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Survey of diversity, distribution, abundance and biomass of macrobenthic fauna in the southern Caspian Sea (2018)

Soleimani Roudi, Abdollah ; Hashemian, A. ; Raeisyan, E. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

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Publication Date: 2021-05-19

Description: Sediments samples were collected using Veen Grab Sampler (0.1 square meter) at 8 transects namely Astara, Anzali, Sefidroud, Tonekabon, Noshahr, Babolsar, Amirabad, Torkman in the southern of Caspian Sea. Five stations were selected at 5, 10, 20, 50 and 100 meter depths in each transect. Sediments were sampled triplicate at each station. Samples also were collected during four seasons (spring (May), summer (July), fall (November) and winter (January)) in 2009. Results of this study showed that species composition of Macrobenthos consisted of 32 species which belonged to 7 families of Polychaeta, Crustacea and Bivalvia at studied area. In addition, Oligochaeta identified in “Class”, Chironomidae considered in Insecta categories “Family” and Streblospio spp. (Polychaeta) was recognized in “Genus”. Gammaridae and Pseudocumidae of Crustacea with 12 and 10 species had the highest species diversity compared to other groups, respectively. Polychaeta was consisted 75.5 percent of total abundance of macrobenthos which the major abundance (equal 62.4% of total abundance) were belong to Streblospio spp. from Spionidae family, while its biomass was equals 5.11% of total macrobenthos. In contrast, Cerastoderma lamarcki species from Bivalvia Class with only 1.7% of total abundance of macrobenthos allocated 69 percent of total biomass. In the southern of Caspian Sea, average total abundance was significantly less at 4 western transects (Astara, Anzali, Sefidroud, Tonekabon) compared to 4 eastern transects (Noshahr, Babolsar, Amirabad, Torkman) (p〈0.05). The highest average abundance of macrobenthos (10655±1246SE ind/m2) was observed at transect of Torkman, and lowest value (4032 ± 686SE ind/m2) was recorded at transect of Sefidroud (p〈 0.05). Generally, minimum species diversity were obtained at 20 m depth in all transects and the maximum value was observed at 5 m depth in most of transects (p〈0.05). In contrary, maximum average abundance of Macrobenthoses was at 20 m depth in transects of Anzali, Sefidroud, Tonekabon, Nowshahr and Amirabad compared to other depths. Macrobenthoses abundance average in 5 m depth (except Astara and Torkman) was less than other depths in 6 transect (p 〈 0.05). Total average abundance and biomass of macrobenthos was 5976±583SE ind/m2 and 43.675 ± 11.402SE gr/ m2, respectively. Maximum and minimum of abundance of macrobenthos were observed in summer (7714±778 ind/m2) and winter (4071 ± 340 ind/m2), respectively. Maximum and minimum of biomass of macrobenthos were obtained in fall (50.271±13.258SE gr/ m2) and in summer (35.123 ± 8.903SE gr/ m2), respectively (p〈 0.05). Percent of total organic matter (TOM) were low in 5 and 10 m depths and increased toward offshore depths. TOM percent was 2.06±0.11SE at 10 m depth and increased to 4.62 ±0.17SE in 100 m depth. Percent of silt and clay (grains size less than 63 micron) had positive significantly correlation with percent of TOM (p〈0.01).While they had negative significantly correlation with percent of sand (grains size between 63 and 1000 micron) (p〈0.01). Percent of silt and clay like organic matter, had ascending trend toward to depth increased and varied from 44.4 ± 4.06SE percent in 5 m depth to 96.5 ± 0.59SE percent in 100 m depth. In contrast, percent of sand decreased toward depth and varied from 54.5 ± 4.13SE percent in 5 m depth to 2.8 ± 0.53SE percent in 100 m depth. Result of current study showed that total abundance of macrobenthoses had positive significantly correlation with TOM percent (p〈0.01) and silt/clay percent (p〈0.05). Abundance of Oligochaeta had positive significantly correlation (p〈 0.01) with TOM and silt/clay percent. Two groups of Polychaeta, Gammaridae and Cerastoderma lamarcki had negative significantly correlation with TOM and silt/clay percent (p〈 0.01), and every four aforementioned groups had positive significantly correlation with sand percent (p〈 0.01). Overall, different correlation between abundance of various macrobenthos groups and TOM percent and type of grain size of sediment could be related to fluctuation of abundance of various macrobenthos groups at difference transects and depths. On the other hand, in study area were occurred simultaneously some phenomena such as increased abundance of Oligochaeta and Polychaeta, dominance of Streblospio Genuse (Polychaeta group), and decreases abundance of Bivalvia and appearance of Menemiopsis leidyi which need to study more and monitoring of this area.

