ncdump_obc

netcdf aqua_v14_obc_ERSEM {
dimensions:
	nobc = 172 ;
	DateStrLen = 26 ;
	time = UNLIMITED ; // (37 currently)
	siglay = 24 ;
	siglev = 25 ;
variables:
	char Times(time, DateStrLen) ;
		Times:time_zone = "UTC" ;
	float time(time) ;
		time:long_name = "time" ;
		time:units = "days since 1858-11-17 00:00:00" ;
		time:time_zone = "UTC" ;
	int obc_nodes(nobc) ;
		obc_nodes:long_name = "Open Boundary Node Number" ;
		obc_nodes:grid = "obc_grid" ;
		obc_nodes:type = "data" ;
	float obc_h(nobc) ;
		obc_h:long_name = "Open Boundary Depth" ;
		obc_h:units = "m" ;
		obc_h:grid = "obc_grid" ;
		obc_h:type = "data" ;
	float siglev(siglev, nobc) ;
		siglev:long_name = "ocean_sigma/general_coordinate" ;
		siglev:grid = "obc_grid" ;
	float siglay(siglay, nobc) ;
		siglay:long_name = "ocean_sigma/general_coordinate" ;
		siglay:grid = "obc_grid" ;
	float N1_p(time, siglay, nobc) ;
		N1_p:long_name = "phosphate phosphorus" ;
		N1_p:units = "mmol P/m^3" ;
		N1_p:grid = "obc_grid" ;
	float N3_n(time, siglay, nobc) ;
		N3_n:long_name = "nitrate nitrogen" ;
		N3_n:units = "mmol N/m^3" ;
		N3_n:grid = "obc_grid" ;
	float N4_n(time, siglay, nobc) ;
		N4_n:long_name = "ammonium nitrogen" ;
		N4_n:units = "mmol N/m^3" ;
		N4_n:grid = "obc_grid" ;
	float N5_s(time, siglay, nobc) ;
		N5_s:long_name = "silicate silicate" ;
		N5_s:units = "mmol Si/m^3" ;
		N5_s:grid = "obc_grid" ;
	float O2_o(time, siglay, nobc) ;
		O2_o:long_name = "oxygen oxygen" ;
		O2_o:units = "mmol O_2/m^3" ;
		O2_o:grid = "obc_grid" ;
	float O3_c(time, siglay, nobc) ;
		O3_c:long_name = "carbonate total dissolved inorganic carbon" ;
		O3_c:units = "mmol C/m^3" ;
		O3_c:grid = "obc_grid" ;
	float O3_TA(time, siglay, nobc) ;
		O3_TA:long_name = "carbonate total alkalinity" ;
		O3_TA:units = "umol/kg" ;
		O3_TA:grid = "obc_grid" ;
	float R1_c(time, siglay, nobc) ;
		R1_c:long_name = "labile dissolved organic matter carbon" ;
		R1_c:units = "mg C/m^3" ;
		R1_c:grid = "obc_grid" ;
	float R1_n(time, siglay, nobc) ;
		R1_n:long_name = "labile dissolved organic matter nitrogen" ;
		R1_n:units = "mmol N/m^3" ;
		R1_n:grid = "obc_grid" ;
	float R1_p(time, siglay, nobc) ;
		R1_p:long_name = "labile dissolved organic matter phosphorus" ;
		R1_p:units = "mmol P/m^3" ;
		R1_p:grid = "obc_grid" ;
	float R2_c(time, siglay, nobc) ;
		R2_c:long_name = "semi-labile dissolved organic matter carbon" ;
		R2_c:units = "mg C/m^3" ;
		R2_c:grid = "obc_grid" ;
	float R3_c(time, siglay, nobc) ;
		R3_c:long_name = "semi-refractory dissolved organic matter carbon" ;
		R3_c:units = "mg C/m^3" ;
		R3_c:grid = "obc_grid" ;
	float R4_c(time, siglay, nobc) ;
		R4_c:long_name = "small-size pom carbon" ;
