diff --git a/csv/BinSizes.csv b/csv/BinSizes.csv
index a71d933..d92af86 100644
--- a/csv/BinSizes.csv
+++ b/csv/BinSizes.csv
@@ -268,6 +268,7 @@ massp_rga_status,20160,2,,14,28,,No ingested data
 massp_turbo_status,20160,2,,14,28,,No ingested data
 metbk_a_dcl_instrument,20160,1440,1300,14,"20,160",,Sample data 150-1300 per day
 metbk_a_dcl_instrument_recovered,20160,1440,,14,"20,160",,No ingested data
+metbk_ct_instrument,20160,1440,,14,"20,160",,No ingested data
 metbk_ct_dcl_instrument,20160,1440,,14,"20,160",,No ingested data
 metbk_sample,1440,,,1,0,,No ingested data
 metbk_status,20160,,,14,0,,No ingested data
diff --git a/csv/ParameterDefs.csv b/csv/ParameterDefs.csv
index 7c586a6..67436fa 100644
--- a/csv/ParameterDefs.csv
+++ b/csv/ParameterDefs.csv
@@ -3638,3 +3638,8 @@ FLOR,,fluorometric_chlorophyll_a,,PD8115,function,,float32,,ug L-1,-9999999,Chlo
 FLOR,,total_volume_scattering_coefficient,,PD8116,function,,float32,,m-1 sr-1,-9999999,Total Volume Scattering Coefficient,6,,PFID81,"{""counts_output"":""dpi_FLUBSCT-VLT_L0"",""counts_dark"":""CC_dark_counts_volume_scatter"", ""scale_factor"":""CC_scale_factor_volume_scatter""}",FLUBSCT,,FLUBSCT_L1,Total Volume Scattering Coefficient values represent the volume scattering from particles and the molecular scattering from water at a given wavelength of light and the default angle of 117 degrees for the ECO meter.,Total Volume Scattering Coefficient,Science Data,L1
 TO-DO,,non_zero_pressure,non_zero_pressure,PD8117,function,,int32,,daPa,-9999999,Non-zero Pressure,0,FALSE,PFID218,"{""a1"":""PD1639"", ""a2"":[""dpi_PRESWAT_L1"", ""None""], ""a2_scale_factor"":1000.0, ""std"":""CC_depth"", ""std_scale_factor"":1000.0}",,,,A non-zero pressure value.,,,L1
 TO-DO,PCO2W,pco2_battery_volts,pco2_battery_volts,PD8118,function,,float32,,V,-9999999,Battery Voltage,4,,PFID219,"{""braw"":""PD358"", ""sami_bits"":""CC_sami_bits""}",,,,,,,
+TO-DO,METBK,raw_temperature,raw_temperature,PD8119,quantity,,int32,,counts,-9999999,Unprocessed (L0) Sea Surface Temperature,0,,,,,,TEMPSRF_L0,Unprocessed sea surface temperature measurement in counts.,Unprocessed (L0) Sea Surface Temperature Measurement,Unprocessed Data,L0
+TO-DO,METBK,raw_conductivity,raw_conductivity,PD8120,quantity,,int32,,counts,-9999999,Unprocessed (L0) Sea Surface Conductivity,0,,,,,,CONDSRF_L0,"Unprocessed sea surface conductivity data that are output directly from the sensor. Sea surface conductivity refers to the ability of seawater to conduct electricity. The presence of ions in the seawater, such as salt, increases the electrical conducting ability of seawater. As such, conductivity can be used as a proxy for determining the quantity of salt in a sample of seawater.",Unprocessed (L0) Sea Surface Electrical Conductivity Measurement,Unprocessed Data,L0