Description: Iranian Fisheries Science Research Institute

Description: Published

Keywords: Macrobenthos ; Diversity ; Distribution ; Abundance ; Biomass ; Survey ; Fauna ; Sediments ; Samples ; Streblospio spp. ; Cerastoderma lamarcki ; Menemiopsis leidyi

Repository Name: AquaDocs

Type: Report , Refereed

Format: 105pp.

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Comprehensive ecological survey of the possible controlling of invader Mnemiopsis leidyi population in the Caspian Sea - Activity 1: Abundance and distribution of the ctenophore Mnemiopsis leidyi in the Caspian Sea (Iranian Coasts) (2018)

Roohi, Abolghasem ; Hashemian, A. ; Naderi, M. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

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Publication Date: 2021-05-19

Description: This project has been started as monitoring study since 2001 that in first phase has lasted for two years and because of its importance, it was decided that this study should be continued for two other years. In the early 1980s, an alien ctenophore Mnemiopsis leidyi already known as a gelatinous zooplankton was transported (likely via ballast waters) to the Black Sea from its native waters of the western Atlantic. The possibility of Mnemiopsis leidyi introduction into other sensitive, neighbouring ecosystems, notably the Caspian Sea, had been mentioned during the GESAMP meeting in 1994. And, as expected, this ctenophore was reported to be present in the Caspian Sea by November 1999. In this report, spatial and temporal distribution of M. leidyi had been investigated in southern Caspian Sea (Iranian waters) in 6 transects consisted of Lisar, Anzali, Sefidroud, Nowshar, Babolsar and Amirabad at 24 stations during 2003 and 2004. As a whole, 818 samples had been analized included 236, 302, 136 and 144 belong to ctenophore, phytoplankton, zooplankton and benthos. Meantime 811 physicochemical parameters had been measured. Water temperature varied between 7.8 to 29.3 co . Transparencies also fluctuated from 0.20 to 10.5 m. Salinity in different regions was from 7.80 to 13.90 ppt and the average was 12.09 ppt. pH was between 7.2- 8.6. Demand oxygen (O2) has been measured very high in water surface (12.89 µg.l) and it decreased at minimum level in deep down to 4 µg.l. Nutrients measurements such as NO2, NO3 and NH4 were 0.10-15.17 , 3.80- 133.40 and 0.36- 86.40 µg.l, respectively. Total nitrate and phosphate were measured between 337.00- 1635.00 and 14.90-103.40 µg.l, respectively. Comparison of M. leidyi distribution in the southern Caspian Sea shown that maximum abundance recorded in warm summer months (e.g. August) with 11627 ind.m 2 and its biomass maximum was in autumn months (September and October) about 446.11 gr.m 2 . Mean abundance and biomass of M. leidyi were 2504 ind.m2 and 142.42 gr.m 2 , respectively. Maximum size of the ctenophore recorded as 70 mm while the less than 10 mm length frequency consisted 92.2 per cent of total population. Spatial distribution of M. leidyi in different regions shown that Sefidroud not only had the maximum Mnemiopsis abundance but also consisted higher biomass in the southern Caspian Sea in 2003-4. At present study, 142 phytoplankton species were identified which belongs to Chrysophyta (67,48 ), Chlorophyta (23,16%), Cyanophyta (22,15% ), Pyrhophyta (21,15% ) and Euglenophyta (9,6%). Mean phytoplankton abundance and biomass were 11137032 ind. m 3 and 40.26 mg. m 3 , respectively. Chrysophyta (diatoms) consisted 42 and 47% of whole phytoplankton abundance and biomass. In the other hand, this group included 50 % of phytoplankton population. In zooplankton study, there were identified 21 species in which 10 species were only meroplankton (zoobenthic) and 11 species was holoplankton. These species belongs to Copepoda (4,37% ), Rotatoria (4,36% ), Cilliophora (2,18% ) and Cladocera (1,9% ). Monthly zooplankton abundance and biomass data shown that its population completely effected by Copepoda. Among copepoda, Acartia clausi was the main species duri ng 2003-4. As a whole, maximum abundance recorded in spring (March) and autumn (September) about 11497 and 11321 ind. m 3 while it s maximum biomass occurred in summer (August) with 48.95 mg. m 3 . Zooplankton minimum abundance and biomass were in wintertime about 3894 ind. m 3 and 10.16 mg. m 3 . Benthic fauna in recent study consisted 27 species included Gammaride (8,29% ), Cumacea (7, 26% ), Polychaeta (4,15% ), Bivalvia (3,11% ) and Oligochaeta, Balanidae and Xantidae each one (4% ) species. Mean benthic abundance and biomass were 1215 ind. m 2 and 20.09 g. m 2 , respectively. Polychaeta and Oligochaeta were established maximum frequency about 49 and 34% of total fauna while Bivalvia consisted 82.8% biomass overall.

