Data Package Metadata View Summary

Jornada Basin LTER NPP C-CALI meteorological station: 30-minute soil volumetric water content data beginning 2013

General Information

Data Package:
Local Identifier:	knb-lter-jrn.210437076.1
Title:	Jornada Basin LTER NPP C-CALI meteorological station: 30-minute soil volumetric water content data beginning 2013
Alternate Identifier:	DOI PLACE HOLDER
Abstract:	30-minute Soil Moisture summary data at NPP C-CALI met station. Collection of soil volumetric water content data at Jornada LTER NPP sites, New Mexico, supports the environmental monitoring objectives of the Jornada LTER monitoring program that look at plant-soil water dynamics. Volumetric water content, bulk electrical conductivity, soil temperature, and bulk dielectric permittivity are measured and calculated at an automated meteorological station installed at Jornada LTER NPP C-CALI site. Measurements are made every 30 minutes at 10 cm, 20 cm, and 30 cm soil depths. This is an ONGOING dataset.
Publication Date:	2019-06-28

Time Period

Begin:

2013-11-05

End:

2019-05-31

People and Organizations
Contact:	Manager, Data (JRN-LTER Information Manager) [ email ]
Creator:	Duniway, Michael (JRN LTER, co-Principal Investigator)

Data Entities
Data Table Name:	npp_c-cali_met_soil_moisture_30min_L2_rev_1.csv
Description:	Main data table from Jornada Basin LTER NPP C-CALI meteorological station: 30-minute soil volumetric water content data beginning 2013

Detailed Metadata

Data Entities

Data Table

Data:

https://pasta-s.lternet.edu/package/data/eml/knb-lter-jrn/210437076/1/312b87fbc61b3a8869d21a13fb6b76e0

Name:

npp_c-cali_met_soil_moisture_30min_L2_rev_1.csv

Description:

Main data table from Jornada Basin LTER NPP C-CALI meteorological station: 30-minute soil volumetric water content data beginning 2013

Number of Records:

97627

Number of Columns:

Methods and protocols used in the collection of this data package

Description:

Data processing using the GCE Data Toolbox for MATLAB

Software:

Title:

GCE Data Toolbox for MATLAB

Author(s):

Organization:

Georgia Coastal Ecosystems LTER

Email Address:

gcelter@uga.edu

Abstract:

The GCE Data Toolbox is a comprehensive library of functions for metadata-based analysis quality control, transformation and management of ecological data sets. The toolbox is based on the GCE Data Structure, a MATLAB specification for storing tabular data along with all information required to interpret the data and generate formatted metadata (documentation). Metadata fields in the structure are queried by toolbox functions for all operations, allowing functions to process and format values appropriately based on the type of information they represent. This semantic processing approach supports highly automated and intelligent data analysis and ensures data set validity throughout all processing steps.

Implementation Info:

Distribution:

Url:

https://gce-svn.marsci.uga.edu/trac/GCE_Toolbox

Version Number:

Toolbox Version 3.9.9b (06-Mar-2019)

Quality Control
Quality Control Step 1:

Description:

Quality control analysis was performed using the GCE Data Toolbox for MATLAB software. Column data types are validated upon importing the table into MATLAB, and qualifier flags are automatically generated for data values based on QA/QC criteria for each data column pre-defined in metadata templates (e.g. value range checks, sanity checks, pattern checks). Automatically-assigned qualifier flags are reviewed graphically and revised or augmented as deemed appropriate by GCE information management staff, based on metadata information from the contributor, values of other measured variables, or statistical tests. Qualifier flags are also assigned to values that are imputed or derived, revised, or otherwise differ from values in the original data submission. A column of coded qualifier flags is generated and included in the data table if flags are assigned to any value in a data column.

