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Accelerated freshening of Antarctic Bottom Water over the last decade in the Southern Indian Ocean (2017)

Menezes, Viviane V. ; Macdonald, Alison M. ; Schatzman, Courtney

American Association for the Advancement of Science

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Publication Date: 2022-05-26

Description: © The Author(s), 2017. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Science Advances 3 (2017): e1601426, doi:10.1126/sciadv.1601426.

Description: Southern Ocean abyssal waters, in contact with the atmosphere at their formation sites around Antarctica, not only bring signals of a changing climate with them as they move around the globe but also contribute to that change through heat uptake and sea level rise. A repeat hydrographic line in the Indian sector of the Southern Ocean, occupied three times in the last two decades (1994, 2007, and, most recently, 2016), reveals that Antarctic Bottom Water (AABW) continues to become fresher (0.004 ± 0.001 kg/g decade−1), warmer (0.06° ± 0.01°C decade−1), and less dense (0.011 ± 0.002 kg/m3 decade−1). The most recent observations in the Australian-Antarctic Basin show a particularly striking acceleration in AABW freshening between 2007 and 2016 (0.008 ± 0.001 kg/g decade−1) compared to the 0.002 ± 0.001 kg/g decade−1 seen between 1994 and 2007. Freshening is, in part, responsible for an overall shift of the mean temperature-salinity curve toward lower densities. The marked freshening may be linked to an abrupt iceberg-glacier collision and calving event that occurred in 2010 on the George V/Adélie Land Coast, the main source region of bottom waters for the Australian-Antarctic Basin. Because AABW is a key component of the global overturning circulation, the persistent decrease in bottom water density and the associated increase in steric height that result from continued warming and freshening have important consequences beyond the Southern Indian Ocean.

Description: The 2016 I08S cruise and the analysis and science performed at sea, as well as the individual principal investigators were funded through multiple National Oceanic and Atmospheric Administration (NOAA) and NSF grants including NSF grant OCE-1437015. The research for this article was mainly completed at sea. For land-based work, V.V.M. relied on her postdoctoral funding through NSF grant OCE-1435665, and A.M.M. was supported in part by NSF grant OCE-1356630 and NOAA grant NA11OAR4310063.

Keywords: Salinity ; AABW ; Changes ; Water masses ; T-S properties ; Iceberg ; Calving ; Antartica ; Abyss ; Climate change

Repository Name: Woods Hole Open Access Server

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The study of propagation and culture of marine worm (Perinereis nuntia) (2021)

Zendehboudi, Abbasali ; Ghorbani, R. ; Pazir, M.Kh. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25268 | 18721 | 2018-09-07 07:30:30 | 25268 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: Marine polychaete worms living in different beds from coastal areas, so different cultures can be different effects on their development. The evaluation of this research initially, marine polychaete worms were collected in low tidal sea areas from Gulf Persian coast in Bushehr. During several stages of sampling do more than 2000 pieces of worm were taken and then transferred to Bandarga Shrimp Research Station (Iran Shrimp Research Center). So based on an observation the desired species identification (Perinereis nuntia). Then 400 pieces worm selected and transferred to tanks maintain immature worm (fiberglass tanks with dimensions of 2×2×0.5 m with 15 cm sand on floor). The results showed that even the worms (P. nuntia) in vitro reached sexual maturity able to spawn in captivity conditions and were absolute fecundity of 16010 ± 17630 eggs. After incubation eggs, larval culture into the plastic tank with 70 cm diameter, larval (1.5 to 2 mm) were introduced with density 2000 (pieces/m^2). In this research used to three different beds (tidal, filled with water all of time and wet bed) with three different food types (food shrimp, seaweed and vegetable waste), so there were 9 experimental treatments. All experimental treatments harvested and estimate production in each of them after 270 days. The seaweed tidal treatment with amount of 21.17 g/m^2 had best results and the all of wet treatments with 0 g/m^2 was the lowest production. Compare of beds showed that the tidal treatments have significant difference with other beds in growth factors (e.g. mean weight, survival percentage and total production) (P〈0.05). And for effect of food kind on growth factors, the result of difference foods in tidal treatment were analyzed. According this mater any treatments have no significant difference together in growth factors (e.g. mean weight, survival percentage and total production) (P〉0.05).

