Natural Laws Governing the Distribution of the Elements in Geochemistry: The Role of the Log‐Ratio Approach

[1]  C. Burnham,et al.  Partitioning of Chloride Between a Silicate Melt and Coexisting Aqueous Phase from 2 to 8 Kilobars , 1972 .

[2]  L. Ahrens The lognormal distribution of the elements (2) , 1954 .

[3]  Charles H. Langmuir,et al.  The chemical composition of subducting sediment and its consequences for the crust and mantle , 1998 .

[4]  G. Mateu-Figueras,et al.  Isometric Logratio Transformations for Compositional Data Analysis , 2003 .

[5]  L. Ahrens The lognormal distribution of the elements (A fundamental law of geochemistry and its subsidiary) , 1954 .

[6]  W. Giggenbach Chemical Composition of Volcanic Gases , 1996 .

[7]  Antonella Buccianti,et al.  Compositional changes in a fumarolic field, Vulcano Island, Italy: a statistical case study , 2006, Geological Society, London, Special Publications.

[8]  J. Aitchison Logratios and Natural Laws in Compositional Data Analysis , 1999 .

[9]  Antonella Buccianti,et al.  Hydrogeochemistry and strontium isotopes in the Arno River Basin (Tuscany, Italy): Constraints on natural controls by statistical modeling , 2008 .

[10]  R. Symonds,et al.  Magmatic gas scrubbing: implications for volcano monitoring , 2001 .

[11]  B. Dupré,et al.  Global silicate weathering and CO2 consumption rates deduced from the chemistry of large rivers , 1999 .

[12]  R. P. Chapman,et al.  Log transformations in geochemistry , 1977 .

[13]  Youxue Zhang,et al.  Noble gas constraints on the evolution of the Earth's atmosphere , 1989 .