Ba (GBRCD.AL03DAV01_2.Ba): paleoData_notes: ‘500 x 50 μm rectangular
laser beam is scanned along the coral growth axis at 2 mm per min with
first scan at at 5 Hz and then the second scan at 20 Hz pulse rate for
different trace elements and isotopes. See Table 1 in Alibert et
al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’ has been replaced by ‘500 x 50 μm
rectangular laser beam is scanned along the coral growth axis at 2 mm
per min with first scan at 5 Hz and then the second scan at 20 Hz pulse
rate for different trace elements and isotopes. See Table 1 in Alibert
et al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’
BaCa (GBRCD.AL03DAV01_2.BaCa): paleoData_notes: ‘500 x 50 μm
rectangular laser beam is scanned along the coral growth axis at 2 mm
per min with first scan at at 5 Hz and then the second scan at 20 Hz
pulse rate for different trace elements and isotopes. See Table 1 in
Alibert et al. (2003) for standards measurements. In-house
pressed-powder coral standard and NIST 614 glass standard.’ has been
replaced by ‘500 x 50 μm rectangular laser beam is scanned along the
coral growth axis at 2 mm per min with first scan at 5 Hz and then the
second scan at 20 Hz pulse rate for different trace elements and
isotopes. See Table 1 in Alibert et al. (2003) for standards
measurements. In-house pressed-powder coral standard and NIST 614 glass
standard.’
Cd (GBRCD.AL03DAV01_2.Cd): paleoData_notes: ‘500 x 50 μm rectangular
laser beam is scanned along the coral growth axis at 2 mm per min with
first scan at at 5 Hz and then the second scan at 20 Hz pulse rate for
different trace elements and isotopes. See Table 1 in Alibert et
al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’ has been replaced by ‘500 x 50 μm
rectangular laser beam is scanned along the coral growth axis at 2 mm
per min with first scan at 5 Hz and then the second scan at 20 Hz pulse
rate for different trace elements and isotopes. See Table 1 in Alibert
et al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’
Distance (GBRCD.AL03DAV01_2.Distance): paleoData_notes: ‘500 x 50 μm
rectangular laser beam is scanned along the coral growth axis at 2 mm
per min with first scan at at 5 Hz and then the second scan at 20 Hz
pulse rate for different trace elements and isotopes. See Table 1 in
Alibert et al. (2003) for standards measurements. In-house
pressed-powder coral standard and NIST 614 glass standard.’ has been
replaced by ‘500 x 50 μm rectangular laser beam is scanned along the
coral growth axis at 2 mm per min with first scan at 5 Hz and then the
second scan at 20 Hz pulse rate for different trace elements and
isotopes. See Table 1 in Alibert et al. (2003) for standards
measurements. In-house pressed-powder coral standard and NIST 614 glass
standard.’
Mn (GBRCD.AL03DAV01_2.Mn): paleoData_notes: ‘500 x 50 μm rectangular
laser beam is scanned along the coral growth axis at 2 mm per min with
first scan at at 5 Hz and then the second scan at 20 Hz pulse rate for
different trace elements and isotopes. See Table 1 in Alibert et
al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’ has been replaced by ‘500 x 50 μm
rectangular laser beam is scanned along the coral growth axis at 2 mm
per min with first scan at 5 Hz and then the second scan at 20 Hz pulse
rate for different trace elements and isotopes. See Table 1 in Alibert
et al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’
MnCa (GBRCD.AL03DAV01_2.MnCa): paleoData_notes: ‘500 x 50 μm
rectangular laser beam is scanned along the coral growth axis at 2 mm
per min with first scan at at 5 Hz and then the second scan at 20 Hz
pulse rate for different trace elements and isotopes. See Table 1 in
Alibert et al. (2003) for standards measurements. In-house
pressed-powder coral standard and NIST 614 glass standard.’ has been
replaced by ‘500 x 50 μm rectangular laser beam is scanned along the
coral growth axis at 2 mm per min with first scan at 5 Hz and then the
second scan at 20 Hz pulse rate for different trace elements and
isotopes. See Table 1 in Alibert et al. (2003) for standards
measurements. In-house pressed-powder coral standard and NIST 614 glass
standard.’
