From 65f7a28bc5c8f1f9b25d4337ecf790216a6690d7 Mon Sep 17 00:00:00 2001 From: "Marco A. Lopez-Sanchez" Date: Wed, 5 Jun 2024 22:07:02 +0200 Subject: [PATCH] Create piezometric_database_ver2.yaml --- .../piezometric_database_ver2.yaml | 205 ++++++++++++++++++ 1 file changed, 205 insertions(+) create mode 100644 grain_size_tools/piezometric_database_ver2.yaml diff --git a/grain_size_tools/piezometric_database_ver2.yaml b/grain_size_tools/piezometric_database_ver2.yaml new file mode 100644 index 0000000..c8940a9 --- /dev/null +++ b/grain_size_tools/piezometric_database_ver2.yaml @@ -0,0 +1,205 @@ +# =================================================================== # +# Save this file in the same directory as GrainSizeTools # +# =================================================================== # + +--- +database_version: 2024.05.21 + +metadata: + author: Marco A. Lopez-Sanchez + contact_email: marcoalopez (at) outlook.com + description: Piezometric database from GrainSizeTools script + created_at: 2024-05-21 + license: Open Database License (ODbL) - version 1.0 + usage_terms: https://opendatacommons.org/licenses/odbl/summary/ + contributors: + +data: +## quartz piezometers ###################################################################### + quartz: + Stipp_Tullis: + year: 2003 + reference: https://doi.org/10.1029/2003GL018444 + B: 669.0 + m: 0.79 + warn: Please ensure that you have entered the apparent grain size as the root mean square (RMS). + linear_intercepts: false + correction_factor: false + notes: Only applies to recrystallization regimes 2 and 3 (SGR, GBM) + + Stipp_Tullis_BLG: + year: 2003 + reference: https://doi.org/10.1029/2003GL018444 + B: 1264.1 + m: 1.64 + warn: Please ensure that you have entered the apparent grain size as the root mean square (RMS). + linear_intercepts: false + correction_factor: false + notes: Only applies to recrystallization regime 1 (BLG) + + Holyoke: + year: 2010 + reference: https://doi.org/10.1016/j.tecto.2010.08.001 + B: 490.3 + m: 0.79 + warn: Please ensure that you have entered the apparent grain size as the root mean square (RMS). + linear_intercepts: false + correction_factor: false + notes: Only applies to recrystallization regimes 2 and 3 (SGR, GBM) + + Holyoke_BLG: + year: 2010 + reference: https://doi.org/10.1016/j.tecto.2010.08.001 + B: 883.9 + m: 1.85 + warn: Please ensure that you have entered the apparent grain size as the root mean square (RMS). + linear_intercepts: false + correction_factor: false + notes: Only applies to recrystallization regimes 2 and 3 (SGR, GBM) + + Cross: + year: 2017 + reference: https://doi.org/10.1002/2017GL073836 + B: 593.0 + m: 0.71 + warn: Please ensure that you have entered the apparent grain size as the root mean square (RMS). + linear_intercepts: false + correction_factor: false + notes: None + + Cross_HR: + year: 2017 + reference: https://doi.org/10.1002/2017GL073836 + B: 450.9 + m: 0.63 + warn: Please ensure that you have entered the apparent grain size as the root mean square (RMS). + linear_intercepts: false + correction_factor: false + notes: None + + Shimizu: + year: 2008 + reference: https://doi.org/10.1016/j.jsg.2008.03.004 + B: 352.0 + m: 0.8 + warn: Please ensure that you have entered the apparent grain size as the median in log (base e) scale. + linear_intercepts: false + correction_factor: false + notes: | + The Shimizu (2008) piezometer requires entering the grain size as the + logarithm of the median apparent grain size calculated using equivalent + circular diameters with no stereological correction. It uses a different + piezometer model to the Twiss model in which the stress estimation is + temperature-dependent. + + Twiss: + year: 1977 + reference: https://www.doi.org/10.1007/BF01637105 + B: 550.0 + m: 0.68 + warn: Please ensure that you have entered the apparent grain size as the arithmetic mean grain size. + linear_intercepts: false + correction_factor: 