期刊
GEOCHIMICA ET COSMOCHIMICA ACTA
卷 202, 期 -, 页码 77-100出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.gca.2016.12.032
关键词
Weathering; Mg isotopes; Mg cycle; Critical zone; LCZO; Puerto Rico
资金
- Consejo Nacional de Ciencia y Tecnologia (Conacyt)
- NSF-Luquillo Critical Zone Observatory [NSF EAR-0722476, EAR-1331841]
- European Commission
- NERC [NE/I020571/2]
- Division Of Earth Sciences
- Directorate For Geosciences [1331841] Funding Source: National Science Foundation
- Natural Environment Research Council [1239304, NE/I020571/2] Funding Source: researchfish
- NERC [NE/I020571/2] Funding Source: UKRI
In order to assess the effects of critical zone processes on Mg concentrations and isotopic signatures of tropical streams, we studied a well constrained, highly weathered andesitic volcaniclastic catchment in the Luquillo Critical Zone Observatory, Puerto Rico. Our results indicate that dissolved Mg concentrations and isotope ratios in the regolith pore water are mainly controlled by rain input, with weathering inputs being more important at sites with thinner regolith (2.7-0.9 m deep) and at depth (>8 m) on a thick ridgetop regolith (similar to 10 m). In addition to mixing of precipitation and weathering-sourced Mg, an isotopic fractionation process is taking place between dissolved Mg and the regolith, likely during dissolution or recrystallisation of Fe(III)-(hydro) oxides under alternating redox conditions. Bulk regolith is isotopically heavier than both the bedrock and the exchangeable fraction (delta Mg-26(regolith-bedrock) = +0.03 to +0.47 parts per thousand), consistent with the preferential incorporation of heavy (26) Mg into secondary minerals with some exchange of sorbed Mg with isotopically lighter pore water. Magnesium concentrations in the stream show a typical dilution behaviour during a storm event, but the [Mg] - delta Mg-26 pattern cannot be explained by mixing of rain and pore water; the data are best explained by a steady-state fractionation model with alpha = 1.00115. During baseflow the stream has delta Mg-26 = +0.01 parts per thousand, higher than any of the water samples or the bedrock. In-situ analysis of the Mg isotopic composition of bedrock minerals points at the dissolution of Mg-rich chlorite (delta Mg-26 = +0.19 parts per thousand) as the most likely source of this isotopically heavy Mg, with mass balance calculations indicating chlorite dissolution is also the main source of Mg to the stream. Overall, our study highlights the importance of atmospheric input of nutrients to the vegetation in tropical areas covered by thick, highly leached regolith, whereas the Mg flux and Mg isotopic signature of watershed exports are dominated by bedrock dissolution delivered to the stream through deeper, usually un-sampled critical zone pathways. (C) 2017 Elsevier Ltd. All rights reserved.
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