+TO-DO,METBK,sea_surface_temperature,sea_surface_temperature,PD8121,function,,float32,,degrees_Celsius,-9999999,Sea Surface Temperature,3,,PFID206,"{""t0"":""PD8119"",""a0"":""CC_a0"",""a1"":""CC_a1"",""a2"":""CC_a2"",""a3"":""CC_a3""}",TEMPSRF,sea_surface_temperature,TEMPSRF_L1,Sea Surface Temperature is the temperature of the seawater near the ocean surface.,Sea Surface Temperature,Science Data,L1
+TO-DO,METBK,sea_surface_conductivity,sea_surface_conductivity,PD8122,function,,float32,,S m-1,-9999999,Sea Surface Conductivity,4,,PFID207,"{""c0"":""PD8120"",""t1"":""PD8121"",""p1"":""CC_depth"",""g"":""CC_g"",""h"":""CC_h"",""i"":""CC_i"",""j"":""CC_j"",""cpcor"":""CC_cpcor"",""ctcor"":""CC_ctcor"", ""wbotc"":""CC_wbotc""}",CONDSRF,sea_surface_conductivity,CONDSRF_L1,"Sea Surface Conductivity is the conductivity of the seawater near the ocean surface.",Sea Surface Conductivity,Science Data,L1
+
diff --git a/csv/ParameterDictionary.csv b/csv/ParameterDictionary.csv
index 479ea5d..e3ef639 100644
--- a/csv/ParameterDictionary.csv
+++ b/csv/ParameterDictionary.csv
@@ -544,7 +544,8 @@ ZPLSC_C,DICT773,,zplsc_c_recovered,"PD7,PD10,PD11,PD12,PD16,PD863,PD3730,PD312,P
 ZPLSC,DICT774,,zplsc_echogram_data,"PD7,PD10,PD11,PD12,PD16,PD863,PD8068,PD8069,PD8070,PD8071,PD8072,PD8073,PD8074,PD8075,PD8076,PD8077,PD8078,PD8079",PD7,,Science,Data Products,
 SUNA_DCL_RECOVERED,DICT776,,suna_dcl_recovered,"PD7,PD11,PD10,PD12,PD16,PD18,PD863,PD311,PD312,PD313,PD314,PD315,PD2320,PD2321,PD2322,PD2323,PD2324,PD2325,PD2326,PD332,PD320,PD321,PD322,PD347,PD324,PD327,PD325,PD2327,PD2328,PD316,PD317,PD2329,PD2330,PD333,PD2331",PD7,,Science,Data Products,
 SUNA_INSTRUMENT_RECOVERED,DICT777,,suna_instrument_recovered,"PD7,PD11,PD10,PD12,PD16,PD18,PD863,PD311,PD312,PD313,PD314,PD315,PD2320,PD2321,PD2322,PD2323,PD2324,PD2325,PD2326,PD332,PD320,PD321,PD322,PD347,PD324,PD327,PD325,PD2327,PD2328,PD316,PD317,PD2329,PD2330,PD333,PD2331",PD7,,Science,Data Products,
-METBK_CT_DCL,DICT778,,metbk_ct_dcl_instrument,"PD7,PD10,PD11,PD12,PD16,PD863,PD312,PD193,PD194,PD198",PD7,,Science,Data Products,
+METBK_CT_DCL,DICT778,,metbk_ct_dcl_instrument,"PD7,PD10,PD11,PD12,PD16,PD863,PD1056,PD1057",PD7,,Science,Data Products,
+METBK_CT,DICT779,,metbk_ct_instrument,"PD7,PD10,PD11,PD12,PD16,PD863,PD312,PD198,PD8119,PD8120,PD8121,PD8122",PD7,,Science,Data Products,
 DEPRECATED,DICT157,,flort_kn_stc_imodem_instrument,"PD7,PD10,PD11,PD12,PD16,PD21,PD22,PD23,PD24,PD25,PD863,PD1622,PD1139,PD1141,PD1143",PD7,,Science,Data Products (STC),Deprecated by flort_sample
 DEPRECATED,DICT174,,flord_m_glider_instrument,"PD7,PD10,PD11,PD12,PD16,PD21,PD25,PD863,PD1402,PD1401,PD1495,PD1494,PD2751,PD2752,PD2753,PD1537,PD2754,PD2755,PD1538,PD2756",PD7,,Science,Data Products,Deprecated by flort_m_sample
 DEPRECATED,DICT175,,flort_m_glider_instrument,"PD7,PD10,PD11,PD12,PD16,PD21,PD25,PD863,PD1402,PD1401,PD1495,PD1494,PD1479,PD1482,PD1485",PD7,,Science,Data Products,Deprecated by flort_m_sample