Description: Iranian Fisheries Science Research Institute

Description: Published

Keywords: Ecological ; Survey ; Mnemiopsis leidyi ; Population ; Distribution ; Abundance

Repository Name: AquaDocs

Type: Report , Refereed

Format: 56pp.

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Survey of diversity, distribution, abundance and biomass of macrobenthic fauna in the southern Caspian Sea (2021)

Soleimani Roudi, Abdollah ; Hashemian, A. ; Raeisyan, E. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25403 | 18721 | 2018-09-20 12:22:36 | 25403 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: Sediments samples were collected using Veen Grab Sampler (0.1 square meter) at 8 transects namely Astara, Anzali, Sefidroud, Tonekabon, Noshahr, Babolsar, Amirabad, Torkman in the southern of Caspian Sea. Five stations were selected at 5, 10, 20, 50 and 100 meter depths in each transect. Sediments were sampled triplicate at each station. Samples also were collected during four seasons (spring (May), summer (July), fall (November) and winter (January)) in 2009. Results of this study showed that species composition of Macrobenthos consisted of 32 species which belonged to 7 families of Polychaeta, Crustacea and Bivalvia at studied area. In addition, Oligochaeta identified in “Class”, Chironomidae considered in Insecta categories “Family” and Streblospio spp. (Polychaeta) was recognized in “Genus”. Gammaridae and Pseudocumidae of Crustacea with 12 and 10 species had the highest species diversity compared to other groups, respectively. Polychaeta was consisted 75.5 percent of total abundance of macrobenthos which the major abundance (equal 62.4% of total abundance) were belong to Streblospio spp. from Spionidae family, while its biomass was equals 5.11% of total macrobenthos. In contrast, Cerastoderma lamarcki species from Bivalvia Class with only 1.7% of total abundance of macrobenthos allocated 69 percent of total biomass. In the southern of Caspian Sea, average total abundance was significantly less at 4 western transects (Astara, Anzali, Sefidroud, Tonekabon) compared to 4 eastern transects (Noshahr, Babolsar, Amirabad, Torkman) (p〈0.05). The highest average abundance of macrobenthos (10655±1246SE ind/m^2) was observed at transect of Torkman, and lowest value (4032 ± 686SE ind/m^2) was recorded at transect of Sefidroud (p〈 0.05). Generally, minimum species diversity were obtained at 20 m depth in all transects and the maximum value was observed at 5 m depth in most of transects (p〈0.05). In contrary, maximum average abundance of Macrobenthoses was at 20 m depth in transects of Anzali, Sefidroud, Tonekabon, Nowshahr and Amirabad compared to other depths. Macrobenthoses abundance average in 5 m depth (except Astara and Torkman) was less than other depths in 6 transect (p 〈 0.05). Total average abundance and biomass of macrobenthos was 5976±583SE ind/m^2 and 43.675 ± 11.402SE gr/ m^2, respectively. Maximum and minimum of abundance of macrobenthos were observed in summer (7714±778 ind/m^2) and winter (4071 ± 340 ind/m^2), respectively. Maximum and minimum of biomass of macrobenthos were obtained in fall (50.271±13.258SE gr/ m^2) and in summer (35.123 ± 8.903SE gr/ m^2), respectively (p〈 0.05). Percent of total organic matter (TOM) were low in 5 and 10 m depths and increased toward offshore depths. TOM percent was 2.06±0.11SE at 10 m depth and increased to 4.62 ±0.17SE in 100 m depth. Percent of silt and clay (grains size less than 63 micron) had positive significantly correlation with percent of TOM (p〈0.01).While they had negative significantly correlation with percent of sand (grains size between 63 and 1000 micron) (p〈0.01). Percent of silt and clay like organic matter, had ascending trend toward to depth increased and varied from 44.4 ± 4.06SE percent in 5 m depth to 96.5 ± 0.59SE percent in 100 m depth. In contrast, percent of sand decreased toward depth and varied from 54.5 ± 4.13SE percent in 5 m depth to 2.8 ± 0.53SE percent in 100 m depth. Result of current study showed that total abundance of macrobenthoses had positive significantly correlation with TOM percent (p〈0.01) and silt/clay percent (p〈0.05). Abundance of Oligochaeta had positive significantly correlation (p〈 0.01) with TOM and silt/clay percent. Two groups of Polychaeta, Gammaridae and Cerastoderma lamarcki had negative significantly correlation with TOM and silt/clay percent (p〈 0.01), and every four aforementioned groups had positive significantly correlation with sand percent (p〈 0.01). Overall, different correlation between abundance of various macrobenthos groups and TOM percent and type of grain size of sediment could be related to fluctuation of abundance of various macrobenthos groups at difference transects and depths. On the other hand, in study area were occurred simultaneously some phenomena such as increased abundance of Oligochaeta and Polychaeta, dominance of Streblospio Genuse (Polychaeta group), and decreases abundance of Bivalvia and appearance of Menemiopsis leidyi which need to study more and monitoring of this area.