P (GBRCD.AL03DAV01_2.P): paleoData_notes: ‘500 x 50 μm rectangular
laser beam is scanned along the coral growth axis at 2 mm per min with
first scan at at 5 Hz and then the second scan at 20 Hz pulse rate for
different trace elements and isotopes. See Table 1 in Alibert et
al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’ has been replaced by ‘500 x 50 μm
rectangular laser beam is scanned along the coral growth axis at 2 mm
per min with first scan at 5 Hz and then the second scan at 20 Hz pulse
rate for different trace elements and isotopes. See Table 1 in Alibert
et al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’
Y (GBRCD.AL03DAV01_2.Y): paleoData_notes: ‘500 x 50 μm rectangular
laser beam is scanned along the coral growth axis at 2 mm per min with
first scan at at 5 Hz and then the second scan at 20 Hz pulse rate for
different trace elements and isotopes. See Table 1 in Alibert et
al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’ has been replaced by ‘500 x 50 μm
rectangular laser beam is scanned along the coral growth axis at 2 mm
per min with first scan at 5 Hz and then the second scan at 20 Hz pulse
rate for different trace elements and isotopes. See Table 1 in Alibert
et al. (2003) for standards measurements. In-house pressed-powder coral
standard and NIST 614 glass standard.’
year (GBRCD.AL03DAV01_2.year): paleoData_isPrimary: ‘FALSE’ has been
replaced by ‘TRUE’
Version: 1.0.5
lastVersion: 1.0.4
curator: nicholas
timestamp: 2024-04-12 15:48:15 UTC
changes:
Base metadata:
notes: ‘GPS coordinates offset from Davies Reef. Reef located
-18.82, 147.64 for reef from ’Reefs and shoals – Queensland’
geodatabase.’ has been replaced by NULL
geo_notes: ‘Upper surface 3.1 m below low tide mark’ has been
replaced by ‘GPS coordinates offset from Davies Reef. Reef located
-18.82, 147.64 for reef from ’Reefs and shoals – Queensland’
geodatabase. Upper surface 3.1 m below low tide mark.’
Publication metadata:
pub1_doiData: NULL has been replaced by ‘10.25921/ddhn-hf49’
Paleo Calibration metadata:
Ba (GBRCD.AL03DAV01_2.Ba): calibration_notes: ‘No calibration
applied’ has been replaced by ‘No calibration applied.’
BaCa (GBRCD.AL03DAV01_2.BaCa): calibration_notes: ‘No calibration
applied’ has been replaced by ‘No calibration applied.’
Cd (GBRCD.AL03DAV01_2.Cd): calibration_notes: ‘No calibration
applied’ has been replaced by ‘No calibration applied.’
Distance (GBRCD.AL03DAV01_2.Distance): calibration_notes: ‘No
calibration applied’ has been replaced by ‘No calibration applied.’
Mn (GBRCD.AL03DAV01_2.Mn): calibration_notes: ‘No calibration
applied’ has been replaced by ‘No calibration applied.’
MnCa (GBRCD.AL03DAV01_2.MnCa): calibration_notes: ‘No calibration
applied’ has been replaced by ‘No calibration applied.’
P (GBRCD.AL03DAV01_2.P): calibration_notes: ‘No calibration applied’
has been replaced by ‘No calibration applied.’
Y (GBRCD.AL03DAV01_2.Y): calibration_notes: ‘No calibration applied’
has been replaced by ‘No calibration applied.’
Paleo Column metadata:
BaCa (GBRCD.AL03DAV01_2.BaCa): paleoData_description:
‘Barium/Calcium For laser ablation datasets this is a measure of the
total Ba/Ca using the count intensities of the Ba137 isotope.’ has been
replaced by ‘Barium/Calcium. For laser ablation datasets this is a
measure of the total Ba/Ca using the count intensities of the Ba137
isotope.’
