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The study of diversity, distribution and abundance of Zooplankton in the southern of Caspian Sea (2018)

Rowshan Tabari, Mojghan ; Farabi, M.V. ; Rahmati, R. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

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Publication Date: 2021-05-19

Description: This survey was carried out by R/V Gilan with a conical plankton net of 100 micron mesh by vertical hauls at 8 transect in the southern Caspian sea. Transects were located at Astara, Anzali, Sefid roud, Tonekabon, Noshahr, Babolsar, Amirabad and Torkman in depths of 5, 10,20,50and 100m. Samples were taken in 4 seasons ( in each season 64 samples) in 2009. In this study 23 species formed the zooplankton community including 4 species of Copepoda, 8 species of Rotatoria, 2 species of Protozoa and 8 species of Cladocera. The meroplankton blonged to 2 species of Balanus sp and Lamellibranchiata larvae. The annual results revealed that the maximum abundance of Copepoda were 3612±4839 ind/m3 and 35/75 ±42/81 mg/ m3 in summer and decreased gradually since autumn and reached to minimum value in winter. The maximum abundance of Cladocera was 300± 383 ind/m3 in spring and reached to less than 4 ind/m3 in summer and autumn. The Rotatoria had high population (3775± 8632 ind/m3) in winter which consisted the zooplankton population with Copepoda. The Protozoa had no efficient role in zooplankton population of Caspian sea during the year. The zooplankton population was affected by Meroplankton and Lamellibranchiata larvae in spring and winter. The Copepoda contributed in zooplankton population only in summer and autumn. The maximum zooplankton abundance and biomass were in 5m depth which included 10209±8352 ind/m3 and 43/56±26/08mg/ m3 in spring, 8545±7127 ind/m3 and 73/59±56/65mg/ m3 in summer(10 m depth), 8427±6711 ind/m3 and 43/15± 29/59 mg/ m3 in autumn and 24426 ±26975 ind/m3 and 334/25±392/21 mg/ m3 in winter which decresed from surface to depth. The maximum abundance and biomass of zooplankton were 5119±6018 ind/m3 in east and 28/59±24/79 mg/ m3 in central area in spring, 6628±7117 ind/m3 in west area and 50/73±59/52 mg/ m3 in central area in summer, 5248 ±5489 ind/m3 and 31/16 ±31/22 mg/ m3 in west area in autumn and 11588±16191 ind/m3 and 131/02±193/61 mg/ m3 in west area in winter. The annual statistical analysis reveals that there is significant difference between Copepoda and Cirripedia population among seasons, sampling stations, depth and sampling layer (Kruskalwallis test, p〈0.05) and the total zooplankton populatin had no significant difference only between seasons (Kruskal-wallis test, p〉0.05). The Cladocera, Lamellibranchiata larvae and the Rotatoria had significant difference between seasons only (Kruskal-wallis test, p〈0.01).

Description: Iranian Fisheries Science Research Institute

Description: Published

Keywords: Zooplankton ; Copepoda ; Meroplankton ; Survey ; Plankton ; Samples ; Species ; Cladocera ; Meroplankton ; Balanus sp. ; Lamellibranchiata ; Larvae

Repository Name: AquaDocs

Type: Report , Refereed

Format: 123pp.

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Study on primary production with emphasis on phytoplankton biovolume and chlorophyll-a in the southern Caspian Sea-Goharbaran region (2018)

Makhloogh, A. ; Narollahzadeh Saravi, H. ; Eslami, F. ; [et al.]

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Publication Date: 2021-05-19