Keywords: Ecology ; Iran ; Caspian Sea ; Astara ; Anzali ; Tonekabon ; Noshahr ; Babolsar ; Sefidroud River ; Macrobenthos ; Diversity ; Distribution ; Abundance ; Biomass ; Survey ; Fauna ; Sediments ; Samples ; Streblospio spp. ; Cerastoderma lamarcki ; Menemiopsis leidyi

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

Format: 105

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Designing and establishment of ISO/IEC 17025 in 3aboratories of Caspian Sea ecological research center (2021)

Esmaeili, Fariba ; Salmani, A. ; Lalooei, F. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25216 | 18721 | 2018-09-05 16:41:56 | 25216 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: The project was carried out between March of 2007 and November of 2009.Five laboratories of research center (Clinical pathology, Plankton, Molecular genetics, Pollutants, Analysis Instrument were selected for accreditation. The main stages for establishment of the system consisted of: 1-Conducting a gap analysis to compare the present state of the laboratories with ISO/IEC 17025 Training 2 General requirements for the competence of testing and calibration laboratories Validation of methods Estimation of uncertainty Internal audits 3- Performing of technical and management requirements 4-Submit of quality manual to Iran Accreditation System (IAS) in order to accredit In January of 2010 the laboratories were accredited by Iran Accreditation System (IAS). The main results were including: 1-Increase the accuracy of measurement 2-Improvement of the Repeatability and Reproducibility of the test methods 3-Traceability and standardization of test methods 4- Calibration of measurement instruments 6- Updating of test methods 7-Standardization of physical condition of the laboratories 8- Getting the certification from Iran Accreditation System (IAS).

