[CHNOSZ-commits] r912 - in pkg/CHNOSZ: . inst inst/extdata/OBIGT inst/extdata/OBIGT/testing inst/extdata/thermo inst/tinytest vignettes

Sun Jun 1 05:29:58 CEST 2025

Author: jedick
Date: 2025-06-01 05:29:57 +0200 (Sun, 01 Jun 2025)
New Revision: 912

Modified:
   pkg/CHNOSZ/DESCRIPTION
   pkg/CHNOSZ/inst/NEWS.Rd
   pkg/CHNOSZ/inst/extdata/OBIGT/inorganic_aq.csv
   pkg/CHNOSZ/inst/extdata/OBIGT/testing/GA.csv
   pkg/CHNOSZ/inst/extdata/thermo/refs.csv
   pkg/CHNOSZ/inst/extdata/thermo/stoich.csv.xz
   pkg/CHNOSZ/inst/tinytest/test-subcrt.R
   pkg/CHNOSZ/vignettes/FAQ.Rmd
   pkg/CHNOSZ/vignettes/OBIGT.Rmd
   pkg/CHNOSZ/vignettes/OBIGT.bib
Log:
Add yttrium fluoride complexes from Loges et al. (2013)


Modified: pkg/CHNOSZ/DESCRIPTION
===================================================================

--- pkg/CHNOSZ/DESCRIPTION	2025-06-01 00:37:55 UTC (rev 911)
+++ pkg/CHNOSZ/DESCRIPTION	2025-06-01 03:29:57 UTC (rev 912)
@@ -1,6 +1,6 @@
 Date: 2025-06-01
 Package: CHNOSZ
-Version: 2.1.0-83
+Version: 2.1.0-84
 Title: Thermodynamic Calculations and Diagrams for Geochemistry
 Authors at R: c(
     person("Jeffrey", "Dick", , "j3ffdick at gmail.com", role = c("aut", "cre"),

Modified: pkg/CHNOSZ/inst/NEWS.Rd
===================================================================
--- pkg/CHNOSZ/inst/NEWS.Rd	2025-06-01 00:37:55 UTC (rev 911)
+++ pkg/CHNOSZ/inst/NEWS.Rd	2025-06-01 03:29:57 UTC (rev 912)
@@ -15,13 +15,13 @@
 \newcommand{\Cp}{\ifelse{latex}{\eqn{C_P}}{\ifelse{html}{\out{<I>C<sub>P</sub></I>}}{Cp}}}
 \newcommand{\DG0}{\ifelse{latex}{\eqn{{\Delta}G^{\circ}}}{\ifelse{html}{\out{Δ<I>G</I>°}}{ΔG°}}}
 
-\section{Changes in CHNOSZ version 2.1.0-83 (2025-06-01)}{
+\section{Changes in CHNOSZ version 2.1.0-84 (2025-06-01)}{
 
   \subsection{OBIGT DATABASE FORMAT}{
     \itemize{
 
       \item Mineral species whose \code{T} value is a Cp equation limit or
-      phase stability limit are indicated by \samp{CGL} or \samp{CGL_Ttr},
+      phase transition temperature are indicated by \samp{CGL} or \samp{CGL_Ttr},
       respectively, in \code{model}. At conditions above the \code{T} limit,
       \code{subcrt()} extrapolates values and produces a warning for \samp{CGL}
       species or returns NA values for \samp{CGL_Ttr} species. The addition of
@@ -45,7 +45,7 @@
       and related U-bearing minerals from
       \href{https://doi.org/10.1787/bf86a907-en}{Grenthe et al. (2020)}. Move
       aqueous uranium species from
-      \href{https://doi.org/10.1016/S0016-7037(97)00240-8}{Shock et al.
+      \href{https://doi.org/10.1016/S0016-7037(97)00240-8}{Shock, Sassani and Betz
         (1997)} (except for HUO\s{4}\S{-}) to optional data.
 
       \item Add alkylamines, benzylamines, and aminiums from
@@ -58,6 +58,9 @@
       \item Add REE minerals from the compilation of
       \href{https://doi.org/10.1016/j.chemgeo.2016.06.005}{Migdisov et al.
         (2016)} with modifications.
+      
+      \item Add yttrium fluoride complexes (YF\S{+2} and YF\s{2}\S{+}) from
+      \href{https://doi.org/10.1016/j.gca.2013.07.031}{Loges et al. (2013)}.
 
