ARCHIVED CONTENT: In December 2020, the CZO program was succeeded by the Critical Zone Collaborative Network (CZ Net) ×

Richardson et al., 2018

Talk/Poster

Examining the Role of Organic Compounds and Secondary Minerals on Ga/Al Fractionation in the Critical Zone

Justin B. Richardson*, Benjamin W. Kumpf, and Louis A. Derry (2018)
Abstract 12c:345 presented at 2018 Goldschmidt Meeting, Boston, MA 12-17 August  Cross-CZO

Abstract

Aluminum (Al) is a major component of primary and secondary minerals in the Critical Zone and is responsible for biogeochemical processes such soil acidification and stabilization of soil organic matter. Quantifying and tracing Al cycling has been limited because it is monoisotopic. Gallium (Ga) may be an effective geochemical tracer for Al because of their similar chemical properties. It is imperative to characterize the proceses that fractionatate Ga/Al ratios, particularly from organic compounds and secondary minerals.

To investigate the extent of Ga/Al fractionation during weathering and phase partitioning, we measured Ga and Al in regolith profiles ≥7 m profiles at six Critical Zone Observatoies: Boulder Creek, Calhoun, Luquillo, Southern Sierra, and Shale Hills. Contemporary climatic conditions and lithologies strongly varied among CZOs. Using a sequential extraction, we found organic + exchangeable Ga/Al ratios ranged between 0.002 – 0.013 mmol mol-1 and averaged 0.002 ± 0.001 mmol mol-1. Secondary oxyhydroxide Ga/Al
ratios ranged between 0.2 – 211.8 mmol mol-1 and averaged 7.3 ± 4.3 mmol mol-1. Thus, organic compounds preferentially retained Al while secondary oxyhydroxides preferentially accumualted Ga across CZOS.

To confirm the preferential complexation of Al relative to Ga, we conducted batch reactor weathering experiments using fresh rock from Luquillo CZO and a reference kaolinite. Based on obtained results, the effect of low molecular weight organic ligands such as citrate decreased Ga/Al below the average solid phase proportion of 0.10 mmol mol-1. However, The effect catechol showed minimal Al complexation, causing the Ga/Al to increase to 0.5 mol mol-1. We conclude that organic compounds can preferentially retain Al relative Ga, potentially leading to greater sorption or leaching of Al. Further investigations into Ga/Al ratios are warranted.

Citation

Justin B. Richardson*, Benjamin W. Kumpf, and Louis A. Derry (2018): Examining the Role of Organic Compounds and Secondary Minerals on Ga/Al Fractionation in the Critical Zone. Abstract 12c:345 presented at 2018 Goldschmidt Meeting, Boston, MA 12-17 August.

This Paper/Book acknowledges NSF CZO grant support.

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