  18.56,
  18.83,
  19.18,
  19.55,
  19.92,
  20.3,
  20.65,
  20.97,
  21.16,
  21.19,
  21.1,
  20.97,
  20.8,
  20.61,
  20.41,
  20.21,
  20.01,
  19.81,
  19.63,
  19.45,
  19.26,
  19.11,
  19.01,
  18.15,
  18.44,
  22.39,
  28.31,
  31.69,
  33.5,
  31.9 ;

 temperature_qc =
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  0,
  1,
  1,
  1 ;

 salinity =
  0.0104559,
  0.01035842,
  0.01023196,
  0.01019497,
  0.01013311,
  0.01005437,
  0.00995688,
  0.009899765,
  0.009811269,
  0.009734979,
  0.009633248,
  0.009572583,
  0.009259808,
  0.009321154,
  0.009369174,
  0.009486374,
  0.009636905,
  0.009794351,
  0.00995009,
  0.01010829,
  0.01025246,
  0.010383,
  0.01045994,
  0.01047205,
  0.01043569,
  0.01035842,
  0.01028958,
  0.01023606,
  0.01015376,
  0.01004802,
  0.00996519,
  0.009903966,
  0.009828168,
  0.009730684,
  0.009671094,
  0.009606924,
  0.009563985,
  0.009189383,
  0.009316781,
  0.01098995,
  0.01321292,
  0.01415321,
  0.01461484,
  0.01414304 ;

 salinity_qc =
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3 ;

 sigma_t =
  -2.029796,
  -1.990755,
  -1.911495,
  -1.892435,
  -1.860855,
  -1.821191,
  -1.78398,
  -1.745036,
  -1.702456,
  -1.66633,
  -1.628588,
  -1.591199,
  -1.453105,
  -1.479517,
  -1.500419,
  -1.552278,
  -1.620672,
  -1.694398,
  -1.769577,
  -1.848289,
  -1.922121,
  -1.990736,
  -2.031976,
  -2.038522,
  -2.018913,
  -1.990755,
  -1.954171,
  -1.913618,
  -1.871356,
  -1.829527,
  -1.7881,
  -1.747076,
  -1.71053,
  -1.674345,
  -1.636489,
  -1.606888,
  -1.587288,
  -1.423182,
  -1.477623,
  -2.307819,
  -3.841408,
  -4.860668,
  -5.446715,
  -4.927301 ;

 sigma_t_qc =
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3,
  3 ;
}