The Influence of Phytoplankton Primary Production on the Cycle of Biogenic Elements in the Coastal Waters off Sevastopol, Black Sea

The results of the long-term monitoring of coastal waters off the Heracles Peninsula (Crimea, the Black Sea) are presented. The abiotic and biotic parameters, indicating the ecological condition of the coastal zone, have been studied. The following parameters have been measured by standard methods: water temperature, illuminance, concentration of particulate matter, organic matter, primary production, intensity of biotic reproduction of particulate matter, phytoplankton and meroplankton species diversity, abundance, and biomass, as well as shell morphometrics and sex ratio in mussel Mytilus galloprovincialis Lam. It has been found that upwelling water circulation is typical for the coastal waters off the Heracles Peninsula. The mean annual sea surface temperature over the study period 2000-2016 proved to be 2.7°С higher than that in the early 20th century. The maximum values of phytoplankton primary production are associated with inner waters of coves and with increased Twater and Еmax values. A reduction in phytoplankton and meroplankton diversity and a dominance of eurybiontic species have been recorded from the waters subject to anthropogenic impacts. The most pronounced shift of sex ratio toward predominance of M. galloprovincialis males and a high mussel Н/L shell index are observed in waters with increased technogenic load. The taxonomic structure of phytoplankton and meroplankton, sex ratio, and morphometric parameters of bivalves are the sensitive tools of ecological monitoring to assess the condition of the surrounding aquatic environment.

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Seasonal and interannual fluctuations of phytoplankton primary production in the rybinsk water reservoir: effect of the weather and climatic changes

Водные ресурсы ◽

10.31857/s0321-0596463270-277 ◽

2019 ◽

Vol 46 (3) ◽

pp. 270-277

Author(s):

A. I. Kopylov ◽

T. S. Maslennikova ◽

D. B. Kosolapov

Keyword(s):

Primary Production ◽

Abiotic Factors ◽

Water Environment ◽

Water Reservoir ◽

Vegetation Period ◽

Solar Irradiation ◽

Biogenic Elements ◽

Phytoplankton Production ◽

Phytoplankton Primary Production ◽

Environment Temperature

Seasonal and multi-annual dynamics of phytoplankton primary production were examined in the Rybinsk water reservoir (Upper Volga) in 2005–2014. Positive links were detected between the average values of plankton primary production during the vegetation period and abiotic factors of the water environment (temperature, solar irradiation, and concentration of biogenic elements), as well as between the primary production and the index of the North Atlantic Oscillation, excluding the data for the abnormally hot summer in 2010. Water temperature increase (up to 27.9°С) in summer 2010 caused a significant increase in phytoplankton production. Significant increase of phytoplankton primary production was noted in the Rybinsk water reservoir during the analysis period.

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Seasonal dynamics of the main primary production characteristics of phytoplankton and its microzooplankton grazing in the surface coastal waters of the Black sea

Monitoring systems of environment ◽

10.33075/2220-5861-2017-1-114-120 ◽

2017 ◽

pp. 114-120

Author(s):

L.V. Stelmakh ◽

Keyword(s):

Primary Production ◽

Black Sea ◽

Coastal Waters ◽

Grazing Rate ◽

The Black Sea ◽

Average Cell ◽

Average Cell Volume ◽

Annual Primary Production ◽

Microzooplankton Grazing ◽

Production Characteristics

Seasonal variability of phytoplankton biomass, “pure” primary production and its share consumed micro¬zooplankton, as well as the specific microzooplankton grazing rate of phytoplankton for the surface layer (0-1 m) in coastal waters of the Black Sea was studied. Almost 80% of the total annual primary’ produc¬tion of phytoplankton is created by phytoplankton with the average cell volume .from 150 to 4000 mm3. The main share of annual primary production, eaten by microzooplankton (86%) is also associated with these algae sized groups.

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ASSESSMENT OF THE ENVIRONMENTAL STATE OF THE BLACK SEA COASTAL WATERS BY BIOINDICATION METHODS

Water and Ecology ◽

10.23968/2305-3488.2020.25.3.22-31 ◽

2020 ◽

Vol 25 (3) ◽

pp. 22-31

Author(s):

Yu. I. Baeva ◽

◽

N. A. Chernykh ◽

Keyword(s):

Black Sea ◽

Coastal Waters ◽

Marine Ecosystem ◽

The State ◽

Biotic Index ◽

Local Source ◽

The Black Sea ◽

Biogenic Elements ◽

Taxonomic Structure ◽

Bioindication Methods

Introduction. Using bioindication methods, the authors assessed the environmental state of water at the place where the Hadzhiyska River flows into the Black Sea (Slanchev Bryag / Sunny Beach resort, Bulgaria). Methods. The studies were carried out in the summer seasons of 2017–2019 during sea water “blooming”. The quality of river water was assessed by the state of the community of zoobenthic organisms using the Trent biotic index originally developed by Woodiwiss and the Mayer index, and the state of the coastal marine ecosystem was assessed by the species composition of the Black Sea macroalgae. Results. The waters at the mouth of the Hadzhiyska River can be classified as “polluted” and represent the main local source of biogenic elements entering the coastal sea waters. In the marine macrophytobenthos, representatives of green, brown and red algae were identified, including two species listed in the Red Book of the Black Sea — Cystoseira barbata and Zostera marina. The authors noted a displacement of native species — representatives of Cystoseira and Zostera genera — due to an increase in the number of associated algae from Ceramium, Cladophora and Ulva genera, which confirms organic pollution and eutrophication in coastal waters. The taxonomic structure of the macrophytes allows for the conclusion that the environmental state of the marine ecosystem in the area is satisfactory. The authors also provide a rationale for the use of benthic organisms in the express diagnostics of water environment quality in resort areas.