Keywords: Aquaculture ; Iran ; Persian Gulf ; Bushehr Province ; Propagation ; Culture ; Marine ; Worm ; Perinereis nuntia ; Polychaete ; Sampling ; Shrimp ; Perinereis nuntia ; Immature ; P. nuntia ; Sexual maturity ; Survival percentage

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A survey on environmental effects of shrimp pond culture effluents in Gwatar area (Sistan & Blouchestan) (2021)

Khodami, Sharareh ; Azini, M.R. ; Shakori, A. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25327 | 18721 | 2018-09-12 09:54:28 | 25327 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: Present project was conducted in shrimp farm located in east of Chabahar in Sistan and Balouchestan province.Twentieth sampling stations at three locations (i.e. 2 stations in supply channel,13 stations in drainage channel and 5 stations in Gwatar Gulf) were selected to determine physical and chemical factors such as; temperature, salinity, dissolved oxygen, pH, nitrate, nitrite, ammonia, phosphate and biological parameters for example Chlorophyll a, phytoplankton and zooplankton. Sampling was conducted once a month from March 2003 until January 2004. The results revealed different bioenvironmental area in the three locations (i.e. supply channel, drainage channel and Gwatar Gulf) over the study period. Concentration of salinity ,pH , nitatr ,nitrite ,ammonia and chlorophyll a in drainage channel were more than supply channel and Gawtar Gulf. While concentation dissolved oxygen and phosphate were in drainage channel less than Gawtar Gulf.Also, sediment with small grain size (clay and silt) caused uptake phosphate and amount phosphate decreased in drainage channel. Considering with lack of environment standards in Iran shrimp effluent, data compared with others countries standard. Results showed that with considerable farm area, value of temperature, salinity, dissolved oxygen and pH were in permit range in Gwatar Gulf while concentation nitrate, phosphate and chlorophyll a were sometimes more than permit range that could cause plankton bloom. Also, Gwatar Gulf were influence monsoon. Nitate, phosphate, chlorophyll a and phytoplankton increased in gwatar Gulf.Regards with that postmonsoon was simultaneus with shrimp harvest.Therefore, increase some parameters could be caused from shrimp effluent or postmonsoon. Thirty four phytoplankton genus were identified including diatoma, dinoflagellate, cyanophyta and chlorophyta. In each area maxiumum percentage of phytoplankton were belonged to diatoma (63%) in supply channel, cyanophyta (51.7%) in drainage channel and dinoflagellate (94.5%) in Gwatar Gulf.Amount and range chemical and physical factors and plankton composition were different in drainage channel, supply channel and Gwatar Gulf. Cyanophyta could grow more in drainage channel.Percentage of aboundance and diversity of phytoplankton changed in 2002 inrelation to years ago( before shrimp culture, 2000 year and 2001 year) specially in Gwatar Gulf. Mainly percentage of zooplankton were copepoda and thintinida respectively.Diversity zooplankton decreased ratio to years ago. In drainage channel, abundance total of phytoplankton and zooplankton were more than Gwatar Gulf and supply channel.

Keywords: Aquaculture ; Iran ; Sistan and Blouchestan ; Gwatar ; Chabahar ; Environmental effect ; Shrimp culture ; Survey ; Sampling ; Temperature ; Salinity ; Dissolved oxygen ; pH ; Chlorophyll a ; Phytoplankton ; Zooplankton ; Diatoma ; Cyanophyta ; Chlorophyta ; Copepoda

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The study of increasing production of warm water fish per unit area in West Azarbaijan Province with using aeration and nutrition management (2021)

