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Auteurs principaux: Yang, Chengfan, Yang, Shouye, Su, Ni
Format: Dataset Open Access
Langue:en
Publié: PANGAEA 2017
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Accès en ligne:https://doi.org/10.1594/PANGAEA.881856
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author Yang, Chengfan
Yang, Shouye
Su, Ni
author_facet Yang, Chengfan
Yang, Shouye
Su, Ni
collection Datos científicos de ciencias marinas y ambientales
contents Chemical weathering plays a key role in the long-term climate change and global biogeochemical cycle. In this study, a 5.1 m-long basalt-developed weathering profile from Hunan Province, China, was selected for the analyses of major elements, grain size, pH, total organic carbon, thermogravimetric (TG) and differential thermogravimetric properties (DTG), as well as stable isotopes (dD and d18O) in mineral-bound waters. The major purpose is to distinguish different types of mineral-bound water and to verify whether hydrogen and oxygen isotopes of mineral-bound water can indicate chemical weathering intensity. Based on the TG and DTG results, different types of mineral-bound water were extracted by a sequential heating extraction technique (40-120 °C, 120-300 °C, 300-600 °C and 600-900 °C). The mineral-bound water lost below 120 °C is absorbed water, a mixture of interlayer and crystal waters occurs at 120-300 °C, and above 300 °C is mostly constitution water. Hydrogen and oxygen isotopic ratios at top ~ 2 m are subject to the influences of eolian and pedogenic processes. The absorbed water has been exchanged and reached isotopic equilibrium with ambient soil water, while the crystal water and interlayer water cannot be separated by heating method in this study. Hydrogen and oxygen isotopes of constitution water can indicate chemical weathering, showing positive relationships with weathering intensity. Although the mechanism for their indication to chemical weathering remains further investigation, we suggest that the isotopic fractionation between the formation of clay minerals and surface water should be taken into account. This research sheds new light on mineral-bound water phase and a potential proxy for tracing the process of chemical weathering.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_881856
institution PANGAEA
language en
publishDate 2017
publisher PANGAEA
record_format pangaea
spellingShingle (Table 1) Chemical analysis, water and stable isotopic compositions of different temperature intervals in the basalt weathering profile near Hunan Province, China
Yang, Chengfan
Yang, Shouye
Su, Ni
Aluminium oxide; Calcium oxide; Carbon, organic, total; China; Clay minerals; DEPTH, soil; HAND; Horizon; Hunan_Province; Iron oxide, Fe2O3; Magnesium oxide; pH; Potassium oxide; Sample ID; Sampling by hand; Silicon dioxide; Sodium oxide; Standard deviation; Water in rock; δ18O
Chemical weathering plays a key role in the long-term climate change and global biogeochemical cycle. In this study, a 5.1 m-long basalt-developed weathering profile from Hunan Province, China, was selected for the analyses of major elements, grain size, pH, total organic carbon, thermogravimetric (TG) and differential thermogravimetric properties (DTG), as well as stable isotopes (dD and d18O) in mineral-bound waters. The major purpose is to distinguish different types of mineral-bound water and to verify whether hydrogen and oxygen isotopes of mineral-bound water can indicate chemical weathering intensity. Based on the TG and DTG results, different types of mineral-bound water were extracted by a sequential heating extraction technique (40-120 °C, 120-300 °C, 300-600 °C and 600-900 °C). The mineral-bound water lost below 120 °C is absorbed water, a mixture of interlayer and crystal waters occurs at 120-300 °C, and above 300 °C is mostly constitution water. Hydrogen and oxygen isotopic ratios at top ~ 2 m are subject to the influences of eolian and pedogenic processes. The absorbed water has been exchanged and reached isotopic equilibrium with ambient soil water, while the crystal water and interlayer water cannot be separated by heating method in this study. Hydrogen and oxygen isotopes of constitution water can indicate chemical weathering, showing positive relationships with weathering intensity. Although the mechanism for their indication to chemical weathering remains further investigation, we suggest that the isotopic fractionation between the formation of clay minerals and surface water should be taken into account. This research sheds new light on mineral-bound water phase and a potential proxy for tracing the process of chemical weathering.
title (Table 1) Chemical analysis, water and stable isotopic compositions of different temperature intervals in the basalt weathering profile near Hunan Province, China
topic Aluminium oxide; Calcium oxide; Carbon, organic, total; China; Clay minerals; DEPTH, soil; HAND; Horizon; Hunan_Province; Iron oxide, Fe2O3; Magnesium oxide; pH; Potassium oxide; Sample ID; Sampling by hand; Silicon dioxide; Sodium oxide; Standard deviation; Water in rock; δ18O
url https://doi.org/10.1594/PANGAEA.881856