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salinity

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Journal Article
Aquatic Ecosystem Health & Management (2011) 14 (3): 285–290.
Published: 01 July 2011
...Daniel Gonzalez-Mendoza; Francisco Espadas y Gil; Jose Francisco Rodriguez; Silvia Monica Aviles Marin; Jorge M. Santamaría; Omar Zapata-Perez In the present study, the effect of variable salinity (0, 15 and 60‰ NaCl) on photosynthetic apparatus was studied in plants ( Avicennia germinans seedlings...
Journal Article
Aquatic Ecosystem Health & Management (1998) 1 (3-4): 291–315.
Published: 01 January 1998
...J. Alcocer; U.T. Hammer Abstract This paper aims to draw attention to the need to better know and understand Mexican saline lakes. It does this by outlining their distribution, abundance and location and their physical, chemical and biological characteristics. The influence of climatic factors on...
Journal Article
Aquatic Ecosystem Health & Management (2012) 15 (sup1): 84–92.
Published: 01 January 2012
...D. A. Jones; M. Nithyanandan; I. Williams The coastal ecosystems of the northwestern Arabian Gulf mostly consist of low lying tidal flats backed by hyper saline marsh (sabkha) and desert. As populations increased, much of this coast has been subject to infill and seaward extension for housing...
Journal Article
Aquatic Ecosystem Health & Management (1999) 2 (3): 319–329.
Published: 01 January 1999
...B. Zippel; M. Schimmele Abstract In two saline turbid mining lakes, the seasonal dynamics of autotrophic picoplankton (APP) were investigated. APP biomass accounted for 10–96% (annual average 48%) of the total autotrophic biomass. Eucaryotic picoplankton was dominant during spring and autumn (0.4–9...
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Published: 02 January 2019
Figure 5. Box-plot for water temperature, salinity, chlorophyll a concentration, DIN, DIP and DSi concentrations in two seasonal groups. More
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Published: 03 April 2019
Figure 2. Sea surface salinity in December-2015 (a) and January-2017 (b). Maps were constructed and downloaded from the Live Access Server ( https://podaac-tools.jpl.nasa.gov/las ) More
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Published: 30 November 2009
Figure 5. Distributions of simulated tidal-averaged salinity at the surface (a) and bottom (b) during July, 1999. More
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Published: 01 April 2012
Figure 4. Seasonal vertical distribution patterns of temperature (°C) and salinity at transect C (31°N). Note the change in the color scale of temperature. More
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Published: 01 July 2013
Figure 2. Water temperature, dissolved oxygen, salinity and secchi depth in three areas from June 2002 to May 2003 (data are means of the replicate samples). More
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Published: 14 September 2007
Figure 3. Yearly variability of salinity (psu), turbidity (NTU), and concentrations of chlorophyll- a (μ g l −1 ), nitrates (μ M l −1 ) and phosphates (μ M l −1 ) for Kuwait's waters during 1996–2005. More
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Published: 01 April 2012
Figure 7. Seasonal vertical profiles of salinity and size-fractionated chl a at Stn D3 (deep, 63 m) and E2 (shallow, 21 m). Note the change in the scale on chl a at summer for Stn E2. More
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Published: 02 July 2016
Figure 6. Temperature-salinity (T-S) scatter diagrams for the Kuroshio water (KSW), SCS water (SCSW), eddy water (EDYW), east of eddy water (EEDYW), and west of eddy water (WEDYW). More
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Published: 03 April 2015
Figure 3. Long-term fluctuations of the salinity of the Sea of Azov (from Garkopa, 2000 ): 1: average for entire Sea of Azov; 2: Sea of Azov proper (main part, without the Taganrog Bay); 3: Taganrog Bay. More
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Published: 02 January 2016
Figure 5. The mean annual spatial variations in (a) salinity (±SD) and (b) bottom temperature (±SD) of the Koggala Lagoon, Sri Lanka. More
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Published: 02 July 2016
Figure 5. (a) Scatter diagram and linear fit between salinity stratification (S b –S a ) and bottom VET at Station 1 in 2007; (b) same as (a) but for the results at Station 2; (c) modeled and estimated bottom VET at Station 1 in 2008 based on linear fit relation obtained in (a); (d) modeled and More
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Published: 03 July 2014
Figure 5. Relationship among the Salinity, CDOM absorption coefficient at 440 nm and spectral absorption slope (S). The point indicates CDOM absorption coefficient and the diamond indicates spectral absorption slope. More
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Published: 02 July 2016
Figure 2. Observed temperature (a, unit: °C), salinity (b, unit: psu) and potential density (c, unit: kg m −3 ). More
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Published: 02 July 2016
Figure 3. Observed temperature anomaly (a, unit:°C), salinity anomaly (b, unit: psu), and potential density anomaly (c, unit: kg m −3 ). More
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Published: 01 October 2016
Figure 2. Monthly average surface salinity, temperature and wind speeds at Stns 1 (PRE), 5 (VH) and 8 (EW) during 1997 and 2007. Vertical error bars indicate ±1 SD (salinity and temperature data are obtained from EPD, while wind speeds are from Hong Kong Observatory). More
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Published: 01 October 2013
Figure 1. Salinity based zonation of Hooghly estuary (pre- and post-Farakka barrage period). More