Data anomalies: Values of 33315 records in VwcCorr_301_10cm were flagged as I (invalid value (out of range)) for dates: 11/05/2013, 11/05/2013-07/02/2014, 12/14/2014, 12/15/2014, 12/16/2014, 12/17/2014, 12/18/2014, 12/19/2014, 12/19/2014-12/20/2014, 12/20/2014-12/21/2014, 12/22/2014, 12/23/2014, 12/23/2014-12/24/2014, 12/24/2014-12/25/2014, 12/26/2014, 12/26/2014-12/27/2014, 12/27/2014-12/28/2014, 12/31/2014, 04/11/2015, 04/12/2015-04/14/2015, 04/14/2015-04/15/2015, 04/16/2015, 04/17/2015, 04/18/2015, 04/22/2015, 04/23/2015, 04/23/2015-04/24/2015, 04/24/2015-04/25/2015, 04/25/2015-04/28/2015, 04/28/2015-04/29/2015, 04/29/2015-04/30/2015, 04/30/2015-05/01/2015, 05/01/2015-05/13/2015, 06/07/2015, 06/07/2015-06/08/2015, 06/08/2015-06/10/2015, 06/10/2015-06/11/2015, 06/11/2015-06/12/2015, 06/12/2015-06/28/2015, 06/28/2015-06/29/2015, 06/29/2015-06/30/2015, 06/30/2015-07/01/2015, 07/01/2015-07/08/2015, 07/08/2015-07/09/2015, 09/07/2015, 09/08/2015, 09/08/2015-09/12/2015, 09/12/2015-09/13/2015, 09/13/2015-09/14/2015, 09/15/2015, 09/16/2015, 09/16/2015-09/17/2015, 09/17/2015-09/18/2015, 09/18/2015-09/22/2015, 03/24/2016, 03/25/2016, 03/26/2016, 03/27/2016, 03/27/2016-03/28/2016, 03/28/2016-03/29/2016, 03/29/2016-04/11/2016, 04/11/2016-04/13/2016, 04/13/2016-04/14/2016, 04/15/2016, 04/16/2016, 04/16/2016-04/17/2016, 04/18/2016, 04/19/2016, 04/20/2016, 04/21/2016, 04/22/2016, 04/22/2016-04/23/2016, 04/23/2016-04/24/2016, 04/24/2016-04/25/2016, 04/25/2016-05/19/2016, 06/08/2016, 06/09/2016, 06/09/2016-06/10/2016, 06/10/2016-06/12/2016, 06/12/2016-06/29/2016, 06/29/2016-06/30/2016, 06/30/2016-07/02/2016, 07/02/2016-07/03/2016, 07/04/2016, 07/07/2016, 07/07/2016-07/08/2016, 07/08/2016-07/25/2016, 07/25/2016-07/26/2016, 07/27/2016, 07/28/2016, 07/31/2016, 07/31/2016-08/01/2016, 08/01/2016-08/02/2016, 08/02/2016-08/11/2016, 11/03/2016, 11/04/2016, 11/04/2016-11/05/2016, 11/06/2016, 11/30/2016, 12/01/2016, 12/02/2016, 12/04/2016, 12/05/2016, 12/09/2016, 12/09/2016-12/10/2016, 12/17/2016-12/19/2016, 12/19/2016-12/20/2016, 12/20/2016-12/21/2016, 04/15/2017, 04/16/2017, 04/16/2017-04/17/2017, 04/17/2017-04/18/2017, 04/18/2017-04/19/2017, 04/19/2017-04/20/2017, 04/20/2017-05/02/2017, 05/02/2017-05/03/2017, 05/03/2017-05/04/2017, 05/04/2017-06/01/2017, 06/16/2017, 06/17/2017, 06/17/2017-06/18/2017, 06/18/2017-06/19/2017, 06/19/2017-06/20/2017, 06/20/2017-07/14/2017, 07/14/2017-07/15/2017, 10/08/2017, 10/10/2017, 10/10/2017-10/11/2017, 10/12/2017, 10/13/2017, 10/14/2017, 10/14/2017-10/15/2017, 10/15/2017-10/16/2017, 10/16/2017-10/17/2017, 10/17/2017-10/19/2017, 10/19/2017-10/21/2017, 10/21/2017-10/22/2017, 10/22/2017-10/23/2017, 10/23/2017-10/24/2017, 10/24/2017-10/25/2017, 10/25/2017-10/26/2017, 