       \item Add REE fluoride and chloride complexes from
       \href{https://doi.org/10.1016/j.gca.2009.08.023}{Migdisov et al. (2009)}
@@ -66,7 +69,10 @@
         (1995)} to optional data.
 
       \item Add chromite (FeCr\s{2}O\s{4}) and cassiterite (SnO\s{2}) from
-      \href{https://doi.org/10.3133/b2131}{Robie and Hemingway (1995)}.
+      \href{https://doi.org/10.3133/b2131}{Robie and Hemingway (1995)}. Move
+      cassiterite from
+      \href{https://doi.org/10.2113/gsecongeo.80.5.1365}{Jackson and Helgeson
+        (1985)} to optional data.
 
       \item Move americium complexes from optional to default data. Entropy of
       the element Am has been available for checking GHS self-consistency since

Modified: pkg/CHNOSZ/inst/extdata/OBIGT/inorganic_aq.csv
===================================================================
--- pkg/CHNOSZ/inst/extdata/OBIGT/inorganic_aq.csv	2025-06-01 00:37:55 UTC (rev 911)
+++ pkg/CHNOSZ/inst/extdata/OBIGT/inorganic_aq.csv	2025-06-01 03:29:57 UTC (rev 912)
@@ -713,3 +713,5 @@
 SnCl3-,SnCl3-,SnCl3-,aq,LYX23,NA,2025-01-05,HKF,cal,-103547,-121668,47.0481,4.2091,68.0292,11.3814,20.0081,-2.1139,-3.6061,17.0106,-2.1772,0.9093,-1
 Pd(HS)4-2,Pd(HS)4-2,Pd(HS)4-2,aq,LBP24,NA,2025-02-15,HKF,cal,-11724,NA,52.919,-3.05,125.4,19.729,40.39,-10.1248,-4.4487,-6.481,12.5693,2.4,-2
 Pt(HS)4-2,Pt(HS)4-2,Pt(HS)4-2,aq,LBP24,NA,2025-02-15,HKF,cal,-14980,NA,45.303,48.502,126.9,19.9782,40.9985,-10.364,-4.4739,50.4082,10.5321,2.53,-2
+YF+2,YF+2,YF+2,aq,LMW+13,NA,2025-06-01,HKF,cal,-237220,NA,-33.37,55.17,-31.65,-1.9638,-12.5762,10.6931,-2.2591,53.0391,8.2035,1.5936,2
+YF2+,YF2+,YF2+,aq,LMW+13,NA,2025-06-01,HKF,cal,-308470,NA,-14.33,108.105,-28.19,-1.8049,-12.1883,10.5407,-2.2751,76.4665,18.9864,0.7611,1

Modified: pkg/CHNOSZ/inst/extdata/OBIGT/testing/GA.csv
===================================================================
--- pkg/CHNOSZ/inst/extdata/OBIGT/testing/GA.csv	2025-06-01 00:37:55 UTC (rev 911)
+++ pkg/CHNOSZ/inst/extdata/OBIGT/testing/GA.csv	2025-06-01 03:29:57 UTC (rev 912)
@@ -26,7 +26,7 @@
 "GeO2 (hex)","GeO2 (hex)",GeO2,cr,PS98,NA,28.Nov.2019,CGL,cal,-119700,-132600,13.21,12.45,24.44,14.623,0.003296,-280500,0,0,0,0,1273
 argutite,"GeO2 (tetr)",GeO2,cr,PS98,NA,28.Nov.2019,CGL,cal,-124600,-138700,9.49,11.99,17.42,16.457,0.002178,-454900,0,0,0,0,1273
 "GeS (cr)","GeS (cr)",GeS,cr,OC95,NA,28.Nov.2019,CGL,J,-62276,-61195,66.93,47.77,25.53,45.6,0.0146,-197000,0,0,0,0,930
-"GeS2 (cr)","GeS2 (cr)",GeS2,cr,NRH74,NA,28.Nov.2019,CGL,cal,-44800,-45300,20.9,15.7,22.27,15.665,0.002624,-66401,0,0,0,0,1273
+"GeS2 (cr)","GeS2 (cr)",GeS2,cr,NRK74,NA,28.Nov.2019,CGL,cal,-44800,-45300,20.9,15.7,22.27,15.665,0.002624,-66401,0,0,0,0,1273
 "GeS2 (alpha)","GeS2 (alpha)",GeS2,cr,MMO+11,NA,28.Nov.2019,CGL,J,NA,-124683,87.935,66.191,22.27,-66.63,0.1597,-7672000,0,-5.18E-05,52240,-1,1116
 InCl+2,InCl+2,InCl+2,aq,BS23,NA,07.Jul.2023,HKF,cal,-58530.66,-65513.139,-38.803,44.059,-12.821,-2.446,6.363,-2.992,-3.042,47.137,5.94,1.644,2
 InCl2+,InCl2+,InCl2+,aq,BS23,NA,07.Jul.2023,HKF,cal,-92119.729,-107898.655,-26.056,84.938,12.449,-2.094,5.446,36.329,-3.004,64.639,14.267,0.944,1

