Submarine groundwater discharge into the sea and associated nutrient transport in a Sandy Beach

Uchiyama, Yusuke; Nadaoka, Kazuo; Rölke, Peter; Adachi, Kumiko; Yagi, Hiroshi

doi:10.1029/2000wr900029

Cited by 129 publications

(34 citation statements)

References 28 publications

(12 reference statements)

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“…This is also in accordance with the shorter coastal water residence time in summer. The lower SGD flow estimated in autumn may allow incomplete denitrification reactions in coastal waters, given that the proportion of NO 2 (produced as intermediate compound) to NO 3 is higher (Uchiyama et al, 2000). The inverse behavior of DIP probably indicates that its concentrations in surface waters in the autumn period are entirely explained by seawater-groundwater mixing.…”

Section: Nutrient Inputs Via Sgdmentioning

confidence: 99%

Groundwater and nutrient discharge through karstic coastal springs (<i>Castelló</i>, Spain)

García-Solsona¹,

García-Orellana²,

Masqué³

et al. 2010

Biogeosciences

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Abstract. Discharge of groundwater and associated chemical compounds into coastal karstic regions, which are abundant in the Mediterranean basin, is envisaged to be significant. In this study, we evaluate the groundwater discharge and its nutrient load to the open karstic site of Badum (Castelló, East Spain). Salinity profiles evidenced that groundwater discharge from coastal brackish springs causes a buoyant fresher layer, as identified with thermal infrared images. Chemical tracers (radium isotopes, dissolved inorganic silicate and seawater major elements) have been used to determine a brackish groundwater proportion in coastal waters of 36% in

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Section: Nutrient Inputs Via Sgdmentioning

confidence: 99%

Groundwater and nutrient discharge through karstic coastal springs (<i>Castelló</i>, Spain)

García-Solsona¹,

García-Orellana²,

Masqué³

et al. 2010

Biogeosciences

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“…of SGD and how it relates to external forcing functions, such as changes in sea level, tides, aquifer recharge, and sediment permeability (Robinson et al 1998;Uchiyama et al 2000;Taniguchi and Iwakawa 2001;. To this end, we designed, built, and tested an automated seepage meter that can measure the rate of water flow across the sedimentwater interface in either direction.…”

mentioning

confidence: 99%

An automated dye‐dilution based seepage meter for the time‐series measurement of submarine groundwater discharge

Sholkovitz

Herbold

Charette

2003

Limnology & Ocean Methods

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We designed an automated seepage meter that can detect and quantify both groundwater outflow and seawater infiltration. Based on a dye‐dilution technique, this instrument provides high‐resolution time‐series data for submarine groundwater discharge to the coastal zone. The dye‐dilution method involves two repeatable steps: (1) the timed injection of a water‐soluble dye into a “dye‐mixing chamber” mounted in series with a seepage chamber and (2) the subsequent timed measurements of the absorbance of the dyed solution. The rate at which the dyed solution is diluted by the inflow or outflow of water is directly proportional to the flow rate moving through the surface area of the seepage housing. In addition to describing the instrument's components and the operating principle, we provide examples of laboratory flow calibrations and field deployments. As indicated by two sets of time‐series studies, this instrument has performed reliably in field tests at Waquoit Bay (Cape Cod, Massachusetts) and Shelter Island (Long Island, New York). The instrument has yielded hydrologically consistent flow rates and has revealed major and subtle connections between tidal stage and the rate and direction of submarine groundwater discharge.

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“…Pengaruh dari daratan (human anthropogenic) diduga meningkatkan konsentrasi nitrat di pesisir. Selain dari daratan, ada mekanisme lain dimana nutrien di pesisir seperti nitrat, fosfat dan silikat meningkat yaitu melalui submarine groundwater discharge (SGD) (Uchiyama et al, 2000;Zektser et al, 2007). Mekanisme ini terjadi melalui aliran air tawar, air payau dan air laut dari daratan menuju laut dan sebaliknya hingga beberapa puluh meter dari permukaan.…”

Section: Distribusi Horisontal Nutrienunclassified

Vertical Distribution of Nutrients on Transitional Season in Weda Bay, North Maluku

Hamzah¹,

Basit²,

Triyulianti³

2016

J. Ilmu dan Teknologi Kelautan Tropis

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A vertical distribution of nutrient shows an interaction of physical processes, source, and uptake along the water column. These interactions can occur along the water column with different processes in each layer. Water samples from 17 stations were collected for nitrate, phosphate, and silicates concentration analyses during the transitional season in the Weda Bay. During the transitional season, the Weda Bay was characterized by low salinity (33.55-34.10), relatively warm temperature (30.87°C), and the relatively low nutrient concentrations (nitrate=0.03-4.87 µg at/l, phosphate=0.011-0.852 µg at/l, and silicate=0.04-1.21 µg at/l). The present of Western North Pacific Ocean (WNPO) watermass and the influence of Southern Subtropical Lower Water (SSLW) producing high salinity (>35) at the depth of 130-300 m were observed along the Weda Bay. Nutrient geochemical processes in this region were shown by nutrient utilization and regeneration across the water columns. Nutrients utilization was relatively high in the surface layer. Meanwhile, nutrients regeneration and remineralization were more dominant in the thermocline and deeper water layers. Analyses of nutrients showed that nitrate was more dominant than other nutrients with N/P ratio was 3.83-37.99 and N/Si ratio was 0.12-10.98. The effectiveness of silicate (0.25 μg at/l) that was used by phytoplankton found at a depth of 200 m when its concentration decreased at N/P ratio (16:08) close to the Redfield ratio. Due to an uptake, remineralization, and regeneration processes in each layer, a nutrient distribution pattern was formed which the nutrient concentrations decreased in mixed layer and increased in the deeper water.Keywords:nutrien, pattern, Weda Bay, transitional season

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Submarine groundwater discharge into the sea and associated nutrient transport in a Sandy Beach

Cited by 129 publications

References 28 publications

Groundwater and nutrient discharge through karstic coastal springs (<i>Castelló</i>, Spain)

Groundwater and nutrient discharge through karstic coastal springs (<i>Castelló</i>, Spain)

An automated dye‐dilution based seepage meter for the time‐series measurement of submarine groundwater discharge

Vertical Distribution of Nutrients on Transitional Season in Weda Bay, North Maluku

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Submarine groundwater discharge into the sea and associated nutrient transport in a Sandy Beach

Cited by 129 publications

References 28 publications

Groundwater and nutrient discharge through karstic coastal springs (&lt;i&gt;Castelló&lt;/i&gt;, Spain)

Groundwater and nutrient discharge through karstic coastal springs (&lt;i&gt;Castelló&lt;/i&gt;, Spain)

An automated dye‐dilution based seepage meter for the time‐series measurement of submarine groundwater discharge

Vertical Distribution of Nutrients on Transitional Season in Weda Bay, North Maluku

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Product

Resources

About

Groundwater and nutrient discharge through karstic coastal springs (<i>Castelló</i>, Spain)

Groundwater and nutrient discharge through karstic coastal springs (<i>Castelló</i>, Spain)