10/27/2017, 10/27/2017-10/28/2017, 10/28/2017-10/29/2017, 10/29/2017-10/30/2017, 10/31/2017, 10/31/2017-11/01/2017, 11/01/2017-11/02/2017, 11/02/2017-11/03/2017, 11/03/2017-11/04/2017, 11/04/2017-11/05/2017, 11/05/2017-11/09/2017, 11/09/2017-11/10/2017, 12/07/2017-12/11/2017, 12/11/2017-12/12/2017, 12/12/2017-12/13/2017, 12/13/2017-12/14/2017, 12/14/2017-12/18/2017, 12/18/2017-12/21/2017, 12/21/2017-12/24/2017, 12/24/2017-12/25/2017, 12/26/2017, 12/27/2017, 12/28/2017, 12/28/2017-12/29/2017, 12/30/2017, 12/31/2017, 01/01/2018, 01/01/2018-01/02/2018, 01/02/2018-01/03/2018, 01/03/2018-01/04/2018, 01/04/2018-01/05/2018, 01/05/2018-01/06/2018, 01/08/2018, 01/09/2018, 01/10/2018, 01/10/2018-01/11/2018, 01/11/2018-01/12/2018, 01/12/2018-01/13/2018, 01/13/2018-01/14/2018, 01/14/2018-01/15/2018, 01/15/2018-01/20/2018, 01/20/2018-02/16/2018, 04/07/2018, 04/08/2018, 04/09/2018, 04/09/2018-04/10/2018, 04/10/2018-04/11/2018, 04/11/2018-04/12/2018, 04/12/2018-06/16/2018, 06/30/2018, 07/01/2018, 07/01/2018-07/02/2018, 07/02/2018-07/10/2018, 08/21/2018, 08/22/2018, 08/23/2018, 09/03/2018, 09/04/2018, 09/05/2018, 09/05/2018-09/06/2018, 09/06/2018-09/07/2018, 04/13/2019, 04/14/2019, 04/15/2019, 04/16/2019, 04/17/2019, 04/17/2019-04/18/2019, 04/18/2019-04/19/2019, 04/20/2019, 04/21/2019, 04/22/2019, 04/22/2019-04/23/2019, 04/23/2019-04/24/2019, 04/25/2019, 04/29/2019, 04/30/2019, 04/30/2019-05/01/2019, 05/01/2019-05/02/2019, 05/02/2019-05/03/2019, 05/03/2019-05/04/2019, 05/04/2019-05/14/2019, 05/14/2019-05/15/2019, 05/16/2019, 05/17/2019, 05/17/2019-05/18/2019, 05/18/2019-06/10/2019. Values of 2266 records in VwcCorr_301_20cm were flagged as I (invalid value (out of range)) for dates: 05/09/2014, 05/12/2014, 05/13/2014, 05/14/2014, 05/15/2014, 05/16/2014, 05/17/2014, 05/18/2014, 05/19/2014, 05/20/2014, 05/21/2014, 05/22/2014-05/23/2014, 05/23/2014-05/28/2014, 05/29/2014, 05/29/2014-05/30/2014, 05/30/2014-05/31/2014, 06/01/2014, 06/02/2014, 06/03/2014, 06/04/2014-07/05/2014. Values of 5317 records in VwcCorr_302_10cm were flagged as I (invalid value (out of range)) for dates: 02/21/2014, 02/22/2014, 02/25/2014, 02/27/2014, 02/28/2014, 03/01/2014, 03/02/2014-03/06/2014, 03/06/2014-03/07/2014, 03/08/2014, 03/09/2014, 03/10/2014, 03/13/2014, 03/16/2014, 03/17/2014, 03/18/2014, 03/19/2014, 03/20/2014, 03/21/2014, 03/22/2014, 03/23/2014, 03/24/2014-03/29/2014, 03/30/2014, 03/31/2014, 04/01/2014, 04/02/2014, 04/02/2014-07/01/2014, 06/12/2018, 06/14/2018, 06/15/2018. Values of 206 records in VwcCorr_302_20cm were flagged as I (invalid value (out of range)) for dates: 06/21/2014, 06/24/2014, 06/25/2014, 06/26/2014, 06/27/2014, 06/28/2014, 06/29/2014, 06/30/2014, 07/01/2014, 07/01/2014-07/02/2014.