		R4_c:units = "mg C/m^3" ;
		R4_c:grid = "obc_grid" ;
	float R4_n(time, siglay, nobc) ;
		R4_n:long_name = "small-size pom nitrogen" ;
		R4_n:units = "mmol N/m^3" ;
		R4_n:grid = "obc_grid" ;
	float R4_p(time, siglay, nobc) ;
		R4_p:long_name = "small-size pom phosphorus" ;
		R4_p:units = "mmol P/m^3" ;
		R4_p:grid = "obc_grid" ;
	float R6_c(time, siglay, nobc) ;
		R6_c:long_name = "medium-size pom carbon" ;
		R6_c:units = "mg C/m^3" ;
		R6_c:grid = "obc_grid" ;
	float R6_n(time, siglay, nobc) ;
		R6_n:long_name = "medium-size pom nitrogen" ;
		R6_n:units = "mmol N/m^3" ;
		R6_n:grid = "obc_grid" ;
	float R6_p(time, siglay, nobc) ;
		R6_p:long_name = "medium-size pom phosphorus" ;
		R6_p:units = "mmol P/m^3" ;
		R6_p:grid = "obc_grid" ;
	float R6_s(time, siglay, nobc) ;
		R6_s:long_name = "medium-size pom silicate" ;
		R6_s:units = "mmol Si/m^3" ;
		R6_s:grid = "obc_grid" ;
	float R8_c(time, siglay, nobc) ;
		R8_c:long_name = "large-size pom carbon" ;
		R8_c:units = "mg C/m^3" ;
		R8_c:grid = "obc_grid" ;
	float R8_n(time, siglay, nobc) ;
		R8_n:long_name = "large-size pom nitrogen" ;
		R8_n:units = "mmol N/m^3" ;
		R8_n:grid = "obc_grid" ;
	float R8_p(time, siglay, nobc) ;
		R8_p:long_name = "large-size pom phosphorus" ;
		R8_p:units = "mmol P/m^3" ;
		R8_p:grid = "obc_grid" ;
	float R8_s(time, siglay, nobc) ;
		R8_s:long_name = "large-size pom silicate" ;
		R8_s:units = "mmol Si/m^3" ;
		R8_s:grid = "obc_grid" ;
	float P1_c(time, siglay, nobc) ;
		P1_c:long_name = "diatoms carbon" ;
		P1_c:units = "mg C/m^3" ;
		P1_c:grid = "obc_grid" ;
	float P1_n(time, siglay, nobc) ;
		P1_n:long_name = "diatoms nitrogen" ;
		P1_n:units = "mmol N/m^3" ;
		P1_n:grid = "obc_grid" ;
	float P1_p(time, siglay, nobc) ;
		P1_p:long_name = "diatoms phosphorus" ;
		P1_p:units = "mmol P/m^3" ;
		P1_p:grid = "obc_grid" ;
	float P1_Chl(time, siglay, nobc) ;
		P1_Chl:long_name = "diatoms chlorophyll a" ;
		P1_Chl:units = "mg/m^3" ;
		P1_Chl:grid = "obc_grid" ;
	float P1_s(time, siglay, nobc) ;
		P1_s:long_name = "diatoms silicate" ;
		P1_s:units = "mmol Si/m^3" ;
		P1_s:grid = "obc_grid" ;
	float P2_c(time, siglay, nobc) ;
		P2_c:long_name = "nanophytoplankton carbon" ;
		P2_c:units = "mg C/m^3" ;
		P2_c:grid = "obc_grid" ;
	float P2_n(time, siglay, nobc) ;
		P2_n:long_name = "nanophytoplankton nitrogen" ;
		P2_n:units = "mmol N/m^3" ;
		P2_n:grid = "obc_grid" ;
	float P2_p(time, siglay, nobc) ;
		P2_p:long_name = "nanophytoplankton phosphorus" ;
		P2_p:units = "mmol P/m^3" ;
		P2_p:grid = "obc_grid" ;
	float P2_Chl(time, siglay, nobc) ;
		P2_Chl:long_name = "nanophytoplankton chlorophyll a" ;
		P2_Chl:units = "mg/m^3" ;
		P2_Chl:grid = "obc_grid" ;
	float P3_c(time, siglay, nobc) ;