Peykaran Mana, Nemat ; Asadpur, A. ; Yahyazadeh, M.Y. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25366 | 18721 | 2018-09-14 07:18:17 | 25366 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: This project in partnership with Azerbaijan State Fisheries Department and the aim of increasing fish production hydrothermal (Carp fish) at unit area through providing scientific and practical method in applying air device and nutrition management, a field area of 8.5 hectares and in ponds with 3300 m^2 at village Eylarzgy carried at Urmia city. After preparation of ponds, action to release fry density was 6000 ha piece. Percent including 55 percent of silver carp (as most fish), Common carp 31 percent, 8 percent Grass carp and 6 percent of Big head with average weights 67 to 92 grams respectively. For fertilizing ponds in addition to basic fertilizer, during development, organic fertilizers (cow) amount to 24 ton/ hectar (Aslary) once every two days and types of mineral fertilizers (chemical) rate of 1012.5 kg per in three days once were used. In addition to feeding carp fish with natural food, concentrates and food for feeing Grass carp fresh forage (alfalfa) was used. Oxygen supply required for ponds were provided with one to two air units (Air jet). Sampling and biometry of fish and water samples for water analysis and identification of plant zooplankton (of the family and genus) once every month until the end of the growing period was performed. Resulting data were analyzed with Excel statistical software. Results showed that the production rate in the studied ponds was 4.74 tons per hectare and production of 3.15 tons per hectare in year ago, the farm has 50.5 percent increase compared to year ago average production rate in the whole province (3.21 tons per hectare) of 47.7 percent and the average production rate in the country in 1385 (about 3.8 tons per hectare) 24.7 percent increase shows.

Keywords: Aquaculture ; Iran ; West Azarbaijan province ; Increased production ; Ponds ; Feeding ; Air ; Warm water fish ; Nutrition ; Hydrothermal ; Carp fish ; Silver Carp ; Common carp ; Grass carp ; Big Head ; Fertilizers ; Sampling ; Zooplankton

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Biomass estimation of demersal resources in the Persian Gulf and Oman Sea by swept area method (2021)

Valinasab, Tooraj ; Daryanabard, G.R. ; Taghavi, S.A. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25383 | 18721 | 2018-09-14 07:42:31 | 25383 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: Regarding to monitor of demersal resources in the Persian Gulf and Oman Sea, and also biomass and CPUA estimation of them, eleven research cruises were carried out by using R/V Ferdows-1 equipped with bottom trawl, covering the area from 49º 00´ E in the west (borderline with Kuwait) to 61º 25´E in the east (borderline with Pakistan) from 2009 to 2011. The study area was stratified into 17 strata (A to Q) of which 10 strata (A to J) were in the Persian Gulf and 7 strata (K to Q) were in the Oman Sea, covering the depths of 10-50 m in the Persian Gulf and 10-100 m in the Oman Sea. A total of 316 stations were randomly selected and the biomass and CPUA were estimated by swept area method. In 2009, due to the bloom of jellyfish, there was some problem for sampling and therefore made some bias in our estimation. Therefore, the biomass of jellyfish was excluded from all calculations. The comparison between two regions indicated that the percentage of density of demersal fishes in the Persian Gulf during years 2009, 2010 and 2011 were 1.5, 3.7 and 1.7 times more than the Oman Sea and totally 60-80% of total biomass was found for the Persian Gulf. Also a comparison among 17 strata the highest biomass was found for K region (Sirik to Jask) in the Oman Sea in 2009 & 2011; and C & D regions (Genaveh to Dayyer) in 2010 in the Persian Gulf. The same comparison was done for CPUA of commercial, non-commercial and total in both water bodies and it was found that in years 2009 and 2011 the regions of L (Jask to Meidani) and K (Sirik to Jask) in the Oman ; and 2010 the G region (Mogham to Farour) in the Persian Gulf had the highest value of this parameter. It can be concluded that the north-west of the Oman Sea has the best condition of biomass and CPUA of commercial and non-commercial demersal fishes; and on the contrary the low values were estimated for A region (north-west of the Persian Gulf) and P region (Konarak to Ramin) in the Oman Sea. With review the mean CPUA in defferent depth layers for years 2009, 2010 and 2011, it was concluded that with increasing the depth, the mean CPUA is decreased and the lowest CPUA belongs to depths of 50-100 m. The comparison between commercial and non-commercial groups in both ecosystems, it concluded that the density of commercial species were higher than non-commercial ones; and for years 2009, 2010 and 2011 the commercial species consist of 52.2, 57.1 and 59.7 % of total biomass. In all years the Persian Gulf indicated higher values than the Oman Sea. The most abundant fishes were Rays, Catfishes, Grunts, Japanese threadfin bream, Carangids, Hair tail, Barracuda and Lizardfish for both Persian Gulf and Oman Sea.