Table Structure

Object Name:

npp_c-cali_met_soil_moisture_30min_L2_rev_1.csv

Size:

50847304 byte

Authentication:

ff28b652b95ff80a92a1282ad70531b3 Calculated By MD5

Character Encoding:

ASCII

Text Format:

Number of Header Lines:

Number of Foot Lines:

Record Delimiter:

\r\n

Line Number For One Record:

Orientation:

column

Simple Delimited:

Field Delimiter:	,
Quote Character:	"

Table Column Descriptions

Column Name:

Date

Year

YearDay

Hours

RECORD

Flag_RECORD

Sitename

VWC_301_10cm

Flag_VWC_301_10cm

EC_301_10cm

Flag_EC_301_10cm

Soil_Temp_301_10cm

Flag_Soil_Temp_301_10cm

P_301_10cm

Flag_P_301_10cm

Period_301_10cm

Flag_Period_301_10cm

Voltage_Ratio_301_10cm

Flag_Voltage_Ratio_301_10cm

VWC_301_20cm

Flag_VWC_301_20cm

EC_301_20cm

Flag_EC_301_20cm

Soil_Temp_301_20cm

Flag_Soil_Temp_301_20cm

P_301_20cm

Flag_P_301_20cm

Period_301_20cm

Flag_Period_301_20cm

Voltage_Ratio_301_20cm

Flag_Voltage_Ratio_301_20cm

VWC_301_30cm

Flag_VWC_301_30cm

EC_301_30cm

Flag_EC_301_30cm

Soil_Temp_301_30cm

Flag_Soil_Temp_301_30cm

P_301_30cm

Flag_P_301_30cm

Period_301_30cm

Flag_Period_301_30cm

Voltage_Ratio_301_30cm

Flag_Voltage_Ratio_301_30cm

VWC_302_10cm

Flag_VWC_302_10cm

EC_302_10cm

Flag_EC_302_10cm

Soil_Temp_302_10cm

Flag_Soil_Temp_302_10cm

P_302_10cm

Flag_P_302_10cm

Period_302_10cm

Flag_Period_302_10cm

Voltage_Ratio_302_10cm

Flag_Voltage_Ratio_302_10cm

VWC_302_20cm

Flag_VWC_302_20cm

EC_302_20cm

Flag_EC_302_20cm

Soil_Temp_302_20cm

Flag_Soil_Temp_302_20cm

P_302_20cm

Flag_P_302_20cm

Period_302_20cm

Flag_Period_302_20cm

Voltage_Ratio_302_20cm

Flag_Voltage_Ratio_302_20cm

VWC_302_30cm

Flag_VWC_302_30cm

EC_302_30cm

Flag_EC_302_30cm

Soil_Temp_302_30cm

Flag_Soil_Temp_302_30cm

P_302_30cm

Flag_P_302_30cm

Period_302_30cm

Flag_Period_302_30cm

Voltage_Ratio_302_30cm

Flag_Voltage_Ratio_302_30cm

VwcCorr_301_10cm

Flag_VwcCorr_301_10cm

VwcCorr_301_20cm

Flag_VwcCorr_301_20cm

VwcCorr_301_30cm

Flag_VwcCorr_301_30cm

VwcCorr_302_10cm

Flag_VwcCorr_302_10cm

VwcCorr_302_20cm

Flag_VwcCorr_302_20cm

VwcCorr_302_30cm

Flag_VwcCorr_302_30cm

Definition:

Date and time of observation

Calendar year

Numerical year day (day number within the current year)

Time of day in fractional hours

Record number generated by datalogger program

QA/QC flags for Record number generated by datalogger program (flagging criteria, where "x" is RECORD: x<0="I", manual)

Site identifier

Volumetric Water Content: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Volumetric Water Content: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is VWC_301_10cm: x<0="I", (x>0.80 & x<=1)="E", x>1="I", manual)

Soil Electrical Conductivity: Sample measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Soil Electrical Conductivity: Sample measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is EC_301_10cm: x<=0="I", x>3="I", manual)

Soil Temperature: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Soil Temperature: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is Soil_Temp_301_10cm: x<-35="I", x>80="I", manual)

Permittivity: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Permittivity: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is P_301_10cm: x<1="I", x>81="I", manual)

Period Average: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Period Average: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is Period_301_10cm: x<1="I", x>6="I", manual)

Voltage Ratio: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Voltage Ratio: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is Voltage_Ratio_301_10cm: x<1="I", x>17="I", manual)

