Time series decomposition of groundwater level changes in wells due to the Chi‐Chi earthquake in Taiwan: a possible hydrological precursor to earthquakes

Gau, Hwa Sheng; Chen, Ting Chien; Chen, Jui Sheng; Liu, Chen‐Wuing

doi:10.1002/hyp.6257

Cited by 8 publications

(3 citation statements)

References 25 publications

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“…Another reported possible precursor to the Chi-Chi earthquake is a change in the spectral characteristics of water level fluctuations in some wells in the month preceding the earthquake compared with those 2 and 3 months before the earthquake (Gau et al 2007). This is not a compelling comparison as the amount and character of precipitation also changed (Fig.…”

Section: Chi-chi Taiwan 1999mentioning

confidence: 99%

Hydrologic Precursors

Wang¹,

Manga²

2021

Lecture Notes in Earth System Sciences

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Predicting earthquakes is a long-desired goal. The main challenge is to identify precursory signals that reliably predict the impending earthquake. Since hydrological and hydrogeochemical properties and processes can be very sensitive to minute strains, the hope is that measurements from hydrological systems might record precursory rock deformation that would otherwise be undetectable. Of the many hundreds of studies, we review a subset to illustrate how signals can be challenging to interpret and highlight questions raised by observations—examples come from China, Japan, Taiwan, India, the USA, Russia, France, Italy and Iceland. All are retrospective studies. Some signals seem to have no other explanation than being precursory, however, rarely is enough data available to undertake a thorough analysis. Some hydrological precursors might be recording deformation events that are slower than traditional earthquakes (and hence usually harder to detect). Long times series of data are critical for both identifying putative precursors and assessing their origin and reliability.

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Section: Chi-chi Taiwan 1999mentioning

confidence: 99%

Hydrologic Precursors

Wang¹,

Manga²

2021

Lecture Notes in Earth System Sciences

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“…Groundwater flowing under the forces of gravity and fluid pressure along pores and fractures in geologic media reacts differently depending upon the aquifer type/characteristic and external pressures, such as earthquakes and changes in atmospheric pressure (Freeze and Cherry 1979). Thus, analyses of fluctuations in groundwater levels have been used to indicate abnormal changes (oscillations) caused by seismic activity (Kitagawa et al 2006;Gau et al 2007;Lee et al 2018). We analyzed the changes in groundwater levels caused by the Gyeongju earthquakes by discriminating between the responses of confined and unconfined aquifers, considering their distances from the fault.…”

Section: Earthquake-groundwater Level Changesmentioning

confidence: 99%

“…Observational data collected over long periods of time are essential for understanding and analyzing natural phenomena, and many countries such as European Union (Mendizabal and Stuyfzand 2009), United States (Rosen and Lapham 2008; US Geological Survey, https://cida.usgs.gov/ ngwmn; Texas, https://www.waterdatafortexas.org/groundwater), The Netherlands (Van Duijvenboodem et al 1993), and Taiwan (Hsu 1998) have been operating groundwater monitoring systems. A spatially distributed network of hydrologic monitoring wells established for groundwater management can be used for identifying seismic mechanisms and for selecting points for further earthquake monitoring (King et al 1999;Gau et al 2007;Chen et al 2013;He and Singh 2019). Groundwater monitoring networks on a regional or national level were used to identify the co-seismic changes in groundwater level due to local earthquakes and offshore earthquakes around the world (Lee and Woo 2012;Lee et al 2013;Yun et al 2019).…”

Section: Introductionmentioning

confidence: 99%

Assessing aquifer responses to earthquakes using temporal variations in groundwater monitoring data in alluvial and sedimentary bedrock aquifers

Lee

Woo

Koh

et al. 2020

Geomatics, Natural Hazards and Risk

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Water level and hydrochemical parameters from groundwater monitoring wells can be effectively used for interpreting changes in the groundwater system when aquifers are appropriately characterized. Groundwater levels in six paired monitoring wells of alluvial and sedimentary bedrock aquifers in the Gyeongju area, southeastern South Korea were analyzed to evaluate their abrupt changes due to earthquakes, and to identify the differences in responses of groundwater level to the earthquakes and precipitation based on confining conditions of the aquifers, which was verified by principal component analysis (PCA) of water level and major ion concentrations, and lithologic logs. When earthquakes occurred in 2016 near the study area, the different responses of groundwater level to the earthquakes were detected in the two well pairs under confined condition. In particular, wells with single screened interval showed dissimilar patterns in water level fluctuation and hydrochemical water type. The PCA results of groundwater levels and hydrochemical parameters also substantiated the different aquifer types in the two well pairs. These results suggest that groundwater monitoring data should be acquired and analyzed considering the well design and aquifer type to properly evaluate impacts of earthquakes on the aquifers, which can contribute to establishment of earthquake monitoring systems.

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Hydrologic Precursors

Wang¹,

Manga²

2009

Earthquakes and Water

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Time series decomposition of groundwater level changes in wells due to the Chi‐Chi earthquake in Taiwan: a possible hydrological precursor to earthquakes

Cited by 8 publications

References 25 publications

Hydrologic Precursors

Hydrologic Precursors

Assessing aquifer responses to earthquakes using temporal variations in groundwater monitoring data in alluvial and sedimentary bedrock aquifers

Hydrologic Precursors

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