Keywords: Fisheries ; Iran ; Persian Gulf ; Oman Sea ; Sirik ; Jask ; Bandar Genaveh ; Commercial fishes ; Non-commercial fishes ; Biomass ; Catch per unit of area ; CPUA ; Sampling ; Density ; Species ; Catfishes ; Grunts ; Japanese threadfin bream ; Carangids ; Hair tail ; Barracuda ; Lizardfish

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Hydrology and hydrobiological monitoring in the northeastern part of the Persian Gulf and Strait of Hormoz (Hormozgan Province water) (2021)

Ebrahimi, Mahmoud ; Mohebbinozar, L. ; Seraji, F. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25144 | 18721 | 2018-08-26 13:55:37 | 25144 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: Hydrology and Hydro-biological monitoring in the Northeast Persian Gulf and strait of Hormuz (Hormozgan Province waters) were conducted during 2003-2004.The project was implemented using R/V Ferdous.The sampling area included the stretch of the Iranian waters along the northeast part of the Persian Gulf and Strait of Hormuz in Hormuzgan province. Along this stretch 7 equally distributed transect at a distance of 40 miles from one another were designated; 3 main sampling stations at a distance of 20 miles from one another were fixed at each transect. Sampling was conducted twice per annun from Feb. 2003 to Feb. 2004. Summer & winter values of some Physico-chemical factors in surface layers of Hormozgan waters were recorded as follows: Temprature 33±0.082 , 21.8±0.67 ?c ; EC 66.1±1.52 , 53.3±0.66ms/cm ; Salinity 37.9±0.54, 37.8±1.6 ppt , Density 22.9±0.39 , 25.5±0.99 kg/m^3, Dissolved oxygen 5.4±0.26 , 6.7±0.35 ppm ; pH 8.2±0.02 , 8±0.03 ; chlorophyll-a 0.7±0.4 , 1.3±0.72 mg/m^3 and Turbidity 6.1±0.92 , 5.7±0.67 FTU. According to the result a seasonal thermocline appears in the Iranian waters during summer and disappear during winter, extended with its maximum formation in summer. The temperature differences between surface and bottom waters was 12?C. The thermocline diminishes near the Strait of Hormuz area, horizontal and vertical distribution recorded. Increase in salinity and density from northeast towards northwest and from surface to depth. Electrical conductivity depends on temperature in summer but in winter depend on salinity. Dissolved oxygen was higher in the layer of 5-20m and decrease with increasing depth. Maximum chlorophyll-a was recorded in layers of 10-30m and 5-20m in summer and winter respectively. The density of nutrients increase from surface to depth but decrease from northeast towards northwest and density of nutrients in winter was higher than summer show write how much. Plankton population in this study characterized by 4 phylum and 5 classes of phytoplankton, 6 phylum and 8 classes of zooplankton and 23 family of Ichthyoplankton. Total 63 spices of phytoplankton belonging to 43 Bacillariophyceae, 14 Dinophyceae, 4 Cyanophycea, one Chrysophycea and one Euglenaphycea. Bacillariophyceae inparticular show very high density in winter 83 and Euglenaphycea is dominant group only in winter. Crustaceans were the most dominant group of zooplankton. Calanoids and Cyclopoids were abundant at all stations. Zooplankton were increase from East to West. Among Ichthyplankton, Clupeeiidae family the most abundant, the Gobiidae was in second position and followed by Engrauliide with high density than other family. All together 124 genera belong to 132 families of macro-benthos were identified. As they consist of 59 genera belong to 49 families of Polychaete, 27 genera belong to 44 families of gastropod, 23 genera belong to 27 families of Bivalve, 15 genera belong to 10 families and 2 order of Crustacean and 2 families of Scaphopoda. Additionally some groups of Echiurida, Sipunculida , platyhelminenthes, Echinodermata, Foraminiferans, Cnideriars,Chordata, Cheatognatha and Lophophora were identified. The most dominant groups were Crustacean and Polychaetes in percentage of abundance proportion of studies in last years .The mean biomass of macrobenthos has been decreased to 4.7 g/m. Note: Some species of macro-benthos identified up to family