Modified: pkg/CHNOSZ/inst/extdata/thermo/refs.csv
===================================================================
--- pkg/CHNOSZ/inst/extdata/thermo/refs.csv	2025-06-01 00:37:55 UTC (rev 911)
+++ pkg/CHNOSZ/inst/extdata/thermo/refs.csv	2025-06-01 03:29:57 UTC (rev 912)
@@ -4,7 +4,7 @@
 Kel60.3,"K. K. Kelley",1960,"U. S. Bureau of Mines Bull. 584","gypsum Cp",https://www.worldcat.org/oclc/693388901
 Pan70,"L. B. Pankratz",1970,"U. S. Bureau of Mines Report of Investigations 7430",chlorargyrite,https://www.worldcat.org/oclc/14154245
 PK70,"L. B. Pankratz and E. G. King",1970,"U. S. Bureau of Mines Report of Investigations 7435","bornite and chalcopyrite",https://www.worldcat.org/oclc/14154292
-NRH74,"Naumov, G. B., Ryzhenko, B. N., & Khodakovsky, I. L.",1974,"Handbook of Thermodynamic Data (U.S. Geol. Surv.)","GeS<sub>2</sub>",https://www.worldcat.org/oclc/8139446
+NRK74,"Naumov, G. B., Ryzhenko, B. N., & Khodakovsky, I. L.",1974,"Handbook of Thermodynamic Data (U.S. Geol. Surv.)",GeS<sub>2</sub>,https://www.worldcat.org/oclc/8139446
 RH72,"R. A. Robie and B. S. Hemingway",1972,"Am. Mineral. 57, 1768-1781","nesquehonite Cp",https://pubs.geoscienceworld.org/msa/ammin/article-pdf/57/11-12/1768/4256711/am-1972-1768.pdf
 BKK77,"I. Barin, O. Knacke and O. Kubaschewski",1977,"Thermochemical Properties of Inorganic Substances: Supplement","willemite Cp",https://www.worldcat.org/oclc/695258
 BKK77.1,"I. Barin, O. Knacke and O. Kubaschewski",1977,"Thermochemical Properties of Inorganic Substances: Supplement","Ga<sub>2</sub>S<sub>3</sub> and In<sub>2</sub>(SO<sub>4</sub>)<sub>3</sub>",https://www.worldcat.org/oclc/695258
@@ -60,7 +60,7 @@
 SM93,"E. L. Shock and W. B. McKinnon",1993,"Icarus 106, 464-477","CO, HCN, urea",https://doi.org/10.1006/icar.1993.1185
 SS93,"M. D. Schulte and E. L. Shock",1993,"Geochim. Cosmochim. Acta 57, 3835-3846",aldehydes,https://doi.org/10.1016/0016-7037(93)90337-V
 HDM+94,"A. W. Hakin et al.",1994,"J. Chem. Soc., Faraday Trans. 90, 2027-2035","glutamic acid",https://doi.org/10.1039/FT9949002027
-OC95,"P. A. G. O'Hare and L. A. Curtiss",1995,"J. Chem. Thermodynamics 27, 643-662","GeS",https://doi.org/10.1006/jcht.1995.0066
+OC95,"P. A. G. O'Hare and L. A. Curtiss",1995,"J. Chem. Thermodynamics 27, 643-662",GeS,https://doi.org/10.1006/jcht.1995.0066
 HSS95,"J. R. Haas, E. L. Shock and D. C. Sassani",1995,"Geochim. Cosmochim. Acta 59, 4329-4350","complexes of rare earth elements",https://doi.org/10.1016/0016-7037(95)00314-P
 PH95,"V. A. Pokrovskii and H. C. Helgeson",1995,"Am. J. Sci. 295, 1255-1342","aluminum species",https://doi.org/10.2475/ajs.295.10.1255