1.5 + notes: | + Twiss (1977) piezometer was calibrated using the linear intercepts (LI) multiplied + by 1.5 (correction factor). Equivalent circular diameters (ECD) without stereological + correction must be converted to LIs using the empirical equation of De Hoff and + Rhines (1968) as follows LI = (1.5 / sqrt(4/pi)) * ECD + +## olivine piezometers ###################################################################### + olivine: + VanderWal_wet: + year: 1993 + reference: https://doi.org/10.1029/93GL01382 + B: 1355.4 + m: 0.75 + warn: Please ensure that you have entered the apparent grain size as the arithmetic mean in linear scale. + linear_intercepts: true + correction_factor: 1.5 + notes: | + The Van der Wal (1993) piezometer was calibrated using the linear intercept (LI) grain size + multiplied by 1.5 (correction factor). ECDs without stereological correction will be converted + to LIs using the empirical equation of De Hoff and Rhines (1968) LI = (1.5 / sqrt(4/pi)) * ECD + + Jung_Karato: + year: 2001 + reference: https://doi.org/10.1016/S0191-8141(01)00005-0 + B: 5461.03 + m: 0.85 + warn: Please ensure that you have entered the apparent grain size as the arithmetic mean in linear scale. + linear_intercepts: true + correction_factor: 1.5 + notes: | + The Jung & Karato (2001) piezometer was calibrated using the linear intercept (LI) grain size + multiplied by 1.5 (correction factor). ECDs without stereological correction will be converted + to LIs using the empirical equation of De Hoff and Rhines (1968) LI = (1.5 / sqrt(4/pi)) * ECD + +## calcite piezometers ###################################################################### + calcite: + Rutter_SGR: + year: 1995 + reference: https://doi.org/10.1029/95JB02500 + B: 812.83 + m: 0.88 + warn: Please ensure that you have entered the apparent grain size as the arithmetic mean in linear scale. + linear_intercepts: false + correction_factor: false + notes: Only applies to subgrain rotation recrystallization + + Rutter_GBM: + year: 1995 + reference: https://doi.org/10.1029/95JB02500 + B: 2691.53 + m: 0.89 + warn: Please ensure that you have entered the apparent grain size as the arithmetic mean in linear scale. + linear_intercepts: false + correction_factor: false + notes: Only applies to grain boundary migration recrystallization + + Barnhoorn: + year: 2003 + reference: https://doi.org/10.1016/j.jsg.2003.11.024 + B: 537.03 + m: 0.82 + warn: Please ensure that you have entered the apparent grain size as the arithmetic mean in linear scale. + linear_intercepts: false + correction_factor: false + notes: None + + Platt_Bresser: + year: 2017 + reference: https://doi.org/10.1016/j.jsg.2017.10.012 + B: 538.40 + m: 0.82 + warn: Please ensure that you have entered the apparent grain size as the root mean square (RMS) in linear scale. + linear_intercepts: false + correction_factor: false + notes: | + Contrary to other calcite piezometers, this one was calibrated using the RMS mean + instead of the arithmetic mean. + + Valcke: + year: 2015 + reference: https://doi.org/10.1144/SP409.4 + B: 1467.92 + m: 1.67 + warn: Please ensure that you have entered the apparent grain size the arithmetic mean in linear scale. + linear_intercepts: false + correction_factor: false + notes: None + +## feldspar piezometers ##################################################################### + feldspar: # feldspar piezometers + Post_Tullis_BLG: + year: 1999 + reference: https://doi.org/10.1016/S0040-1951(98)00260-1 + B: 433.4 + m: 1.52 + warn: Please ensure that you have entered the apparent grain size as the median in linear scale. + linear_intercepts: true + correction_factor: false + notes: | + The Post and Tullis (1999) piezometer was calibrated using the median of the + equivalent circular diameters (ECD) grain size with no stereological correction. + +## End of file ##############################################################################