Keywords: Ecology ; Iran ; Persian Gulf ; Hormozgan Province ; Strait Of Hormuz ; Seasonal Thermocline ; Oxicline ; Holocline Macro-Benthos ; Plankton ; Ichthyoplankton ; Nutrients ; Sampling ; Temprature ; Salinity ; Dissolved oxygen ; Population ; Phylum ; Cyanophycea ; Chrysophycea ; Euglenaphycea ; Echiurida ; Sipunculida ; Platyhelminenthes ; Echinodermata ; Foraminiferans ; Cnideriars ; Chordata ; Cheatognatha ; Lophophora

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Studying native fishes in Hamadan province (2021)

Abbasi, Keyvan ; Sarpanah, A.N. ; Sadeghinezhad, E. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25437 | 18721 | 2018-09-23 16:57:02 | 25437 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: Studying native fishes of Hamadan province have been done in 159 stations from 51 important water resources (wetland, reservoir, spring, river and qanat) using with electric tool, cast-net, seine and gill-net gears from July 2010 to Oct. 2011 and the main aims were species identifying and determining their distribution and abundance in the studied area. In the study, 33411 fish specimens are caught in 257 times of sampling and selected randomly about 8500 individual and laboratory works showed the fish belong to 37 species from 7 families. Cyprinidae with 25, Nemacheilidae with 6 and Sisoridae with 2 species had the most diversity and Cobitidae, Poeciliidae, Salmonidae and Mastacembelidae had only a representative. 31 fish species were native or endemic and 6 species were alien. Fish species existed in all rivers of Ghezelozan and Sirvan sub-basins but there were not any fish in 10 rivers of Ghara-Chai sub-basin and in 6 rivers of Gamasiab sub-basin, too. Also, it was observe 1-3 fish species in 15 rivers, 4-6 fish species in 10 rivers, 7-10 fish species in 5 rivers and more than 10 fish species in 4 main water resources and Gamasiab sub-basin with 32 fish species was the most diversified and Ghezelozan sub-basin with 2 fish species was the least diversified. There were any species to 4 (mostly 1 or 2) fish species in studied qanats in Ghara-Chai and Gamasiab rivers sub-basins. 23 fish species existed in a subbasin, 12 species in 2 sub-basin, Capoeta capoeta in 3 sub-basin and Squalius cephalus in all sub-basins of studied area. Alburnoides nicolausi,Capoeta aculeata and Alburnus mossulensis have had the most frequency. Studying fish abundance showed Oxynoemacheilus argyrogramma with 17.8%, Garra rufa with 12.3%, A. mossulensis with 12.1% and C. aculeata with 10.2 % of total number of caught fish specimens are dominant. S. cephalus, Capoeta damascina, C. aculeata, C. trutta, Chondrostoma regium and A. mossulensis have had sport fishing value but Acanthobrama marmid, Oxynoemacheilus kiabii, Oxynoemacheilus kermanshahensis, Turcinoemacheilus kosswigi, Alburnus caeruleus and Mastacembelus mastacembelus have biodiversity value for being endemic or having limited habitats in Iran.