 PK95,"V. B. Parker and I. L. Khodakovskii",1995,"J. Phys. Chem. Ref. Data 24, 1699-1745",melanterite,https://doi.org/10.1063/1.555964
@@ -71,7 +71,7 @@
 RH95.4,"R. A. Robie and B. S. Hemingway",1995,"U. S. Geological Survey Bull. 2131","fluorphlogopite (Al/Si disordered) (G and H not in SUPCRT92)",https://doi.org/10.3133/b2131
 RH95.5,"R. A. Robie and B. S. Hemingway",1995,"U. S. Geological Survey Bull. 2131","larnite (G and H not in SUPCRT92); Cp from @Kel60",https://doi.org/10.3133/b2131
 RH95.6,"R. A. Robie and B. S. Hemingway",1995,"U. S. Geological Survey Bull. 2131","bromellite (melting temperature and G and H not in SUPCRT92)",https://doi.org/10.3133/b2131
-RH95.7,"R. A. Robie and B. S. Hemingway",1995,"U. S. Geological Survey Bull. 2131","phase stability limit",https://doi.org/10.3133/b2131
+RH95.7,"R. A. Robie and B. S. Hemingway",1995,"U. S. Geological Survey Bull. 2131","phase transition temperature",https://doi.org/10.3133/b2131
 RH95.8,"R. A. Robie and B. S. Hemingway",1995,"U. S. Geological Survey Bull. 2131","brucite V",https://doi.org/10.3133/b2131
 RH95.9,"R. A. Robie and B. S. Hemingway",1995,"U. S. Geological Survey Bull. 2131","germanium, cadmium, and greenockite (CdS)",https://doi.org/10.3133/b2131
 SK95,"E. L. Shock and C. M. Koretsky",1995,"Geochim. Cosmochim. Acta 59, 1497-1532","metal-organic acid complexes",https://doi.org/10.1016/0016-7037(95)00058-8
@@ -202,6 +202,7 @@
 LD12.2,"D. E. LaRowe and J. M. Dick",2012,"Geochim. Cosmochim. Acta 80, 70-91","methionine GHS",https://doi.org/10.1016/j.gca.2011.11.041
 LD12.3,"D. E. LaRowe and J. M. Dick",2012,"Geochim. Cosmochim. Acta 80, 70-91","methionine sidechain GHS",https://doi.org/10.1016/j.gca.2011.11.041
 DEH+13,"J. M. Dick, K. A. Evans et al.",2013,"Geochim. Cosmochim. Acta 122, 247-266","phenanthrene and methylphenanthrene isomers",https://doi.org/10.1016/j.gca.2013.08.020
+LMW+13,"A. Loges, A. A. Migdisov et al.",2013,"Geochim. Cosmochim. Acta 123, 403-415","YF<sup>+2</sup> and YF<sub>2</sub><sup>+</sup>",https://doi.org/10.1016/j.gca.2013.07.031
 SBS13,"A. Stefánsson, P. Benézéth and J. Schott",2013,"Geochim. Cosmochim. Acta 120, 600-611",NaCO<sub>3</sub><sup>-</sup>,https://doi.org/10.1016/j.gca.2013.04.023
 TBZ+13,"B. R. Tagirov et al.",2013,"Geochim. Cosmochim. Acta 117, 348-373","Pd<sup>+2</sup> and complexes",https://doi.org/10.1016/j.gca.2013.03.047
 AP14,"N. N. Akinfiev and A. V. Plyasunov",2014,"Geochim. Cosmochim. Acta 126, 338-351","B(OH)<sub>3</sub>, Si(OH)<sub>4</sub>, and As(OH)<sub>3</sub>",https://doi.org/10.1016/j.gca.2013.11.013