Version: 1.0.4
lastVersion: 1.0.3
curator: nicholas
timestamp: 2024-04-12 15:36:10 UTC
notes: added isPrimary, primaryAgeColumn, and
hasTimeTsid
changes:
Paleo Column metadata:
Ba (GBRCD.AL03DAV01_2.Ba): paleoData_isPrimary: NULL has been
replaced by ‘FALSE’
Ba (GBRCD.AL03DAV01_2.Ba): paleoData_primaryAgeColumn: NULL has been
replaced by ‘FALSE’
BaCa (GBRCD.AL03DAV01_2.BaCa): paleoData_isPrimary: NULL has been
replaced by ‘FALSE’
BaCa (GBRCD.AL03DAV01_2.BaCa): paleoData_primaryAgeColumn: NULL has
been replaced by ‘FALSE’
Cd (GBRCD.AL03DAV01_2.Cd): paleoData_isPrimary: NULL has been
replaced by ‘FALSE’
Cd (GBRCD.AL03DAV01_2.Cd): paleoData_primaryAgeColumn: NULL has been
replaced by ‘FALSE’
Distance (GBRCD.AL03DAV01_2.Distance): paleoData_isPrimary: NULL has
been replaced by ‘FALSE’
Distance (GBRCD.AL03DAV01_2.Distance): paleoData_primaryAgeColumn:
NULL has been replaced by ‘FALSE’
Mn (GBRCD.AL03DAV01_2.Mn): paleoData_isPrimary: NULL has been
replaced by ‘FALSE’
Mn (GBRCD.AL03DAV01_2.Mn): paleoData_primaryAgeColumn: NULL has been
replaced by ‘FALSE’
MnCa (GBRCD.AL03DAV01_2.MnCa): paleoData_isPrimary: NULL has been
replaced by ‘FALSE’
MnCa (GBRCD.AL03DAV01_2.MnCa): paleoData_primaryAgeColumn: NULL has
been replaced by ‘FALSE’
P (GBRCD.AL03DAV01_2.P): paleoData_isPrimary: NULL has been replaced
by ‘FALSE’
P (GBRCD.AL03DAV01_2.P): paleoData_primaryAgeColumn: NULL has been
replaced by ‘FALSE’
Y (GBRCD.AL03DAV01_2.Y): paleoData_isPrimary: NULL has been replaced
by ‘FALSE’
Y (GBRCD.AL03DAV01_2.Y): paleoData_primaryAgeColumn: NULL has been
replaced by ‘FALSE’
year (GBRCD.AL03DAV01_2.year): paleoData_isPrimary: NULL has been
replaced by ‘FALSE’
year (GBRCD.AL03DAV01_2.year): paleoData_primaryAgeColumn: NULL has
been replaced by ‘TRUE’
Version: 1.0.3
lastVersion: 1.0.2
curator: nicholas
timestamp: 2024-03-22 22:53:43 UTC
changes:
Paleo Column metadata:
BaCa (GBRCD.AL03DAV01_2.BaCa): paleoData_description:
‘Barium/Calcium. Assumed to be Ba137/Ca.’ has been replaced by
‘Barium/Calcium For laser ablation datasets this is a measure of the
total Ba/Ca using the count intensities of the Ba137 isotope.’
Distance (GBRCD.AL03DAV01_2.Distance): paleoData_description: NULL
has been replaced by ‘Distance measured from outer edge of coral or
core.’
