What do relationships between extractable metals and soil organic carbon concentrations mean?
Aluminum (Al)‐bearing and iron (Fe)‐bearing minerals, especially short‐range‐ordered (SRO) phases, are thought to protect soil organic C (SOC). However, it remains methodologically challenging to assess the influence of Al vs. Fe minerals or metal complexes. Whereas SRO Al and Fe phases share some p...
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Veröffentlicht in: | Soil Science Society of America journal 2022-03, Vol.86 (2), p.195-208 |
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Sprache: | eng |
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Zusammenfassung: | Aluminum (Al)‐bearing and iron (Fe)‐bearing minerals, especially short‐range‐ordered (SRO) phases, are thought to protect soil organic C (SOC). However, it remains methodologically challenging to assess the influence of Al vs. Fe minerals or metal complexes. Whereas SRO Al and Fe phases share some properties, Al dissolved by oxalate (Alox) often correlates stronger with SOC than Fe dissolved by oxalate (Feox) or citrate–dithionite (Fecd). To further evaluate these relationships, we analyzed a large North American soil dataset from the National Ecological Observatory Network. A strong relationship between Alox and SOC (and weaker Feox‐SOC relationship) persisted even after excluding soils rich in SRO minerals (Andisols and Spodosols). Al dissolved by oxalate was strongly correlated with citrate–dithionite‐extractable Al (Alcd; slope = 0.92, R2 = .69), and discrepancies could be explained (R2 = .87) by greater dissolution of Al‐substituted Fe phases by citrate–dithionite and greater dissolution of aluminosilicates by oxalate. Aluminum dissolved by oxalate and Alcd were both strong SOC predictors despite their differing relationships with silicon (Si). Al dissolved by oxalate and Siox strongly covaried (R2 = .79), but Alcd was inconsistently related to Sicd (R2 = .18). Similar relationships of Alox and Alcd with SOC, despite differences in minerals extracted by oxalate and citrate–dithionite, suggest that Al‐OC complexes (as opposed to aluminosilicate or iron‐bearing minerals) were the best SOC predictor. This raises important questions: do Al‐OC complexes indicate protection from decomposition or simply reflect greater intensity of mineral weathering by organic acids; and, if the latter, then perhaps SOC input is driving Alox and SOC correlations rather than Al phase composition or abundance.
Core Ideas
SOC from NEON sites increased more with oxalate‐extractable Al (Alox) than with oxalate‐extractable Fe.
SOC/Alox relationships persisted across chemically diverse soils.
Alox was often similar to citrate–dithionite‐extractable Al in NEON soils, suggesting organo‐Al complexes.
SOC may be controlling Alox content as well as responding to it. |
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ISSN: | 0361-5995 1435-0661 |
DOI: | 10.1002/saj2.20343 |