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Condition of the Pelagic Fish Spawn in Coastal Waters of the Black Sea near Sevastopol

Hydrobiological Journal ◽

10.1615/hydrobj.v40.i3.40 ◽

2004 ◽

Vol 40 (3) ◽

pp. 42-54 ◽

Cited By ~ 1

Author(s):

A. D. Gordina ◽

V. G. Tsytsugina ◽

Ye. I. Ovsyaniy ◽

A. S. Romanov ◽

R.B. Kemp

Keyword(s):

Black Sea ◽

Coastal Waters ◽

Pelagic Fish ◽

The Black Sea ◽

Fish Spawn

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Regularities of Changes of the Bioluminescence Field in the Black Sea Coastal Waters

Hydrobiological Journal ◽

10.1615/hydrobj.v49.i3.100 ◽

2013 ◽

Vol 49 (3) ◽

pp. 105-111 ◽

Cited By ~ 4

Author(s):

Ye. B. Mel'nikova ◽

Yu. N. Tokarev ◽

N. V. Burmistrova

Keyword(s):

Black Sea ◽

Coastal Waters ◽

The Black Sea

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Spatial and Temporal Dynamics of Phytoplankton Primary Production in the Teterev River

Hydrobiological Journal ◽

10.1615/hydrobj.v44.i1.10 ◽

2008 ◽

Vol 44 (1) ◽

pp. 3-15

Author(s):

V. I. Shcherbak ◽

Yu. S. Kuzminchuk

Keyword(s):

Primary Production ◽

Temporal Dynamics ◽

Phytoplankton Primary Production ◽

Spatial And Temporal Dynamics

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The Genus Dinophysis Ehrenb. (Dinophyta) in the Ukrainian Black Sea Coastal Waters: Species Composition, Distribution, Dynamics

International Journal on Algae ◽

10.1615/interjalgae.v13.i4.30 ◽

2011 ◽

Vol 13 (4) ◽

pp. 341-351

Author(s):

L. M. Teren'ko

Keyword(s):

Species Composition ◽

Black Sea ◽

Coastal Waters ◽

Distribution Dynamics ◽

Composition Distribution

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CRIMEAN COASTAL WATERS OF THE BLACK SEA AND THE SEA OF AZOV: POLLUTION BY OIL HYDROCARBONS IN WINTER 2016

Izvestia Ufimskogo Nauchnogo Tsentra RAN ◽

10.31040/2222-8349-2019-0-1-13-18 ◽

2019 ◽

Vol 0 (1) ◽

pp. 13-18

Author(s):

O.V. Soloveva ◽

◽

E.A. Tikhonova ◽

O.A. Mironov ◽

◽

...

Keyword(s):

Black Sea ◽

Coastal Waters ◽

The Black Sea ◽

Sea Of Azov ◽

The Sea Of Azov ◽

Oil Hydrocarbons

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ATMOSPHERIC N DEPOSITION TO THE COASTAL AREA OF THE BLACK SEA: SOURCES, INTRA-ANNUAL VARIATIONS AND IMPORTANCE FOR BIOGEOCHEMISTRY AND PRODUCTIVITY OF THE SURFACE LAYER

Proceedings of International Conference "Managinag risks to coastal regions and communities in a changinag world" (EMECS'11 - SeaCoasts XXVI) ◽

10.31519/conferencearticle_5b1b945160eed9.16985540 ◽

2017 ◽

Author(s):

Alla Varenik ◽

Sergey Konovalov ◽

Sergey Konovalov

Keyword(s):

Primary Production ◽

Black Sea ◽

Marine Ecosystem ◽

C:N Ratio ◽

N Deposition ◽

Local Source ◽

The Black Sea ◽

Coastal Zones ◽

Atmospheric N Deposition ◽

Urban Location

Atmospheric precipitations can be an important source of nutrients to open and coastal zones of marine ecosystem. Jickells [1] has published that atmospheric depositions can sup-port 5-25% of nitrogen required to primary production. Bulk atmospheric precipitations have been collected in a rural location at the Black Sea Crimean coast – Katsiveli settlement, and an urban location – Sevastopol city. Samples have been analyzed for inorganic fixed nitrogen (IFN) – nitrate, nitrite, and ammonium. Deposi-tions have been calculated at various space and time scales. The monthly volume weighted mean concentration of IFN increases from summer to winter in both locations. A significant local source of IFN has been revealed for the urban location and this source and its spatial influence have been quantified. IFN deposition with atmospheric precipitations is up to 5% of its background content in the upper 10 m layer of water at the north-western shelf of the Black Sea. Considering Redfield C:N ratio (106:16) and the rate of primary production (PP) in coastal areas of the Black Sea of about 100-130 g C m-2 year-1 we have assessed that average atmospheric IFN depositions may intensify primary production by 4.5% for rural locations, but this value is increased many-fold in urban locations due to local IFN sources.

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