Volumetric Water Content: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Volumetric Water Content: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is VWC_301_20cm: x<0="I", (x>0.80 & x<=1)="E", x>1="I", manual)

Soil Electrical Conductivity: Sample measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Soil Electrical Conductivity: Sample measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is EC_301_20cm: x<=0="I", x>3="I", manual)

Soil Temperature: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Soil Temperature: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is Soil_Temp_301_20cm: x<-35="I", x>80="I", manual)

Permittivity: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Permittivity: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is P_301_20cm: x<1="I", x>81="I", manual)

Period Average: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Period Average: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is Period_301_20cm: x<1="I", x>6="I", manual)

Voltage Ratio: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Voltage Ratio: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is Voltage_Ratio_301_20cm: x<1="I", x>17="I", manual)

Volumetric Water Content: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Volumetric Water Content: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is VWC_301_30cm: x<0="I", (x>0.80 & x<=1)="E", x>1="I", manual)

Soil Electrical Conductivity: Sample measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Soil Electrical Conductivity: Sample measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is EC_301_30cm: x<=0="I", x>3="I", manual)

Soil Temperature: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Soil Temperature: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is Soil_Temp_301_30cm: x<-35="I", x>80="I", manual)

Permittivity: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Permittivity: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is P_301_30cm: x<1="I", x>81="I", manual)

Period Average: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Period Average: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is Period_301_30cm: x<1="I", x>6="I", manual)

Voltage Ratio: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Voltage Ratio: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is Voltage_Ratio_301_30cm: x<1="I", x>17="I", manual)

Volumetric Water Content: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Volumetric Water Content: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is VWC_302_10cm: x<0="I", (x>0.80 & x<=1)="E", x>1="I", manual)

Soil Electrical Conductivity: Sample measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Soil Electrical Conductivity: Sample measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is EC_302_10cm: x<=0="I", x>3="I", manual)

Soil Temperature: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Soil Temperature: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is Soil_Temp_302_10cm: x<-35="I", x>80="I", manual)

Permittivity: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Permittivity: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is P_302_10cm: x<1="I", x>81="I", manual)

Period Average: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Period Average: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is Period_302_10cm: x<1="I", x>6="I", manual)

Voltage Ratio: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Voltage Ratio: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is Voltage_Ratio_302_10cm: x<1="I", x>17="I", manual)

Volumetric Water Content: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Volumetric Water Content: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is VWC_302_20cm: x<0="I", (x>0.80 & x<=1)="E", x>1="I", manual)

Soil Electrical Conductivity: Sample measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Soil Electrical Conductivity: Sample measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is EC_302_20cm: x<=0="I", x>3="I", manual)

Soil Temperature: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Soil Temperature: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is Soil_Temp_302_20cm: x<-35="I", x>80="I", manual)

Permittivity: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Permittivity: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is P_302_20cm: x<1="I", x>81="I", manual)

Period Average: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Period Average: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is Period_302_20cm: x<1="I", x>6="I", manual)

Voltage Ratio: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Voltage Ratio: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is Voltage_Ratio_302_20cm: x<1="I", x>17="I", manual)

Volumetric Water Content: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Volumetric Water Content: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is VWC_302_30cm: x<0="I", (x>0.80 & x<=1)="E", x>1="I", manual)

Soil Electrical Conductivity: Sample measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Soil Electrical Conductivity: Sample measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is EC_302_30cm: x<=0="I", x>3="I", manual)

Soil Temperature: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Soil Temperature: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is Soil_Temp_302_30cm: x<-35="I", x>80="I", manual)

Permittivity: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Permittivity: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is P_302_30cm: x<1="I", x>81="I", manual)

Period Average: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Period Average: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is Period_302_30cm: x<1="I", x>6="I", manual)

Voltage Ratio: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Voltage Ratio: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is Voltage_Ratio_302_30cm: x<1="I", x>17="I", manual)

Volumetric Water Content Temperature Corrected: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Volumetric Water Content Temperature Corrected: Measurement at 10 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is VwcCorr_301_10cm: x<0="I", (x>=0 & x<-0.03="E"), (x>0.80 & x<=1)="E", x>1="I")

