Unique episodic groundwater recharge event in a South American sedimentary aquifer and its long‐term impact on baseflow

Unique episodic groundwater recharge event in a South American sedimentary aquifer and its long‐term impact on baseflow

The anomalous entrance of water into groundwater systems can affect storage throughout long periods and normally relies on infrequent and irregular pulses of groundwater recharge defined by the term episodic recharge. Recently there was a groundwater recharge of large magnitude with unknown circumst...

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Veröffentlicht in:Hydrological processes 2021-10, Vol.35 (10), p.n/a
Hauptverfasser: Dambros Melati, Maurício, Mainardi Fan, Fernando, Barbosa Athayde, Gustavo, Roehe Reginato, Pedro Antônio, Collischonn, Walter, de Vasconcelos Muller Athayde, Camila
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Sprache:eng
Schlagworte:
Aquifer storage
Aquifers
Base flow
Caiuá aquifer
episodic recharge
GRACE
Groundwater
Groundwater data
Groundwater recharge
Groundwater storage
Humid climates
hydroclimatic variability
Logging
Low flow
master recession curve
Monitoring
Rain
Rainfall
Remote sensing
Rivers
Soil
Soil moisture
Specific yield
Subtropical climates
Water monitoring
water table fluctuation
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container_end_page n/a
container_issue 10
container_start_page
container_title Hydrological processes
container_volume 35
creator Dambros Melati, Maurício
Mainardi Fan, Fernando
Barbosa Athayde, Gustavo
Roehe Reginato, Pedro Antônio
Collischonn, Walter
de Vasconcelos Muller Athayde, Camila
description The anomalous entrance of water into groundwater systems can affect storage throughout long periods and normally relies on infrequent and irregular pulses of groundwater recharge defined by the term episodic recharge. Recently there was a groundwater recharge of large magnitude with unknown circumstances in the Caiuá aquifer. This unique event was explored in detail here and allowed to better understand the occurrence of such events in humid subtropical climates in South America. For this study, groundwater monitoring daily data from the Integrated Groundwater Monitoring Network was used combined with a specific yield obtained from geophysical wireline logging to obtain groundwater recharge rates. To improve the investigation, we also used a baseflow separation method to obtain the groundwater contribution into local rivers. The groundwater storage variations were also assessed by remote sensing with the GRACE data. Results showed the importance of high soil moisture storage on the occurrence of large episodic recharge events. We estimated that the groundwater recharger volumes derived from 1 year that included the unique episodic recharge observed (total of 866 mm for April 2015–March 2016) were comparable with the sum of 7 years of groundwater recharge (total of 867 mm). Atypical rainfall in winter periods were responsible for the increase in soil moisture that explained that unique event. GRACE‐based GWS showed concordance detecting the occurrence of the unique episodic recharge. However, the variation in terms of volumes obtained by GRACE does not represent the behaviour observed in the aquifer by the WTF method. The results also indicated that changes in aquifer storage caused by episodic recharge events directly affect low flows in rivers over long periods. The main knowledge gap addressed here relates to exploring a unique episodic recharge event quite rare to observe with its long‐term impacts on hydroclimatic variability over a humid subtropical portion of the Caiuá aquifer. Episodic groundwater recharge has a long term impact on the aquifer storage. In some places large magnitude episodic events do not occur every year. There are some conditions that must occur to trigger the event. Soil moisture content plays an important role in humid subtropical climates. These persistent changes in groundwater storage impact the hydrological cycle.
doi_str_mv 10.1002/hyp.14388
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We estimated that the groundwater recharger volumes derived from 1 year that included the unique episodic recharge observed (total of 866 mm for April 2015–March 2016) were comparable with the sum of 7 years of groundwater recharge (total of 867 mm). Atypical rainfall in winter periods were responsible for the increase in soil moisture that explained that unique event. GRACE‐based GWS showed concordance detecting the occurrence of the unique episodic recharge. However, the variation in terms of volumes obtained by GRACE does not represent the behaviour observed in the aquifer by the WTF method. The results also indicated that changes in aquifer storage caused by episodic recharge events directly affect low flows in rivers over long periods. The main knowledge gap addressed here relates to exploring a unique episodic recharge event quite rare to observe with its long‐term impacts on hydroclimatic variability over a humid subtropical portion of the Caiuá aquifer. 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We estimated that the groundwater recharger volumes derived from 1 year that included the unique episodic recharge observed (total of 866 mm for April 2015–March 2016) were comparable with the sum of 7 years of groundwater recharge (total of 867 mm). Atypical rainfall in winter periods were responsible for the increase in soil moisture that explained that unique event. GRACE‐based GWS showed concordance detecting the occurrence of the unique episodic recharge. However, the variation in terms of volumes obtained by GRACE does not represent the behaviour observed in the aquifer by the WTF method. The results also indicated that changes in aquifer storage caused by episodic recharge events directly affect low flows in rivers over long periods. The main knowledge gap addressed here relates to exploring a unique episodic recharge event quite rare to observe with its long‐term impacts on hydroclimatic variability over a humid subtropical portion of the Caiuá aquifer. 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We estimated that the groundwater recharger volumes derived from 1 year that included the unique episodic recharge observed (total of 866 mm for April 2015–March 2016) were comparable with the sum of 7 years of groundwater recharge (total of 867 mm). Atypical rainfall in winter periods were responsible for the increase in soil moisture that explained that unique event. GRACE‐based GWS showed concordance detecting the occurrence of the unique episodic recharge. However, the variation in terms of volumes obtained by GRACE does not represent the behaviour observed in the aquifer by the WTF method. The results also indicated that changes in aquifer storage caused by episodic recharge events directly affect low flows in rivers over long periods. The main knowledge gap addressed here relates to exploring a unique episodic recharge event quite rare to observe with its long‐term impacts on hydroclimatic variability over a humid subtropical portion of the Caiuá aquifer. Episodic groundwater recharge has a long term impact on the aquifer storage. In some places large magnitude episodic events do not occur every year. There are some conditions that must occur to trigger the event. Soil moisture content plays an important role in humid subtropical climates. These persistent changes in groundwater storage impact the hydrological cycle.</abstract><cop>Hoboken, USA</cop><pub>John Wiley &amp; Sons, Inc</pub><doi>10.1002/hyp.14388</doi><tpages>16</tpages><orcidid>https://orcid.org/0000-0002-6716-7249</orcidid><orcidid>https://orcid.org/0000-0001-7792-0436</orcidid><orcidid>https://orcid.org/0000-0002-9739-7256</orcidid><orcidid>https://orcid.org/0000-0003-0371-7851</orcidid><orcidid>https://orcid.org/0000-0002-7630-396X</orcidid></addata></record>
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source Wiley Online Library Journals Frontfile Complete
subjects Aquifer storage
Aquifers
Base flow
Caiuá aquifer
episodic recharge
GRACE
Groundwater
Groundwater data
Groundwater recharge
Groundwater storage
Humid climates
hydroclimatic variability
Logging
Low flow
master recession curve
Monitoring
Rain
Rainfall
Remote sensing
Rivers
Soil
Soil moisture
Specific yield
Subtropical climates
Water monitoring
water table fluctuation
title Unique episodic groundwater recharge event in a South American sedimentary aquifer and its long‐term impact on baseflow
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