Presentation and applications of mixing elements and dissolved isotopes in rivers (MEANDIR), a customizable MATLAB model for Monte Carlo inversion of dissolved river chemistry
Abstract
The dissolved chemistry of rivers has been extensively studied to elucidate physical and climatic controls of chemical weathering at local to global spatial scales, as well as the impacts of chemical weathering on climate over short to geologic temporal scales. Within this effort, mixing models with Monte Carlo uncertainty propagation are a common tool for inverting measurements of dissolved river chemistry to distinguish among contributions from end-members with distinct elemental and/or isotopic compositions. However, the methods underlying prior river inversion models have typically been opaque. Here we present Mixing Elements ANd Dissolved Isotopes in Rivers (MEANDIR), a set of MATLAB scripts that enable highly customizable inversion of dissolved river chemistry with Monte Carlo propagation of uncertainty. First, we present an overview of the mathematics underlying MEANDIR. This overview includes, among other topics, derivation of equations for mass balance, implementation of chlorine critical values, construction of cost functions, normalization to the sum of dissolved variables, quantification of river sulfate sourced from pyrite oxidation, resolution of petrogenic organic carbon oxidation, representation of secondary phase formation with isotopic fractionation, and calculation of the impact of weathering on atmospheric carbon dioxide. Second, we apply MEANDIR to five previously published datasets to demonstrate the sensitivity of results to parameter choices. We invert data from two global compilations of river chemistry (Gaillardet and others, 1999; Burke and others, 2018), the major element chemistry and sulfate sulfur isotope ratios of rivers in the Peruvian Amazon (Torres and others, 2016), the major element chemistry of Icelandic rivers (Gíslason and others, 1996), and the major and trace element chemistry of water samples from the Mackenzie River (Horan and others, 2019). MEANDIR and its user guide are freely available online.
Additional Information
© 2021 American Journal of Science. P.C.K. is supported by The Fannie and John Hertz Foundation Cohan/Jacobs and Stein Families Fellowship. M.A.T. gratefully acknowledges support from the Alfred. P. Sloan Foundation. Both authors thank J. Adkins for comments on an early draft of this article and A. Phillips for advice on the design of figures. We are grateful to J. Bouchez, A. Bufe, and an anonymous referee for thoughtful reviews. Code availability and data sources: Mixing Elements ANd Dissolved Isotopes in Rivers (MEANDIR) and its user guide are available at https://github.com/PrestonCosslettKemeny/MEANDIR. The data analyzed in this study come from table 1 of Gíslason and others, (1996), table 1 of Gaillardet and others (1999), the supplementary materials of Torres and others (2016) and Burke and others (2018), and table 2 of Horan and others (2019).Additional details
- Eprint ID
- 111602
- DOI
- 10.2475/05.2021.03
- Resolver ID
- CaltechAUTHORS:20211022-164134690
- Fannie and John Hertz Foundation
- Jacobs and Stein Families Fellowship
- Alfred P. Sloan Foundation
- Created
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2021-10-23Created from EPrint's datestamp field
- Updated
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2021-11-16Created from EPrint's last_modified field