Relationship between Rainfall and Water Level in Deep Wells: A Case Study of Chenjiang Well and Jianshui Well in South of Yunnan Province
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摘要: 2015年1月9日,云南地区出现大幅度水位同步转折上升现象,而地下流体群体异常的聚集区可能是未来强震的孕育区,及时排除环境等干扰因素,对确定地震危险区很有帮助。本文选取澄江井和建水井的水位观测数据,分析降雨量与水位变化的关系,认为滇南地区的水位年变化与雨季降雨量之间有较好的线性关系。本文对澄江井和建水井2012-2014年的水位异常信息进行提取,对其映震情况进行了总结,研究表明滇南地区降雨量对水位引起的异常,主要表现在变化幅度和变化时间等方面。此次出现的水位同步转折上升现象多为降雨干扰影响。Abstract: Water levels were raised synchronously and sharply by a large margin in the Yunnan area since January 9, 2015. The related area with systematic anomaly of underground fluid may be the signal for strong earthquake preparation. However, such anomaly could also be caused by non-earthquake related factors. In this paper, we selected the observation data of Chenjiang well and Jianshui well, to study the relationship between rainfall and the variable quantity of water level. We found that there exists a clear linear relationship between rainfall and the variation of water level in south of the Yunnan area. Then, we extracted the abnormal information of water level of Chenjiang well and Jianshui well from 2012 to 2014, and analyzed the earthquake reflecting features. Finally, we concluded that abnormal changes of water level are mainly caused by rainfall variation.
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图 1 云南地区2015年1月份水位出现同步变化现象
Figure 1. Synchronous change of water level in the Yunnan region, January 2015
图 2 澄江井和建水井的地理位置及构造简要图
Figure 2. Location of two wells (Chengjiang and Jianshui) and their surrounding geology background
图 3 澄江井水位与降雨量的同轴曲线 (月均值)
Figure 3. The coaxial curves of hydrostatic level and rainfall in Chengjiang well (monthly mean)
图 4 建水水位与降雨量的同轴曲线 (月均值)
Figure 4. The coaxial curves of hydrostatic level and rainfall in Jianshui well (monthly mean)
图 5 雨季降雨量与水位年变化量的关系
Figure 5. Relationship between rainfall and annual variation of water level
图 6 澄江水位与江川降雨量的同轴曲线 (日均值)
Figure 6. The coaxial curves of hydrostatic level in Chengjiang well and rainfall in Jiangchuan well (daily mean)
图 7 建水水位与降雨量的同轴曲线 (日均值)
Figure 7. The coaxial curves of hydrostatic level and rainfall in Jianshui well (daily mean)
图 8 月降雨量与水位月变化量的关系 (a澄江井,b建水井)
Figure 8. Relationship between rainfall and monthly variation of water level
图 9 澄江水位 (整点值) 与江川降雨量 (日均值) 同轴曲线
Figure 9. The coaxial curves of hydrostatic level in Chengjiang well (hourly mean) and rainfall (daily mean) in Jiangchuan well
图 10 建水水位与降雨量的同轴曲线 (整点值)
Figure 10. The coaxial curves of hydrostatic level and rainfall in Jianshui well (hourly mean)
图 11 日降雨量与水位日变化的关系 (a澄江井,b建水井)
Figure 11. Relationship between rainfall and daily variation of water level
图 12 建水井水位与降雨量的整点值同轴曲线
Figure 12. The coaxial curves of hourly mean value of hydrostatic level and rainfall in Jianshui well
图 13 孟连水位与降雨量的同轴曲线 (日均值)
Figure 13. The coaxial curves of hydrostatic level and rainfall in Menglian well (daily mean)
表 1 水位前兆异常特征
Table 1. Characteristics of the precursory anomalies of water level
序号 发震时间 地点 震级/Ms 井位 异常开始时间 异常持续时间 距离发震时间 异常幅度 震中距 异常特征 1 20120907 彝良 5.7、5.6 澄江 201208 31天 38天 55cm 334km 下降 建水 201207 62天 69天 14cm 449km 下降 2 20130831 中甸 5.9 澄江 201306 61天 61天 122% 523km 破年变 建水 201306 92天 92天 10cm 614km 趋势下降 3 20140803 鲁甸 6.5 澄江 201407 92天 34天 202% 275km 破年变 建水 201206 153天 64天 203% 393km 破年变 4 20141006 景谷 6.6 澄江 201407 123天 98天 202% 276km 破年变 建水 201406 184天 128天 203% 234km 破年变 
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