Modified: pkg/CHNOSZ/inst/extdata/thermo/stoich.csv.xz
===================================================================
(Binary files differ)

Modified: pkg/CHNOSZ/inst/tinytest/test-subcrt.R
===================================================================
--- pkg/CHNOSZ/inst/tinytest/test-subcrt.R	2025-06-01 00:37:55 UTC (rev 911)
+++ pkg/CHNOSZ/inst/tinytest/test-subcrt.R	2025-06-01 03:29:57 UTC (rev 912)
@@ -42,11 +42,11 @@
 # Clean up
 water(oldwat)
 
-info <- "Phase stability limits give expected results"
+info <- "Phase transition temperatures give expected results"
 expect_message(subcrt("gold", T = c(1300, 1350), P = 1, convert = FALSE), "subcrt: setting G to NA for gold\\(cr\\)", info = info)
 # The reaction coefficients in the output should be unchanged 20171214
 expect_equal(subcrt(c("bunsenite", "nickel", "oxygen"), c(-1, 1, 0.5))$reaction$coeff, c(-1, 1, 0.5), info = info) 
-# Properties are NA only above (not at) the temperature limit for phase stability 20191111
+# Properties are NA only above (not at) the phase transition temperature 20191111
 sout <- subcrt("covellite", T = seq(780, 781, 0.5), P = 1, convert = FALSE)$out[[1]]
 expect_equal(is.na(sout$G), c(FALSE, FALSE, TRUE), info = info)
 

Modified: pkg/CHNOSZ/vignettes/FAQ.Rmd
===================================================================
--- pkg/CHNOSZ/vignettes/FAQ.Rmd	2025-06-01 00:37:55 UTC (rev 911)
+++ pkg/CHNOSZ/vignettes/FAQ.Rmd	2025-06-01 03:29:57 UTC (rev 912)
@@ -687,7 +687,7 @@
 The value in this column can be one of the following:
 
 1. The temperature of transition to the next polymorph of a mineral;
-2. For the highest-temperature (or only) polymorph, if `model == "CGL_Ttr"`, then `T` is the phase stability limit (e.g., the temperature of melting or decomposition of a solid or vaporization of a liquid);
+2. For the highest-temperature (or only) polymorph, if `model == "CGL_Ttr"`, then `T` is the phase transition temperature (e.g., the temperature of melting or decomposition of a solid or vaporization of a liquid);
 3. For the highest-temperature polymorph, if `model != "CGL_Ttr"`, then `T` is the `r Tmax` for the *C~p~* equation.
 
 These cases are handled by `subcrt()` as follows.
@@ -702,7 +702,7 @@
 Note: In both SUPCRT92 and OBIGT, tin, sulfur, and selenium are listed as minerals with one or more polymorphic transitions, but the highest-temperature polymorph actually represents the liquid state.
 Furthermore, quicksilver is listed as a mineral whose polymorphs actually correspond to the liquid and gaseous states.
 
-**2. For a phase stability limit, Δ*G*° is set to NA above the temperature limit:**
+**2. For a phase transition temperature, Δ*G*° is set to NA at higher temperatures:**
 
 ```{r pyrite_limit}
 subcrt("pyrite", T = seq(200, 1000, 200), P = 1)
@@ -709,7 +709,7 @@
 ```
 
 This feature is intended to make it harder to obtain potentially unreliable results at temperatures where a mineral, or organic solid or liquid, is not stable.
-If you want the extrapolated Δ*G*° above the listed phase stability limit, then add `exceed.Ttr = TRUE` to the call to `subcrt()`.
+If you want the extrapolated Δ*G*° above the listed phase transition temperature, then add `exceed.Ttr = TRUE` to the call to `subcrt()`.
 
 OBIGT has a non-exhaustive list of temperatures of melting, decomposition, or other phase change, some of which were taken from SUPCRT92 while others were taken from @RH95.
 These minerals are listed below:

Modified: pkg/CHNOSZ/vignettes/OBIGT.Rmd
===================================================================
--- pkg/CHNOSZ/vignettes/OBIGT.Rmd	2025-06-01 00:37:55 UTC (rev 911)
+++ pkg/CHNOSZ/vignettes/OBIGT.Rmd	2025-06-01 03:29:57 UTC (rev 912)
@@ -342,9 +342,10 @@
 
 <div id="D-optional-SUPCRT92" style="display: none">
 ## <a id="optional-SUPCRT92" class="anchor"></a> `r setfile("SUPCRT92.csv")`
-These minerals and aqueous species, taken from the SUPCRT92 database, were present in earlier versions of CHNOSZ but have since been superseded by @Ber88 (minerals) and @NA03 (H<sub>2</sub>AsO<sub>3</sub><sup>-</sup>).
+These minerals, taken from the SUPCRT92 database, were present in earlier versions of CHNOSZ but have since been superseded by data from @Ber88 (most minerals) or @RH95 (cassiterite).
 The thermodynamic properties and parameters are kept here as optional data for reproducing published calculations and making comparisons with newer data.
-The minerals here include all of the silicates and Al-bearing minerals from @HDNB78, as well as calcite, dolomite, hematite, and magnetite.
+The minerals here include all of the silicates and Al- and Ti-bearing minerals from @HDNB78, as well as calcite, dolomite, hematite, and magnetite.
+
 Use `add.OBIGT("SUPCRT92")` to load the data.
 