		P3_c:long_name = "picophytoplankton carbon" ;
		P3_c:units = "mg C/m^3" ;
		P3_c:grid = "obc_grid" ;
	float P3_n(time, siglay, nobc) ;
		P3_n:long_name = "picophytoplankton nitrogen" ;
		P3_n:units = "mmol N/m^3" ;
		P3_n:grid = "obc_grid" ;
	float P3_p(time, siglay, nobc) ;
		P3_p:long_name = "picophytoplankton phosphorus" ;
		P3_p:units = "mmol P/m^3" ;
		P3_p:grid = "obc_grid" ;
	float P3_Chl(time, siglay, nobc) ;
		P3_Chl:long_name = "picophytoplankton chlorophyll a" ;
		P3_Chl:units = "mg/m^3" ;
		P3_Chl:grid = "obc_grid" ;
	float P4_c(time, siglay, nobc) ;
		P4_c:long_name = "microphytoplankton carbon" ;
		P4_c:units = "mg C/m^3" ;
		P4_c:grid = "obc_grid" ;
	float P4_n(time, siglay, nobc) ;
		P4_n:long_name = "microphytoplankton nitrogen" ;
		P4_n:units = "mmol N/m^3" ;
		P4_n:grid = "obc_grid" ;
	float P4_p(time, siglay, nobc) ;
		P4_p:long_name = "microphytoplankton phosphorus" ;
		P4_p:units = "mmol P/m^3" ;
		P4_p:grid = "obc_grid" ;
	float P4_Chl(time, siglay, nobc) ;
		P4_Chl:long_name = "microphytoplankton chlorophyll a" ;
		P4_Chl:units = "mg/m^3" ;
		P4_Chl:grid = "obc_grid" ;
	float B1_c(time, siglay, nobc) ;
		B1_c:long_name = "bacteria carbon" ;
		B1_c:units = "mg C/m^3" ;
		B1_c:grid = "obc_grid" ;
	float B1_n(time, siglay, nobc) ;
		B1_n:long_name = "bacteria nitrogen" ;
		B1_n:units = "mmol N/m^3" ;
		B1_n:grid = "obc_grid" ;
	float B1_p(time, siglay, nobc) ;
		B1_p:long_name = "bacteria phosphorus" ;
		B1_p:units = "mmol P/m^3" ;
		B1_p:grid = "obc_grid" ;
	float Z4_c(time, siglay, nobc) ;
		Z4_c:long_name = "mesozooplankton carbon" ;
		Z4_c:units = "mg C/m^3" ;
		Z4_c:grid = "obc_grid" ;
	float Z5_c(time, siglay, nobc) ;
		Z5_c:long_name = "microzooplankton carbon" ;
		Z5_c:units = "mg C/m^3" ;
		Z5_c:grid = "obc_grid" ;
	float Z5_n(time, siglay, nobc) ;
		Z5_n:long_name = "microzooplankton nitrogen" ;
		Z5_n:units = "mmol N/m^3" ;
		Z5_n:grid = "obc_grid" ;
	float Z5_p(time, siglay, nobc) ;
		Z5_p:long_name = "microzooplankton phosphorus" ;
		Z5_p:units = "mmol P/m^3" ;
		Z5_p:grid = "obc_grid" ;
	float Z6_c(time, siglay, nobc) ;
		Z6_c:long_name = "nanoflagellates carbon" ;
		Z6_c:units = "mg C/m^3" ;
		Z6_c:grid = "obc_grid" ;
	float Z6_n(time, siglay, nobc) ;
		Z6_n:long_name = "nanoflagellates nitrogen" ;
		Z6_n:units = "mmol N/m^3" ;
		Z6_n:grid = "obc_grid" ;
	float Z6_p(time, siglay, nobc) ;
		Z6_p:long_name = "nanoflagellates phosphorus" ;
		Z6_p:units = "mmol P/m^3" ;
		Z6_p:grid = "obc_grid" ;

// global attributes:
		:title = "Open boundary ERSEM nudging" ;
		:type = "FVCOM TIME SERIES OBC FABM FILE" ;
		:history = "File created with write_FVCOM_tsobcERSEM from the MATLAB fvcom-toolbox" ;
}