Description: Phytoplankton biovolume and chlorophyll-a concentrations are of major concern in primary productivity (PP) estimatiors in aquatic ecosystems. The goals of the paper are: study of chlorophyll-a concentration and its relations to variations of some phytoplankton community structure parameters and abiotic factors (environmental and nutrients matters) in costal waters of Caspian Sea- Goharbaran region in 2013-2014. Monthly water samples were collected from different layers (surface, 5 and 10m) in three depths (5, 10 and 15 m). Result showed increasing trend of phytoplankton biovolume from spring into winter (except in summer). The minimum and maximum mean (±SE) values of chlorophyll-a recorded in spring (0.39± 0.05) and autumn (4.56± 0.23) mg/m3, respectively. The Change of seasonal taxonomic phytoplankton pattern showed important role in relationship between chlorophyll-a cells content and abiotic factors. The effect of temperature (in summer and autumn), phosphorous (in spring), nitrogen (in summer) and silicon (in spring and winter) on decoupling between chlorophyll-a and biovolume were found by determining their correlation with the residuals of the regression between the two parameters (chlorophyll-a and biovolume). As conclusion, the decoupling observed between the phytoplankton biovolume and chlorophyll-a concentration the need to suitable select and caution of the two PP estimators and algal blooms prediction particularly in the cage and pen culture sites. Since the rapid changes in the chlorophyll-biovolume relationship could lead to significant errors in the explanation of results and unexpected field observations.

Description: Published

Keywords: Primary productivity proxy ; Chlorophyll-a ; Phytoplankton biovolume ; Production

Repository Name: AquaDocs

Type: Journal Contribution , Refereed

Format: pp.121-130

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The study of diversity, distribution and abundance of zooplankton in the southern of Caspian Sea (2021)

Rowshan Tabari, Mojghan ; Farabi, M.V. ; Rahmati, R. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25413 | 18721 | 2018-09-23 16:29:08 | 25413 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: This survey was carried out by R/V Gilan with a conical plankton net of 100 micron mesh by vertical hauls at 8 transect in the southern Caspian sea. Transects were located at Astara, Anzali, Sefid roud, Tonekabon, Noshahr, Babolsar, Amirabad and Torkman in depths of 5, 10,20,50and 100m. Samples were taken in 4 seasons (in each season 64 samples) in 2009. In this study 23 species formed the zooplankton community including 4 species of Copepoda, 8 species of Rotatoria, 2 species of Protozoa and 8 species of Cladocera. The meroplankton blonged to 2 species of Balanus sp and Lamellibranchiata larvae. The annual results revealed that the maximum abundance of Copepoda were 3612±4839 ind/m^3 and 35/75±42/81 mg/m^3 in summer and decreased gradually since autumn and reached to minimum value in winter. The maximum abundance of Cladocera was 300± 383 ind/m^3 in spring and reached to less than 4 ind/m^3 in summer and autumn. The Rotatoria had high population (3775± 8632 ind/m^3) in winter which consisted the zooplankton population with Copepoda. The Protozoa had no efficient role in zooplankton population of Caspian sea during the year. The zooplankton population was affected by Meroplankton and Lamellibranchiata larvae in spring and winter. The Copepoda contributed in zooplankton population only in summer and autumn. The maximum zooplankton abundance and biomass were in 5m depth which included 10209±8352 ind/m^3 and 43.56±26.08mg/m^3 in spring, 8545±7127 ind/m^3 and 73.59±56.65 mg/m3 in summer (10 m depth), 8427±6711 ind/m^3 and 43.15± 29.59 mg/m3 in autumn and 24426±26975 ind/m^3 and 334.25±392.21 mg/. m3 in winter which decresed from surface to depth. The maximum abundance and biomass of zooplankton were 5119±6018 ind/m^3 in east and 28.59±24.79 mg/m^3 in central area in spring, 6628±7117 ind/m^3 in west area and 50.73±59.52 mg/m^3 in central area in summer, 5248±5489 ind/m^3 and 31/16 ±31/22 mg/ m^3 in west area in autumn and 11588±16191 ind/m^3 and 131.02±193.61 mg/ m^3 in west area in winter. The annual statistical analysis reveals that there is significant difference between Copepoda and Cirripedia population among seasons, sampling stations, depth and sampling layer (Kruskalwallis test, p〈0.05) and the total zooplankton populatin had no significant difference only between seasons (Kruskal-wallis test, p〉0.05). The Cladocera, Lamellibranchiata larvae and the Rotatoria had significant difference between seasons only (Kruskal-wallis test, p〈0.01).

Keywords: Ecology ; Iran ; Caspian Sea ; Astara ; Anzali ; Tonekabon ; Noshahr ; Babolsar ; Zooplankton ; Copepoda ; Meroplankton ; Survey ; Plankton ; Samples ; Species ; Cladocera ; Meroplankton ; Balanus sp. ; Lamellibranchiata ; Larvae

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

Format: 123

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