Measurement of submarine groundwater discharge using diverse methods in Coleroon Estuary, Tamil Nadu, India

Prakash, R.; Srinivasamoorthy, K.; Gopinath, S.; Saravanan, K.

doi:10.1007/s13201-018-0659-0

Cited by 28 publications

(9 citation statements)

References 65 publications

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“…The river forms estuary at the configuring point with a mean depth of 5.0 m with semidiurnal tides ranging in heights from 0.32 to 1.31 m generating substantial inflow of saline water into the river [17]. The sediment transport due to the impact of wave, tide, river or wind energy is estimated as 237,000 m 3 yr -1 towards north [39].…”

Section: Study Areamentioning

confidence: 99%

“…Methodologies available for measuring groundwater fluxes and associated nutrient exchanges to the bay like application of Darcy's law [17][18][19][20] seepage meters, thermal infrared imagery, flow and density dependent modeling and application of geochemical tracers [21][22][23][24][25][26][27][28][29][30].…”

Section: Introductionmentioning

confidence: 99%

“…Due to increase in population, anthropogenic related activities (major industries like paper, alcoholic beverages, chemical, pharmaceutical, agricultural and tourist activities) has altered the material instabilities in the river and adjoining regions due to direct discharge of nutrient, metal and toxic elemental fluxes resulting in ecological imbalance [37]. Previous studies [17,38] has attempted for groundwater fluxes using radon mass balance approach and radon progeny calculations. But attempts relating radium and nutrient fluxes are gloomy.…”

Section: Introductionmentioning

confidence: 99%

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Estimating groundwater inputs from Sankarabarani River Basin, South India to the Bay of Bengal evaluated by Radium (226Ra) and nutrient fluxes

Saravanan

Ponnumani

et al. 2020

ijceae

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Sankarabarani river basin gains significance due to presence of major industrial, agricultural, urban development and tourist related activities has influenced the water quality in the estuarine environment. Investigations about river water quality has been attempted but not more studies focus about the evaluation of groundwater discharge a significant process that connects groundwater and the coastal seawater have been attempted. For the present study, radium (226Ra) a naturally occurring isotope was measured at three locations and used as effective tracers for estimating the groundwater discharge along with nutrient inputs to the Bay. Groundwater samples representing north east monsoon (December, 2017) has been collected during tidal variation in three locations (Location A- away from the coast towards inland, Location B-intermediate between Location A and the coast and Location C-at the estuary). 226Ra mass balance calculated groundwater fluxes irrespective of tidal variations were 2.27×108 m3/d, 2.19×108 m3/d and 5.22×107m3/d for A, B and C locations respectively. The nutrients like Dissolved inorganic nitrogen (DIN), Dissolved inorganic Phosphate (DIP) and Dissolved Silica (DSi) were found to be influencing the coastal groundwater by contributing fluxes to the sea of about 679.33 T mol/day. The study suggests increasing radium and nutrient fluxes to the Bay altering the coastal ecosystems would result in surplus algal blooms creating hypoxia.

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Section: Study Areamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Estimating groundwater inputs from Sankarabarani River Basin, South India to the Bay of Bengal evaluated by Radium (226Ra) and nutrient fluxes

Saravanan

Ponnumani

et al. 2020

ijceae

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“…The fresh portion of SGD is critical, as it potentially buffers ocean acidification with groundwater alkalinity (Cyronak et al., 2013; Slomp & Van Cappellen, 2004). While coastal SGD has been documented globally at various geological settings (Kim & Kim, 2011; Knee et al., 2016; Paldor et al., 2020; Prakash et al., 2018; Stieglitz, 2005), reports on deep offshore SGD sources (disconnected from coastal SGD, usually appear at water depths >50 m) are scarce but of potential importance. Fresh SGD is commonly associated with oceanographic, hydrogeological, and environmental processes that affect chemical weathering, ocean eutrophication, and climate change by emanating solutes and gases to the ocean (e.g., Moore, 2010; Kim & Kim, 2011; Taniguchi et al., 2019; Luijendijk et al., 2020).…”

Section: Introductionmentioning

confidence: 99%

Marine Electromagnetic Imaging and Volumetric Estimation of Freshwater Plumes Offshore Hawai'i

Attias

Constable

Sherman

et al. 2021

Geophysical Research Letters

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Submarine groundwater discharge (SGD) is an important phenomenon that governs hydrological cycles at the land‐to‐ocean transition zone. SGD manifests as cold and buoyant freshwaters influx from the seafloor to the water column that contains carbon, nutrients, metals, and greenhouse gases, altering coastal areas' oceanographical and biochemical properties. Here, we present electromagnetic imaging of large‐scale freshwater plumes in high‐resolution, offshore west Hawai'i. Electrical resistivity models detect multiple vertical freshwater plumes extending from the seafloor to the ocean surface. Additionally, our models image extensive spatially distributed surface freshwater. The resistivity of these plumes and surface freshwater ranges from ∼1 to 30 Ωm. Resistivity‐to‐salinity calculation indicates a plume‐scale salinity range of ∼0.3–9.9, containing up to 87% of freshwater. Our results imply that substantial volumes of freshwater occupy water column plumes in Hawai'i. This study offers a new and effective method to elucidate hydrogeologic and ocean processes affecting biogeochemical cycles in coastal waters worldwide.

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“…Therefore, aquifer characteristic study is essential for SGD flux estimation. Prakash et al (2018), Manivannan and Elango et al (2019), Babu et al (2009Babu et al ( , 2021). An estimation of freshwater discharge using electrical resistivity methods of 2D ERT and magnetotelluric method.…”

Section: Introductionmentioning

confidence: 99%

Integrated geophysical and geochemical assessment of submarine groundwater discharge in coastal terrace of Tiruchendur, Southern India

et al. 2021

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Submarine groundwater discharge (SGD) study is essential for groundwater in coastal terrace at Tiruchendur. The famous Murugan Temple is located in the area and around 25,000 people who visit this temple use the SGD well water at NaaliKinaru (a small open well) as holy water and drink it. The rock and soil type are sandy clay, silt, beach sand, calcarenite, kankar, gneissic rock and charnockite in base rock. Megascopic identification method was used to identify the porous and permeable rocks such as calcarenite, sandstone and kankar to support to increase SGD flux. Grain size study was used to identify the paleo-coastal estuarine environment with sediment deposits in the terrace. The square array electrical resistivity method was used to study the subsurface geology and aquifer depth. The 2d ERT technique was used to identify the subsurface shallow perched aquifer of freshwater. The magnetotelluric survey method was used to scan the entire subsurface geological and tectonic uplift, coastal ridges, rock folded subsurface structural features of continental and oceanic tectonism. Darcy’s law was used to calculate the SGD flux rate in the above study area.

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Measurement of submarine groundwater discharge using diverse methods in Coleroon Estuary, Tamil Nadu, India

Cited by 28 publications

References 65 publications

Estimating groundwater inputs from Sankarabarani River Basin, South India to the Bay of Bengal evaluated by Radium (226Ra) and nutrient fluxes

Estimating groundwater inputs from Sankarabarani River Basin, South India to the Bay of Bengal evaluated by Radium (226Ra) and nutrient fluxes

Marine Electromagnetic Imaging and Volumetric Estimation of Freshwater Plumes Offshore Hawai'i

Integrated geophysical and geochemical assessment of submarine groundwater discharge in coastal terrace of Tiruchendur, Southern India

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