Version: 1.0.2
lastVersion: 1.0.1
curator: nicholas
timestamp: 2024-03-09 00:05:55 UTC
changes:
Paleo Column metadata:
Ba (GBRCD.AL03DAV01_2.Ba): paleoData_measurementInstrument: NULL has
been replaced by ‘ArF excisor laser beam paired with Fisons PQII
Q-ICP-MS or Agilent 7500s Q-ICP-MS’
Ba (GBRCD.AL03DAV01_2.Ba): paleoData_measurementMethod: NULL has
been replaced by ‘LA-ICP-MS’
BaCa (GBRCD.AL03DAV01_2.BaCa): paleoData_measurementInstrument: NULL
has been replaced by ‘ArF excisor laser beam paired with Fisons PQII
Q-ICP-MS or Agilent 7500s Q-ICP-MS’
BaCa (GBRCD.AL03DAV01_2.BaCa): paleoData_measurementMethod: NULL has
been replaced by ‘LA-ICP-MS’
Cd (GBRCD.AL03DAV01_2.Cd): paleoData_measurementInstrument: NULL has
been replaced by ‘ArF excisor laser beam paired with Fisons PQII
Q-ICP-MS or Agilent 7500s Q-ICP-MS’
Cd (GBRCD.AL03DAV01_2.Cd): paleoData_measurementMethod: NULL has
been replaced by ‘LA-ICP-MS’
Distance (GBRCD.AL03DAV01_2.Distance): paleoData_longName: NULL has
been replaced by ‘Distance’
Distance (GBRCD.AL03DAV01_2.Distance): paleoData_units: NULL has
been replaced by ‘millimetres’
Mn (GBRCD.AL03DAV01_2.Mn): paleoData_measurementInstrument: NULL has
been replaced by ‘ArF excisor laser beam paired with Fisons PQII
Q-ICP-MS or Agilent 7500s Q-ICP-MS’
Mn (GBRCD.AL03DAV01_2.Mn): paleoData_measurementMethod: NULL has
been replaced by ‘LA-ICP-MS’
MnCa (GBRCD.AL03DAV01_2.MnCa): paleoData_measurementInstrument: NULL
has been replaced by ‘ArF excisor laser beam paired with Fisons PQII
Q-ICP-MS or Agilent 7500s Q-ICP-MS’
MnCa (GBRCD.AL03DAV01_2.MnCa): paleoData_measurementMethod: NULL has
been replaced by ‘LA-ICP-MS’
P (GBRCD.AL03DAV01_2.P): paleoData_measurementInstrument: NULL has
been replaced by ‘ArF excisor laser beam paired with Fisons PQII
Q-ICP-MS or Agilent 7500s Q-ICP-MS’
P (GBRCD.AL03DAV01_2.P): paleoData_measurementMethod: NULL has been
replaced by ‘LA-ICP-MS’
Y (GBRCD.AL03DAV01_2.Y): paleoData_measurementInstrument: NULL has
been replaced by ‘ArF excisor laser beam paired with Fisons PQII
Q-ICP-MS or Agilent 7500s Q-ICP-MS’
Y (GBRCD.AL03DAV01_2.Y): paleoData_measurementMethod: NULL has been
replaced by ‘LA-ICP-MS’
Version: 1.0.1
lastVersion: 1.0.0
curator: nicholas
timestamp: 2024-02-16 22:33:34 UTC
changes:
Paleo Interpretation metadata:
Ba (GBRCD.AL03DAV01_2.Ba): interpretation1_scope: NULL has been
replaced by ‘climate’
BaCa (GBRCD.AL03DAV01_2.BaCa): interpretation1_scope: NULL has been
replaced by ‘climate’
Cd (GBRCD.AL03DAV01_2.Cd): interpretation1_scope: NULL has been
replaced by ‘climate’
Distance (GBRCD.AL03DAV01_2.Distance): interpretation1_scope: NULL
has been replaced by ‘climate’
Mn (GBRCD.AL03DAV01_2.Mn): interpretation1_scope: NULL has been
replaced by ‘climate’
MnCa (GBRCD.AL03DAV01_2.MnCa): interpretation1_scope: NULL has been
replaced by ‘climate’
P (GBRCD.AL03DAV01_2.P): interpretation1_scope: NULL has been
replaced by ‘climate’
Y (GBRCD.AL03DAV01_2.Y): interpretation1_scope: NULL has been
replaced by ‘climate’