Volumetric Water Content Temperature Corrected: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Volumetric Water Content Temperature Corrected: Measurement at 20 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is VwcCorr_301_20cm: x<0="I", (x>=0 & x<-0.03="E"), (x>0.80 & x<=1)="E", x>1="I")

Volumetric Water Content Temperature Corrected: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301

QA/QC flags for Volumetric Water Content Temperature Corrected: Measurement at 30 cm soil depth Between Larrea tridentata (creosotebush) shrubs using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 301 (flagging criteria, where "x" is VwcCorr_301_30cm: x<0="I", (x>=0 & x<-0.03="E"), (x>0.80 & x<=1)="E", x>1="I", manual)

Volumetric Water Content Temperature Corrected: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Volumetric Water Content Temperature Corrected: Measurement at 10 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is VwcCorr_302_10cm: x<0="I", (x>=0 & x<-0.03="E"), (x>0.80 & x<=1)="E", x>1="I")

Volumetric Water Content Temperature Corrected: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Volumetric Water Content Temperature Corrected: Measurement at 20 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is VwcCorr_302_20cm: x<0="I", (x>=0 & x<-0.03="E"), (x>0.80 & x<=1)="E", x>1="I")

Volumetric Water Content Temperature Corrected: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302

QA/QC flags for Volumetric Water Content Temperature Corrected: Measurement at 30 cm soil depth Under Larrea tridentata (creosotebush) shrub canopy using Campbell Scientific CS650 soil moisture sensor offset from neutron probe Access Tube ID 302 (flagging criteria, where "x" is VwcCorr_302_30cm: x<0="I", (x>=0 & x<-0.03="E"), (x>0.80 & x<=1)="E", x>1="I", manual)

Storage Type:

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integer

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Measurement Type:

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Measurement Values Domain:

Format	YYYY-MM-DD hh:mm:ss
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Precision	1
Type	real

Unit	nominalYear
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Type	real
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Max	366

Unit	hour
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Type	real
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Unit	none
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Definition	Missing value
Source

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Source

Code Definition

Code	200
Definition	C-SAND site
Source

Code Definition

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Definition	C-CALI site
Source

Code Definition

Code	400
Definition	G-SUMM site
Source

Code Definition

Code	500
Definition	G-BASN site
Source

Code Definition

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Definition	G-IBPE site
Source

Code Definition

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Definition	P-SMAL site
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Code Definition

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Definition	P-COLL site
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Code Definition

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Definition	P-TOBO site
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Code Definition

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Code Definition

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Definition	M-NORT site
Source

Code Definition

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Definition	M-RABB site
Source

Code Definition

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Source

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Allowed Values and Definitions

Enumerated Domain

Code Definition

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Source

Unit	degreeCelcius
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Allowed Values and Definitions

Enumerated Domain

Code Definition

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Definition	Missing value
Source

Unit	none
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Allowed Values and Definitions

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Code Definition

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Definition	Missing value
Source

Unit	microsiemens
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Allowed Values and Definitions

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Code	M
Definition	Missing value
Source

Unit	none
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Allowed Values and Definitions

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Code Definition

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Definition	Missing value
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Allowed Values and Definitions

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Unit	decisiemensPerMeter
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Definition	Missing value
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Allowed Values and Definitions

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Source

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Allowed Values and Definitions

Enumerated Domain

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Allowed Values and Definitions

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Definition	Missing value
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Allowed Values and Definitions

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Code Definition

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Allowed Values and Definitions

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Allowed Values and Definitions

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Code Definition

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Enumerated Domain

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Allowed Values and Definitions

Enumerated Domain

Code Definition

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Definition	Missing value
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Allowed Values and Definitions

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Code Definition

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Allowed Values and Definitions

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Code Definition

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Definition	Missing value
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Allowed Values and Definitions

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Code Definition

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Code Definition

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Definition	invalid value (out of range)
Source

Code Definition

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Definition	Missing value
Source

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Allowed Values and Definitions

Enumerated Domain

Code Definition

Code	M
Definition	Missing value
Source

Unit	cubicMeterPerCubicMeter
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Type	real
Min	0
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Allowed Values and Definitions

Enumerated Domain

Code Definition

Code	M
Definition	Missing value
Source

Unit	cubicMeterPerCubicMeter
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Type	real
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Allowed Values and Definitions