Keywords: Biology ; Iran ; Hamadan Province ; Gamasiab River ; Ghara-Chai ; Gaveh Rud ; Ghezelozan ; Fish diversity ; Abundance ; Distribution ; Specimens ; Sampling ; Cyprinidae ; Nemacheilidae ; Sisoridae ; Cobitidae ; Poeciliidae ; Salmonidae ; Mastacembelidae ; Capoeta capoeta

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A study on environmental pollutants (pesticides, heavy metals & detergents) in surface water, underground water and wastewater of Mangol Dam basin (Mazandaran province) (2021)

Najafpour, Shaban ; Porang, N. ; Negarestan, H. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25475 | 18721 | 2018-09-26 09:57:49 | 25475 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: At the present study, the environmental pollutants such as organochlorine pesticides (OCPs), heavy metals (during three seasons) and surfactants (during four seasons) were done 2009 to 2010 that located in Mangol Dam with longitude and latitude 52° 22' 49" N and 43° 15' 43" E, respectively. The aims of this study were to determine the seasonal pollutants matters in water samples of under-groundwater and surface water in 12 stations and the results are as follow: The maximum residues fluctuations of OCPs were determined in between all water samples such as aldrin and endrin about 1.51 and 2.85 µg/l, respectively. The mean concentration of aldrin and endrin about 0.66 ± 0.59 and 0.71 ± 1.07 µg/l, respectively were determined. The maximum seasonal concentration of OCPs were detected in fall, winter and spring for such as endosulfan sulfate, γ-BHC, heptachlor, endrin aldehyde compounds about 2.85, 0.34, 0.14 and 0.14µg/l, respectively. The maximum seasonal percentage range of OCPs were detected in fall, winter and spring in water samples such as endosulfan sulfate, DDD and β-BHC were 42, 25 and 25 %, respectively. The maximum seasonal concentrations of Zn and Fe elements were detected in spring about 1.12 and 8.22 µg/l, respectively. Also for Hg in spring was determined about 17.2 mg/l. The mean concentration of Zn, Fe and Hg in water sampled were 0.23±1.01 and 1.21±2.00 µg/l, respectively and 4.65±6.38 mg/l. The maximum seasonal percentage range of heavy metals were detected in fall, winter and spring in water samples such as Ni, Zn and Fe were 66, 83 and72%, respectively. The maximum seasonal concentrations of heavy metal were detected in Sorkhroud and Polechelave stations during fall, winter and spring for only Fe about 1.48, 3.3 and 8.22 µg/l, respectively. The maximum concentration of linear alkyl benzene sulfonate (LAS) in last month of summer was 971µg/l. The mean concentration of surfactant during fall, winter, spring and summer was 418.62±52.16 µg/l. The maximum seasonal percentage range of surfactant uring fall, winter, spring and summer in all stations of sampling were 76, 76, 100 and 100 %, respectively.

Keywords: Pollution ; Iran ; Mazandaran Province ; Mangol Dam basin ; Haraz River ; Sorkhroud river ; Organochlorine Pesticides ; OCPs ; Heavy Metals ; Surfactants ; Environmental Pollution ; Suface water ; Underground water ; Wastewater ; Samples ; Sampling

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Hydrology and hydrobiological study of the Iranian waters in the Oman Sea (2021)

