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高校地质学报 ›› 2022, Vol. 28 ›› Issue (6): 849-860.DOI: 10.16108/j.issn1006-7493.2021018

• 表生地球化学专栏 • 上一篇    下一篇

热带海南岛地表和地下化学风化:对全球碳循环及海水Sr 同位素演化研究的启示

彭精诚,郑 栩,吴卫华*   

  1. 表生地球化学教育部重点实验室,南京大学 地球科学与工程学院,南京 210023
  • 出版日期:2022-12-20 发布日期:2022-12-20

Surface and Subsurface Chemical Weathering in Tropical Hainan Island: Implications for Global Carbon Cycle and Seawater Sr Isotope Evolution

PENG Jingcheng,ZHENG Xu,WU Weihua*   

  1. Key Laboratory of Surface Geochemistry, Ministry of Education, School of Earth Sciences and Engineering, Nanjing University, Nanjing 210023,China
  • Online:2022-12-20 Published:2022-12-20

摘要: 热带地区火山岛/岛弧的化学风化对全球碳循环和海水的Sr同位素演化均有着重要的作用。文章对中国热带海南岛的玄武岩、花岗岩小流域和大河流域进行了河水、地下水、雨水以及基岩和沉积物的综合研究,分析了水样和固体样品的元素含量和Sr同位素比值。结果显示,河床沉积物的化学蚀变指数(CIA)与87Sr/86Sr之间存在着一定的变化关系,而这主要归因于沉积物的阶段性差异风化:风化早期阶段以黑云母占主导,87Sr/86Sr较高。此后斜长石开始风化,87Sr/86Sr逐渐下降。在风化程度中等阶段,斜长石大量分解后,各种富钾矿物风化加剧,87Sr/86Sr值升至最高点。在高风化程度阶段,随着富钾矿物逐渐减少,稳定的风化残余物质占据主导,87Sr/86Sr值逐渐下降。与年轻的活火山岛——加勒比海小安的列斯群岛和印度洋的留尼汪岛相比(其地下化学风化速率2~5倍于地表风化速率),由于相对较低的降水量和老死火山低的孔隙度,海南岛地下水的流量和固溶物总量(TDS)要低的多,导致海南岛的地下化学风化速率低于地表风化速率,仅与高纬的俄罗斯堪察加活火山岛相近,为小安的列斯群岛和留尼汪岛的约6%~25%,属于全球地下风化贡献最低的区域之一。海南岛玄武岩区的地表化学风化和CO2消耗速率高于法国中央高原和西伯利亚,略低于夏威夷和德干,而显著小于东南亚的爪哇岛和
吕宋岛。在温度相近的条件下,径流量对化学风化速率有着非常明显的控制作用。由于较低的年径流量,热带区域的海南岛,其对大气CO2的消耗能力只是处于一个全球平均的范围内。

关键词: 海南岛, Sr同位素, 差异风化, 地表化学风化, 地下化学风化, CO2消耗

Abstract: The chemical weathering of tropical volcanic island/arc plays an important role in global carbon cycle and Sr isotope evolution of seawater. In this paper, a comprehensive study of river water, groundwater, rainwater, bedrock and sediment was carried out in some small basaltic and granitic watersheds in Hainan Island, China. The element contents and 87Sr/86Sr ratios of water and solid samples were analyzed. The results show that there is a certain relationship between the chemical alteration index (CIA) and 87Sr/86Sr, which is mainly attributed to the different stages of weathering: in the early stage dominated by biotite weathering, 87Sr/86Sr is relatively high. After that, plagioclase begins to be weathered and 87Sr/86Sr decreases gradually. In the middle weathering stage, after a large amount of plagioclases are decomposed, the weathering of various K-rich minerals is intensified, and the 87Sr/86Sr value rises to the highest point. In the stage of high weathering degree, the stable weathering residual materials are dominant as the decrease of K-rich minerals, and the 87Sr/86Sr value declines gradually. Compared with the young active volcanic islands, for example, the Lesser Antilles Islands in the Caribbean Sea and the Reunion Island in the Indian Ocean (the subsurface chemical weathering rate is 2-5 times higher than the surface weathering rate), the underground water flow and total dissolved solids (TDS) in Hainan Island are much lower due to the relatively low rainfall and the low porosity of the old inactive volcano. As a result, the subsurface chemical weathering rate of Hainan Island is lower than that of the surface weathering, only close to the Kamchatka active volcanic island in high latitude, 6%-25% of the Lesser Antilles and Reunion Islands in tropical zone, and is one of the regions with the lowest contribution of subsurface weathering in the world. The surface chemical weathering and CO2 consumption rates of basalt area in Hainan Island are higher than those of Massif Central, France and Siberia, slightly lower than those of Hawaii and Deccan Trap, and significantly lower than those of Java and Luzon Island in Southeast Asia. Under the condition of similar temperature, runoff has an obvious control over the chemical weathering rate. The CO2 consumption capacity of Hainan Island in the tropical region is only in a global average range due to the low annual runoff.

Key words: Hainan Island, Sr isotope, incongruent weathering, surface chemical weathering, subsurface chemical weathering;
CO2 consumption

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