 **NOTE:** Other minerals from SUPCRT92, including native elements, sulfides, halides, sulfates, and selected carbonates and oxides that do not duplicate those in the Berman dataset, are still present in the default database (**inorganic_cr.csv**).
@@ -357,11 +358,11 @@
 <div id="D-optional-SLOP98" style="display: none">
 ## <a id="optional-SLOP98" class="anchor"></a> `r setfile("SLOP98.csv")`
 These species, whose parameters were listed in or are otherwise linked to slop98.dat (or later versions) and were present in earlier versions of CHNOSZ, have been replaced by or are incompatible with species currently in the default database.
-The references for the superseding data for aqueous complexes are as follows: Al [@TS01], As [@NA03], Au, Ag, and Cu [@AZ01; @AZ10], Pd [@TBZ+13], Zn [@AT14], Pt [@TBB15], Nb [@AKK+20], CoCl<sub>2</sub><sup>+</sup> [@LBT+11], U (except for HUO<sub>4</sub><sup>-</sup>) [@MBA+24], REE [@MWW09].
+The superseding data for aqueous species include: Al [@TS01], As [@NA03], Au, Ag, and Cu(I) [@AZ01; @AZ10], REE [@MWW09], Co [@LBT+11], Pd [@TBZ+13], Zn [@AT14], Pt [@TBB15], Nb [@AKK+20], U(IV) [@MBA+24].
 
 Use `add.OBIGT("SLOP98")` to load the data.
 
-**NOTE:** Many other species found in slop98.dat and later versions are still present in the default database.
+**NOTE:** Other species listed in slop98.dat and later versions are still present in the default database.
 
 ```{r optreflist, results="asis", echo=FALSE}
 ```
@@ -428,7 +429,7 @@
 
 <hr>
 
-<b>Total count of species</b>: References were found for `r length(used)` of `r nrow(thermo()$OBIGT)` species in the default OBIGT database and `r length(optused)` optional species.
+<b>Total count of species</b>: References were found for `r length(used)` of `r nrow(thermo()$OBIGT)` species in default data files and `r length(optused)` species in optional data files.
 
 # References
 

Modified: pkg/CHNOSZ/vignettes/OBIGT.bib
===================================================================
--- pkg/CHNOSZ/vignettes/OBIGT.bib	2025-06-01 00:37:55 UTC (rev 911)
+++ pkg/CHNOSZ/vignettes/OBIGT.bib	2025-06-01 03:29:57 UTC (rev 912)
@@ -1608,6 +1608,18 @@
   doi       = {10.1016/j.oregeorev.2019.103289},
 }
 
+ at Book{NRK74,
+  author    = {Naumov, Georgii Borisovich and Ryzhenko, Boris Nikolaevich and Khodakovsky, Igor L'vovich},
+  editor    = {Ivan Barnes and Velma Speltz},
+  publisher = {U.S. Geological Survey, Water Resources Division},
+  title     = {Handbook of Thermodynamic Data},
+  year      = {1974},
+  address   = {Menlo Park, Calif.},
+  note      = {Translated by George J. Soleimani},
+  number    = {PB-226 722/7GA},
+  url       = {https://www.worldcat.org/oclc/8139446},
+}
+
 @TechReport{Bla17,
   author      = {P. Blanc},
   institution = {Bureau de Recherches Géologiques et Minières},
@@ -2035,15 +2047,6 @@
   doi       = {10.1006/jcht.1995.0066},
 }
 
- at Book{NRH74,
-  author    = {Naumov, G. B. and Ryzhenko, B. N. and Khodakovsky, I. L.},
-  publisher = {U. S. Geol. Surv.},
-  title     = {Handbook of Thermodynamic Data},
-  year      = {1974},
-  address   = {Reston, VA},
-  url       = {https://www.worldcat.org/oclc/8139446},
-}
-
 @Article{LBP24,
   author    = {C. Laskar and E. F. Bazarkina and G. S. Pokrovski},
   journal   = {Geochimica et Cosmochimica Acta},
@@ -2107,3 +2110,13 @@
   volume    = {445},
   doi       = {10.1016/j.tca.2006.03.023},
 }
+
+ at Article{LMW+13,
+  author    = {Anselm Loges and Artas A. Migdisov and Thomas Wagner and Anthony E. Williams-Jones and Gregor Markl},
+  journal   = {Geochimica et Cosmochimica Acta},
+  title     = {An experimental study of the aqueous solubility and speciation of {Y(III)} fluoride at temperatures up to 250°{C}},
+  year      = {2013},
+  pages     = {403--415},
+  volume    = {123},
+  doi       = {10.1016/j.gca.2013.07.031},
+}