Keywords: Information Management ; Iran ; Standardization ; ISO/IEC 17025 ; Laboratory ; Accreditation ; Calibration ; Ecological institute of Caspian sea

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

Format: 63

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Roohi, Abolghasem ; Hashemian, A. ; Naderi, M. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25121 | 18721 | 2018-08-26 13:31:31 | 25121 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: This project has been started as monitoring study since 2001 that in first phase has lasted for two years and because of its importance, it was decided that this study should be continued for two other years. In the early 1980s, an alien ctenophore Mnemiopsis leidyi already known as a gelatinous zooplankton was transported (likely via ballast waters) to the Black Sea from its native waters of the western Atlantic. The possibility of Mnemiopsis leidyi introduction into other sensitive, neighboring ecosystems, notably the Caspian Sea, had been mentioned during the GESAMP meeting in 1994. And, as expected, this ctenophore was reported to be present in the Caspian Sea by November 1999. In this report, spatial and temporal distribution of M. leidyi had been investigated in southern Caspian Sea (Iranian waters) in 6 transects consisted of Lisar, Anzali, Sefidroud, Nowshar, Babolsar and Amirabad at 24 stations during 2003 and 2004. As a whole, 818 samples had been analyzed included 236, 302, 136 and 144 belong to ctenophore, phytoplankton, zooplankton and benthos. Meantime 811 physicochemical parameters had been measured. Water temperature varied between 7.8 to 29.3 co. Transparencies also fluctuated from 0.20 to 10.5 m. Salinity in different regions was from 7.80 to 13.90 ppt and the average was 12.09 ppt. pH was between 7.2- 8.6. Demand oxygen (O2) has been measured very high in water surface (12.89 µg.l) and it decreased at minimum level in deep down to 4 µg.l. Nutrients measurements such as NO_2, NO_3 and NH_4 were 0.10-15.17 , 3.80- 133.40 and 0.36- 86.40 µg.l, respectively. Total nitrate and phosphate were measured between 337.00- 1635.00 and 14.90-103.40 µg.l, respectively. Comparison of M. leidyi distribution in the southern Caspian Sea shown that maximum abundance recorded in warm summer months (e.g. August) with 11627 ind.m^2 and its biomass maximum was in autumn months (September and October) about 446.11 gr.m^2 . Mean abundance and biomass of M. leidyi were 2504 ind.m^2 and 142.42 gr.m^2, respectively. Maximum size of the ctenophore recorded as 70 mm while the less than 10 mm length frequency consisted 92.2 per cent of total population. Spatial distribution of M. leidyi in different regions shown that Sefidroud not only had the maximum Mnemiopsis abundance but also consisted higher biomass in the southern Caspian Sea in 2003-4. At present study, 142 phytoplankton species were identified which belongs to Chrysophyta (67, 48), Chlorophyta (23, 16%), Cyanophyta (22, 15%), Pyrhophyta (21, 15%) and Euglenophyta (9, 6%). Mean phytoplankton abundance and biomass were 11137032 ind. m^3 and 40.26 mg. m^3, respectively. Chrysophyta (diatoms) consisted 42 and 47% of whole phytoplankton abundance and biomass. In the other hand, this group included 50 % of phytoplankton population. In zooplankton study, there were identified 21 species in which 10 species were only meroplankton (zoobenthic) and 11 species was holoplankton. These species belongs to Copepoda (4, 37%), Rotatoria (4, 36%), Cilliophora (2, 18%) and Cladocera (1, 9%). Monthly zooplankton abundance and biomass data shown that its population completely effected by Copepoda. Among copepoda, Acartia clausi was the main species duri ng 2003-4. As a whole, maximum abundance recorded in spring (March) and autumn (September) about 11497 and 11321 ind. m^3 while its maximum biomass occurred in summer (August) with 48.95 mg. m^3. Zooplankton minimum abundance and biomass were in wintertime about 3894 ind. m^3 and 10.16 mg. m^3. Benthic fauna in recent study consisted 27 species included Gammaride (8, 29%), Cumacea (7, 26%), Polychaeta (4, 15%), Bivalvia (3, 11%) and Oligochaeta, Balanidae and Xantidae each one (4%) species. Mean benthic abundance and biomass were 1215 ind. m^ 2 and 20.09 g. m^2, respectively. Polychaeta and Oligochaeta were established maximum frequency about 49 and 34% of total fauna while Bivalvia consisted 82.8% biomass overall.

Keywords: Ecology ; Iran ; Caspian Sea ; Iranian Coasts ; Ecological ; Survey ; Mnemiopsis leidyi ; Population ; Distribution ; Abundance

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

Format: 56

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