Enumerated Domain

Code Definition

Code	M
Definition	Missing value
Source

Unit	cubicMeterPerCubicMeter
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Allowed Values and Definitions

Enumerated Domain

Code Definition

Code	M
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Allowed Values and Definitions

Enumerated Domain

Code Definition

Code	M
Definition	Missing value
Source

Missing Value Code:

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Code	NaN
Expl	value not recorded or censored based on quality control analysis (see methods)

Accuracy Report:

Accuracy Assessment:

Coverage:

Methods:

Data Package Usage Rights

This information is released under the Creative Commons license - Attribution - CC BY (https://creativecommons.org/licenses/by/4.0/). The consumer of these data ("Data User" herein) is required to cite it appropriately in any publication that results from its 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. Where appropriate, the Data User is encouraged to consider collaboration or co-authorship with the authors. The Data User should realize that misinterpretation of data may occur if used out of context of the original study. 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, however, 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. Thank you.

Keywords

By Thesaurus:
(No thesaurus)	c-cali, climate, electrical conductivity, meteorology, npp site, precipitation, soil temperature, soil water, study 437, volumetric water content

Methods and Protocols

These methods, instrumentation and/or protocols apply to all data in this dataset:

Methods and protocols used in the collection of this data package

Description:

Summary: A vertical profile of 2 sets of 3 Campbell Scientific CS650 water content reflectometers are installed at 10 cm, 20 cm, and 30 cm soil depths with each set located 4 inches from a different neutron probe access tube where monthly soil water content measurements are made beginning at 30 cm, thus providing frequent volumetric water content measurements in the dynamic top 30 cm of the soil profile to augment less frequently made soil water content measurements in the deeper soil profile.

Instrument(s):

Water Content Reflectometer; Manufacturer: Campbell Scientific Instruments, Model: CS650; Parameter: Relative Dielectric Permittivity (Range: 1 to 81, Accuracy: range 1 to 40: +/- (2% of reading + 0.6) for solution EC <= dS/m; range 40 to 80: +/- (1.4 for solution EC <= 3 dS/m), Precision: <0.02; Parameter: Volumetric Water Content using Topp Equation (m^3/m^3) (Range: 5% to 50%, Accuracy: +/-3% VWC typical in mineral soils where solution EC <=3 dS/m, Precision: <0.05%; Parameter: Electrical Conductivity (Range solution EC: 0 to 3 dS/m, Range Bulk EC: 0 to 3 dS/m, Accuracy: +/-(5% of reading + 0.05 dS/m), Precision: 0.5% of BEC; Parameter: Temperature (Soil measurement range: -10 to +70 degrees C, Operational range: 0 to +70 degrees C, Accuracy: +/- 0.5 degees C for probe body buried in soil, Precision: +/- 0.02 degrees C; Parameter: Sensing Volume = 7800 cm^3

Description:

Method - Sensor readings are taken every 30 minutes by a Campbell Scientific Instruments (CSI) CR1000 data logger and converted to volumetric water content by the CR1000 datalogger program (e.g., C-Cali_CR1000_20150925.cr1). Variables measured or calculated by the datalogger program are Volumetric Water Content, Bulk Electrical Conductivity, Soil Temperature, Bulk Dielectric Permittivity, Period Average, and Voltage Ratio. These are downloaded hourly from each remote site via a 900 MHz spread spectrum wireless radio network using CSI LoggerNet software. The data are parsed, quality-checked, documented and archived in the JRN-LTER Information Management office using data retrieval and parsing functions in the GCE Data Toolbox for MATLAB (https://gce-lter.marsci.uga.edu/lter/research/tools/data_toolbox.htm).

Sampling Area and Study Extent

Sampling Description:

Measurements are made once every 30 minutes.

Sampling Extent:

Time Period

Begin:

2013-11-05

End:

2019-05-31

Sampling Extent:

Geographic Region:

Description:

lter-jrn-met-cc -- NPP C-CALI site. Precise geographic coordinates of the meteorological station are available upon request; please contact the Data Manager.