Ebrahimi, Mahmoud ; Owfi, F. ; Dehghan, S. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25520 | 18721 | 2018-10-05 07:57:39 | 25520 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: In this survey, hydrology and hydrobiologycal studies in the northern part of the Oman Sea and Strait of Hormuz within the Iranian waters were conducted during 2007 and 2009.The project was implemented using Ferdous research vessel.The sampling area included the whole stretch of the Iranian waters along the northern part of the Oman Sea from the northeast of the Iranian marine border of 30 miles Bay of Chabahar to the mouth of the Hormuz Strait in Hormuzgan province. Along this stretch 10 equally distributed transects at a distance of 30 miles away from each other were designated, 4 main sampling stations at a distance of 10 miles from one another were fixed at each transect. Sampling was conducted twice a year (spring and autumn 2007 and 2009). According to achieved results; we can point out to the following outlines below: permanent thermocline exists annually in this body of water; where only the point of start, and the fracture width of thermocline layer; alter with alteration of seasons. Horizontal and vertical distribution of electrical conductivities, obey exactly from thermal degree structure.Level of salinity increase from east to west, but it decrease; from surface to deeper layers. In deeper regions, especially in the midway east of the Oman Sea; the level of salinity in the deeper waters from 150-300m, there is a considerable increase observed in salinity, due to very high salinity waters of The Persian Gulf; that are entering the Sea of Oman, via the Striate of Hormouz from the bottom; where they are having their effect following the whole length of the Sea of Oman; through their path. The level of water density from offshore to onshore, and from surface to deeper levels increase in such a way that. The level of Chlorophyll-a in surface waters, in the northeastern midway; is higher than the northwestern midway of the Sea of Oman, and it decreases from inshore to offshore waters, but its vertical distribution; has caused somehow in a way, that the highest distribution and concentration of chlorophyll-a; to be formed in deeper layers, between about 10-40m depths. Then by the increase in water depth, its concentration decreases drastically; reaching zero in magnitude. Concentration of dissolved oxygen is higher in spring in comparison to that of autumn, and the highest level is achieved in water layers located at 10-40m depth (where the level of chlorophyll-a is higher). In addition to which, that its vertical structure; shows the existence of a permanent oxycline layer at this region, in a way that; by seasonal alterations (similar to that of thermocline layer), only the point of start and that of the thickness of oxycline layer changes.pH level decreased from water surface, and its vertical alteration trend; obeyed to that of the same for temperature and chlorophyll-a vertical structure, especially for dissolved oxygen parameter, where the maximum decrease was recorded coinciding with formation of oxycline layer.Nutrient levels increased; at surface water layers from offshore to inshore, and from west to east, for the same body of water. In addition to that, concentration of nutrients in autumn (after monsoon); were more than that of, spring season (before monsoon), where; concentration of their vertical structure increase from water surface toward deeper sections. In this survey six phylum of phytoplankton including in Bacillariophyta (88) Pyrophyta (111), Cyanophyta (6), Chropmophyta (2), Euglenaphyta and silicoflagellate (1) were identified. A result showed that density decreased in most transects from inshore toward sea and maximum density was in photic layer (0-25m). Phytoplankton densities (without Cochlodinium density) in post-monsoon were recorded higher than pre-monsoon, furthermore phytoplankton density in 2009 was more than 2007(6073±1038) Species richness was indexed in the pre-monsoon and post-monsoon 2007 (0.337-0.519), (0.296-0.396) respectively and to (0.967-1.525), (1.407-1.531) for 2009. Zooplankton population in this study is characterized by eight phyla, eight classes, 15 orders, 35 families and 78 genus. In 2007, the pre-monsoon percentage of groups were frequently as following: Copepoda with stages of Nauplius and Copepeditide were 78%, Ciliphora 8%, Sarcomastigophora 4% and Hemichordata 6%. In post-monsoon order of frequency Copepoda 80%, Ciliophora 6%, Coelenterata 5%. Copepoda was the most abundant group of zooplankton.In 2009, The pre-monsoon Copepoda (82%), Cilillophora(9%), Sacromastigophora(4%) and Hemichordata (2%) in post-monsoon Copepoda(70%), Ciliophora (20%),Sarcomastigophora(4%) and Hemichordat (2%) dominante group were respectively. The static result showed significance betweendifferent transects and layers.We were recorded 31 ichthyoplankton families with different density and distribution during 2 years. Among benthic invertebrate polychaete with average 800 ind-2 and then amphipods and gastropods were the most abundance.Yearly density of macrobenthos showed polychaete with the average of 500 ind.-2 in 2007 and 1000 ind.-2 in 2009 was the most abundance . Macrobenthos density in postmonsoon was more than premonsoon.p〈0.05. An increasing and decreasing in density and biodiversity was obtain from coast to depth respectively p〈0.05.There was no significant different between macrobenthos density from Hormoz strait to Golf of Guiter.p〉0.05.There was a negative regression between macrobentos density and depth(p〈0.05) and positive rsgresion between macrobenthos and oxygen concentration and temperature.(p〈0.05).There was also a significant relationship between macrobenthos ,coppepda and polychaete density with organic carbon.p〈0.05.Bimass changed from strait to Golf and coast to depth increasingly.p〈0.05. The results of the measurement of heavy metals in water and Sea bed showed that the Concentration of heavy metals in surface layers in waters of the northern half of Oman Sea and Strait of Hormuz in spring (pre-monsoon) is more than autumn (after monsoon), and Degree of pollution in these areas are low compared to the global scale, Also, The results of the degree of contamination of sediments across the northern half of Oman Sea and comparison Global indicators of environmental quality assessment, it was found that the degree of contamination in the area in spring and autumn are low pollution. Comparison of the TPAH concentration of in Iranian waters of the Gulf of Oman, with other parts of the world indicate that degree of pollution of the waters in the spring 86 in the other seasons too low to medium level is low; but the degree of contamination in sediments, both in spring and in the autumn is much less; It means that the current risk on behalf of these contaminants, does not threaten the fish and benthos. The results of the risk assessment (THQ) of heavy metals in consumer, for yields Sangsar fish and fish Gish showed that the risk for both all the heavy metals, significantly lower than the one(1〈) and This means that urban communities in the province does not present any danger of feeling threatened.

