论文降重
免费查重- 钛学术文献服务平台 \
- 学术期刊 \
- 基础科学期刊 \
- 天文学、地球科学期刊 \
- 地球化学学报(英文)期刊 \
Quantifying the carbon source of pedogenic calcite veins in weathered limestone: implications for th
Quantifying the carbon source of pedogenic calcite veins in weathered limestone: implications for th
原文服务方:
地球化学学报(英文)
摘要:
The continent is the second largest carbon sink on Earth's surface. With the diversification of vascular land plants in the late Paleozoic, terrestrial organic carbon burial is represented by massive coal formation, while the development of soil profiles would account for both organic and inorganic carbon burial. As compared with soil organic carbon, inorganic carbon burial, collectively known as the soil carbonate, would have a greater impact on the long-term carbon cycle. Soil carbonate would have multiple carbon sources, including dissolution of host calcareous rocks, dissolved inorganic carbon from freshwater, and oxidation of organic matter, but the host calcareous rock dissolution would not cause atmospheric CO2 drawdown. Thus, to evaluate the potential effect of soil carbonate formation on the atmospheric pCO2 level, different carbon sources of soil carbonate should be quantitatively differentiated. In this study, we analyzed the carbon and magnesium isotopes of pedogenic calcite veins developed in a heavily weathered outcrop, consisting of limestone of the early Paleogene Guanzhuang Group in North China. Based on the C and Mg isotope data, we developed a numerical model to quantify the carbon source of calcite veins. The modeling results indicate that 4-37 wt% of carbon in these calcite veins was derived from atmospheric CO2. The low contribution from atmospheric CO2 might be attributed to the host limestone that might have diluted the atmospheric CO2 sink. Nevertheless, taking this value into consideration, it is estimated that soil carbonate formation would lower 1 ppm atmospheric CO2 within 2000 years, i.e., soil carbonate alone would sequester all atmospheric CO2 within 1 million years. Finally, our study suggests the C-Mg isotope system might be a better tool in quantifying the carbon source of soil carbonate.
推荐文章
Heterogeneous Mg isotopic composition of the early Carboniferous limestone: implications for carbona
Seawater Mg isotopic composition
Limestone
Fossil
Micrite
Cement
Effects of river damming on biogenic silica turnover: implications for biogeochemical carbon and nut
River damming
Biogenic silica
Biogeochemical cycles
River ecosystem
Genesis and soil environmental implications of intact in-situ rhizoliths in dunes of the Badain Jara
Rhizoliths
Calcification
Leptic regosols
Artemisia roots
Decomposition
Soil moisture
Geochemistry of the Palaeo–Mesoproterozoic Tadpatri shales, Cuddapah basin, India: implications on p
Tadpatri
Provenance
Paleoweathering
Paleoredox
Geochemistry
内容分析
关键词云
关键词热度
相关文献总数
(/次)
(/年)
文献信息
| 篇名 | Quantifying the carbon source of pedogenic calcite veins in weathered limestone: implications for th | ||
| 来源期刊 | 学科 | 地球科学 | |
| 关键词 | Mg isotope Calcite veins Pedogenic carbonate Silicate weathering Carbonate weathering | ||
| 年,卷(期) | 2022,(4) | 所属期刊栏目 | |
| 研究方向 | 页码范围 | 481-496 | |
| 页数 | 15页 | 分类号 | |
| 字数 | 语种 | 英文 | |
| DOI | 10.1007/s11631-019-00348-8 | ||
五维指标
版权信息
全文
- 全文.pdf
引文网络
引文网络
二级参考文献 (0)
共引文献 (0)
参考文献 (0)
节点文献
引证文献 (0)
同被引文献 (0)
二级引证文献 (0)
2022(0)
- 参考文献(0)
- 二级参考文献(0)
- 引证文献(0)
- 二级引证文献(0)
研究主题发展历程
节点文献
Mg isotope
Calcite veins
Pedogenic carbonate
Silicate weathering
Carbonate weathering
研究起点
研究来源
研究分支
研究去脉
引文网络交叉学科
相关学者/机构
期刊影响力
地球化学学报(英文)
主办单位:
中国科学院地球化学研究所
出版周期:
双月刊
ISSN:
2096-0956
CN:
52-1161/p
开本:
16开
出版地:
贵阳市林城西路99号
邮发代号:
创刊时间:
1982-01-01
语种:
英语
出版文献量(篇)
230
总下载数(次)
0
总被引数(次)
0
期刊文献
相关文献
推荐文献
- 期刊分类
- 期刊(年)
- 期刊(期)
- 期刊推荐
