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Worldwide distribution of continental rock lithology: Implications for the atmospheric/soil CO2 uptake by continental weathering and alkalinity river transport to the oceans

机译：大陆岩石岩性的全球分布：大陆气候和碱度河流向海洋的迁移对大气/土壤二氧化碳吸收的影响

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The silicate rock weathering followed by the formation of carbonate rocks in the ocean, transfers CO2 from the atmosphere to the lithosphere. This CO2 uptake plays audmajor role in the regulation of atmospheric CO2 concentrations at the geologic timescale and is mainly controlled by the chemical properties of rocks. This leads us to develop the first world lithological map with a grid resolution of 1 1. This paper analyzes the spatial distribution of the six main rock types by latitude, continents, and ocean drainage basins and for 49 large river basins. Coupling our digital map with the GEM-CO2 model, we have also calculated the amount of atmospheric/soil CO2 consumed by rock weathering and alkalinity river transport to the ocean. Among all silicate rocks, shales and basalts appear to have a significant influence on the amount of CO2 uptake by chemicaludweathering

机译：硅酸盐岩风化后，在海洋中形成碳酸盐岩，将CO2从大气中转移到岩石圈。二氧化碳的吸收在地质时标中对大气中二氧化碳浓度的调节起着主要作用，并且主要由岩石的化学性质控制。这使我们开发出了第一个世界岩性图，其网格分辨率为11。本文分析了纬度，大陆和海洋排水盆地以及49个大型河流盆地这6种主要岩石类型的空间分布。结合我们的数字地图和GEM-CO2模型，我们还计算了岩石风化和碱性河道向海洋运输所消耗的大气/土壤CO2量。在所有硅酸盐岩中，页岩和玄武岩似乎对化学耐候性对CO 2吸收量有显着影响。

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Amiotte Suchet Philippe; Probst Jean-Luc; Ludwig Wolfgang;
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年度 2003
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正文语种 {"code":"en","name":"English","id":9}
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1. Worldwide distribution of continental rock lithology: Implications for the atmospheric/soil CO_2 uptake by continental weathering and alkalinity river transport to the oceans [J] . Philippe Amiotte Suchet, Jean-Luc Probst, Wolfgang Ludwig Global Biogeochemical Cycles . 2003,第2期

机译：大陆岩石岩性的全球分布：大陆气候和碱度河流向海洋的迁移对大气/土壤CO_2吸收的影响
2. Silicate rock weathering and atmospheric/soil CO2 uptake in the Amazon basin estimated from river water geochemistry: seasonal and spatial variations [J] . Mortatti J., Probst JL. Chemical geology . 2003,第1a4期

机译：根据河水地球化学估算亚马逊河流域硅酸盐岩的风化和大气/土壤二氧化碳的吸收：季节和空间变化
3. GLACIAL-INTERGLACIAL VARIABILITY OF ATMOSPHERIC CO2 DUE TO CHANGING CONTINENTAL SILICATE ROCK WEATHERING - A MODEL STUDY [J] . Munhoven G., Francois LM. Journal of Geophysical Research. Biogeosciences . 1996,第d16期

机译：改变大陆硅酸盐岩风化过程中大气CO2冰晶间变化的模型研究
4. Long-Term Changes in the Continental United States Streamflow and Teleconnections with Oceanic-Atmospheric Indices [C] . Ajay Kalra, Soumya Sagarika, Sajjad Ahmad World environmental and water resources congress . 2016

机译：美国大陆的水流和与海洋-大气指数的遥相关的长期变化
5. Tracing continental weathering using lithium and magnesium isotopes: Insights from the chemical weathering of Columbia River basalts and mass balance modeling. [D] . Liu, Xiao-Ming. 2012

机译：使用锂和镁同位素追踪大陆风化：哥伦比亚河玄武岩化学风化和质量平衡模型的见解。
6. Archaean zircons in Miocene oceanic hotspot rocks establish ancient continental crust beneath Mauritius [O] . Lewis D. Ashwal, Michael Wiedenbeck, Trond H. Torsvik -1

机译：中新世海洋热点岩石中的古生锆石在毛里求斯下建立了古老的大陆壳
7. Silicate rock weathering and atmospheric/soil CO2 uptake in the Amazon basin estimated from river water geochemistry:udseasonal and spatial variations [O] . Mortatti Jefferson, Probst Jean-Luc 2003

机译：根据河水地球化学估算，亚马逊河流域硅酸盐岩风化和大气/土壤CO2吸收： ud季节和空间变化
8. Nutrient Distributions, Transports, and Budgets on the Inner Margin of a River-Dominated Continental Shelf. [R] . Lehrter, J. C., Ko, D. S., Murrell, M. C., 2013

机译：河流主导的大陆架内缘的营养分布，运输和预算。

Worldwide distribution of continental rock lithology: Implications for the atmospheric/soil CO2 uptake by continental weathering and alkalinity river transport to the oceans

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