Bounding Coordinates:

Northern:	32.669000	Southern:	32.488000
Western:	-106.865000	Eastern:	-106.713000

These methods, instrumentation, and/or protocols apply to the data table npp_c-cali_met_soil_moisture_30min_L2_rev_1.csv:

Methods and protocols used in the collection of this data package

Description:

Data processing using the GCE Data Toolbox for MATLAB

Software:

Title:

GCE Data Toolbox for MATLAB

Author(s):

Organization:

Georgia Coastal Ecosystems LTER

Email Address:

gcelter@uga.edu

Abstract:

Implementation Info:

Distribution:

Url:

https://gce-svn.marsci.uga.edu/trac/GCE_Toolbox

Version Number:

Toolbox Version 3.9.9b (06-Mar-2019)

Quality Control
Quality Control Step 1:

Description:

People and Organizations

Publishers:

Organization:

Jornada LTER NPP site instrumentation on a wireless network (Study 437)

Creators:

Individual:

Michael Duniway

Organization:

JRN LTER

Position:

co-Principal Investigator

Email Address:

mduniway@usgs.gov

Contacts:

Individual:

Data Manager

Position:

JRN-LTER Information Manager

Address:

Jornada Experimental Range, P.O. Box 30003, MSC 3JER, New Mexico State University, Las Cruces, NM,

88003-8003

Email Address:

datamanager.jrn.lter@gmail.com

Temporal, Geographic and Taxonomic Coverage

Temporal, Geographic and/or Taxonomic information that applies to all data in this dataset:

Time Period

Begin:

2013-11-05

End:

2019-05-31

Geographic Region:

Description:

lter-jrn-met-cc -- NPP C-CALI site. Precise geographic coordinates of the meteorological station are available upon request; please contact the Data Manager.

Bounding Coordinates:

Northern:	32.669000	Southern:	32.488000
Western:	-106.865000	Eastern:	-106.713000

Project

Parent Project Information:

Title:

Jornada LTER NPP site instrumentation on a wireless network (Study 437)

Personnel:

Individual:

John Anderson

Organization:

JRN LTER

Position:

Research Site Manager

Address:

Jornada Experimental Range, P.O. Box 30003, MSC 3JER, NMSU,

Las Cruces, NM 88003-8003

Email Address:

janderso@jornada-vmail.nmsu.edu

Role:

project leader

Abstract:

Collection of soil volumetric water content data at Jornada LTER NPP sites, New Mexico, supports the environmental monitoring objectives of the Jornada LTER monitoring program that look at plant-soil water dynamics. Measurements are made every 30 minutes and downloaded hourly from each remote site via a 900 MHz spread spectrum wireless radio network. Variables measured include Volumetric Water Content, Bulk Electrical Conductivity, Soil Temperature, Bulk Dielectric Permittivity, Period Average, and Voltage Ratio.

Funding:

Funded by Jornada LTER program under NSF grant DEB-1832194

Other Metadata

Additional Metadata

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Data Package Metadata View Summary

Jornada Basin LTER NPP C-CALI meteorological station: 30-minute soil volumetric water content data beginning 2013

Data Entities

Data Table

Author(s):

Data Package Usage Rights

Keywords

Methods and Protocols

These methods, instrumentation and/or protocols apply to all data in this dataset:

These methods, instrumentation, and/or protocols apply to the data table npp_c-cali_met_soil_moisture_30min_L2_rev_1.csv:

Author(s):

People and Organizations

Temporal, Geographic and Taxonomic Coverage

Project

Parent Project Information:

Additional Metadata

Recently Added

Recently Updated

Data Package Metadata View Summary

Jornada Basin LTER NPP C-CALI meteorological station: 30-minute soil volumetric water content data beginning 2013

+/- Data Entities

Data Table

Author(s):

+/- Data Package Usage Rights

+/- Keywords

+/- Methods and Protocols

These methods, instrumentation and/or protocols apply to all data in this dataset:

These methods, instrumentation, and/or protocols apply to the data table npp_c-cali_met_soil_moisture_30min_L2_rev_1.csv:

Author(s):

+/- People and Organizations

+/- Temporal, Geographic and Taxonomic Coverage

+/- Project

Parent Project Information:

+/- Additional Metadata

Data Entities

Data Package Usage Rights

Keywords

Methods and Protocols

People and Organizations

Temporal, Geographic and Taxonomic Coverage

Project

Additional Metadata