Keywords: Ecology ; Iran ; Oman Sea ; Strait of Hormuz ; Bay of Chabahar ; Hydrologi ; Sampling ; Chlorophyll-a ; pH ; Nutrient ; Bacillariophyta ; Pyrophyta ; Cyanophyta ; Chropmophyta ; Euglenaphyta ; Silicoflagellate ; Phytoplankton ; Copepeditide ; Ciliphora ; Sarcomastigophora ; Hemichordata ; Copepoda ; Ciliophora ; Coelenterata ; Zooplankton ; Polychaete ; Macrobenthos

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Biomass estimation, opening and closure of Shrimp (Penaeus semisulcatus) fishery in Bushehr waters (Persian Gulf) (2021)

Moradi, Gholam ; Niamaimandi, N. ; Asadi Samani, N. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25206 | 18721 | 2018-09-04 08:43:13 | 25206 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: From June 2004 to March 2006, a survey in Iran waters (Bushehr province) has completed. Sampling was accomplished in two area, north and south. In this period 15 cruises achieved in summer and 3 cruises in autumn and winter. In each cruise of north and south area 18 and 30 stations were sampled respectively. Stations row on three depth stratums that is, below 10 m, 10-20 m, and 20-30 m in total area from Bahrekan to Motaf. Some Biological parameters such as sex stages, sex ratio, mean total length, species composition were measured. Duration of shrimp fishing season in years 2004, 2005 and 2006 were 40, 44 and 40 days in summer respectively. In June and august the Catch per Unit Effort (CPUE) in south was more than northern area. CPUE increases in north area especially at the end of summer during fishing season gradually. Computing on Biomass estimation resulted 674, 1024 and 873 ton in years 2004, 2005 and 2006 respectively for all shrimp species (usually tiger shrimp, white shrimp and other). Total commercial landing of shrimp catch in above years were 1602, 1597 and 1110 ton respectively. Percentage of tiger shrimp in commercial landing in above years was 77, 75 and 84 respectively. We found that the least mean length of tiger shrimp was observed in southern area especially from Motaf to Rodmond stations. The schools of prawn penaeus semisulcatus enter to Bushehr waters from southern area that is Motaf region. Other than Motaf; Nakhilu, Rase khan and Rod-mond show same characteristics. Also in this region, density of shrimp increases with depth in most summer cruises. The result from analyses of gonad maturation studies shows the adult and mature females (stages III and IV) of P. semisulcatus accumulate in northern area at the end of autumn. This stock catches in autumn by illegal fishing.

Keywords: Fisheries ; Iran ; Persian Gulf ; Bushehr province ; Biomass ; Shrimp ; Penaeus semisulcatus ; Fishery ; Green tiger prawn ; Opening season ; Closure season ; Survey ; Sampling ; Sex ratio ; Species ; CPUE ; Illegal fishing ; Parameters

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