Marine mammal records from Iran

Braulik, Gill; Ranjbar, Sharif; Owfi, Fereidoon; Aminrad, Teymour; Mohammad, Seyed; Dakhteh, Hashem

doi:10.47536/jcrm.v11i1.630

Cited by 35 publications

(5 citation statements)

References 8 publications

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“…In Iran, a compilation of marine mammal records from universities, natural history museums, Department of Environment (DoE) offices, Iranian Fisheries Research Organisation (IFRO) centres and various non-governmental wildlife organisations (NGOs) confirmed 25 records of finless porpoise; 23 were from the Persian Gulf and two from the Gulf of Oman (Braulik et al, 2010). Records appear to be concentrated around Bushehr, near the head of the Arabian/Persian Gulf, and Qeshm Island, near the Strait of Hormuz.…”

Section: Arabian/persian Gulf Arabian Sea Bay Of Bengal and Andaman Seamentioning

confidence: 99%

“…In Taiwan, an analysis of strandings between 2019-20, indicated that of the known causes of death, bycatch accounted the highest proportion or mortality, followed by ship strike and disease (IWC, 2021c). In Kuwait, where cause of death was determined, ship strike accounted for the highest proportion, followed by bycatch of recovered finless porpoise strandings (Nithyanandan and Bohadi, 2021) and in Iran, the high number of bycaught individuals recorded suggests that incidental mortality in fishing gear is unsustainable (Braulik et al, 2010). There is little information on the level of directed take, however, it seems unlikely that this is a significant threat, compared to bycatch.…”

Section: Threatsmentioning

confidence: 99%

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Report of the Scientific Committee

2024

JCRM

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Section: Arabian/persian Gulf Arabian Sea Bay Of Bengal and Andaman Seamentioning

confidence: 99%

Section: Threatsmentioning

confidence: 99%

Report of the Scientific Committee

2024

JCRM

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“…Conversely, the Iranian coast of the Persian Gulf is thought not to be inhabited by dugongs (Preen, 2004;Braulik et al, 2010). This may be because seagrasses (Order Alismatales), which dugongs exclusively depend on for food (Jefferson et al, 2008), are not distributed uniformly across the sea (Erftemeijer and Shuail, 2012).…”

Section: Journal Of Animal Diversity (2023) | © Lorestan University P...mentioning

confidence: 99%

“…It raises the suspicion that perhaps some of the sightings may have been opportunistic, made by non-scientists, and could have confused the Indo-Pacific finless porpoise, Neophocaena phocaenoides (G. Cuvier), common in HBR, with D. dugon. Neophocaena phocaenoides is widely distributed in the Persian Gulf, including in the shallow Iranian waters (Baldwin et al, 1999;Braulik et al, 2010), and due to their gray color and lack of dorsal fin, are most likely to be confused with D. dugon where their habitats overlap in shallow tropical Indo-Pacific waters (Jefferson et al, 2008).…”

Section: Journal Of Animal Diversity (2023) | © Lorestan University P...mentioning

confidence: 99%

After two decades: extremely rare records of dugongs, Dugong dugon (Sirenia: Dugongidae), in the Iranian Persian Gulf

Tollab,

Rezaie-Atagholipour,

Ali Abedi

et al. 2023

JAD

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The world's second-largest dugong, Dugong dugon (Müller), population after that of Australia forages among rich seagrass meadows along the Arabian coast of the Persian Gulf; however, the relatively seagrass-poor Iranian coast is considered an exceptional habitat for the species. The last modern dugong records along the Iranian Persian Gulf occurred two decades ago, which, however, are unsupported. Here we present two new documented records of D. dugon from an area in the Iranian coastal waters of Bushehr Province, near the Mond River estuary (Mond Protected Area), northeastern Persian Gulf. These include one individual, probably female, of ca. 2.5-3 m body length found floating, in moderate decomposition, in offshore waters of the Motaf fishing ground on 30 April 2021, and one ca. 3 m female encountered entangled in a set gillnet in inshore waters of the same area on 29 December 2022, and which was successfully released alive. The potential of the area as a possible historical habitat for dugongs, and further implications, are discussed.

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“…have been exposed to multiple environmental stressors. Oil spills from the discharge processes, tanker water depletion, oil well operations, tanker accidents, destruction, and burning of oil rigs and urban runoffs have imposed the Persian Gulf to severe environmental hazards (Nadim et al, 2008;Braulik et al, 2010). Due to the rapid industrial growth in the region and high-density oil facilities as well as the high volume of oil shipments, the risk of oil pollution in this area has signi cantly increased, becoming one of the most anthropogenically impacted regions in the world (Neff., 1979;Mehdinia et al, 2015;Vaughan et al, 2019;Dashtbozorg., 2019).…”

Section: Introductionmentioning

confidence: 99%

Sourcing aliphatic and polycyclic aromatic hydrocarbons (PAHs) in Jinga shrimp (Metapenaeus affinis) muscle tissues and surface sediments (study case: Northwest Persian Gulf)

Monjezi,

Bakhtiyari,

Alavi-Yeganeh

2024

Environ Sci Pollut Res

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The Persian Gulf, known for its abundant oil and gas reserves, faces signi cant contamination from hydrocarbon compounds originating from industrial activities. This study focused on investigating the distribution and source of aliphatic (AHs) and polycyclic aromatic hydrocarbons (PAHs) in the surface sediments of the Northwestern Persian Gulf and the muscle tissues of Jinga Shrimp (Metapenaeus a nis), one of the most commercially exploited aquatic species.The methodology involved sampling Jinga Shrimp in November 2018 from four important shing areas in Behrgan and Khormousi Estuary: Imam Khomeini Port (S1), Mahshahr Port (S2), Seja (S3), and Behrgan Wharf (S4). After determining the sex of the shrimps, male samples were selected for analysis, and a total of 28 samples were collected. Additionally, sediment samples were collected from the same locations. The pollutants in the samples were quanti ed using laboratory procedures.The results revealed that the average concentration of aliphatic compounds in Jinga Shrimp was 4800.32 (µg g − 1 DW), while sediment samples showed an estimated value of 2496.69 (µg g − 1 DW). By analyzing the hydrocarbon components, the average concentration of EPA Priority List (PAH-16) and measured PAHs in Jinga Shrimp were in the ranges of 1095.8 to 2698.3 (ng g − 1 DW) and in sediments were 653.6 to 1019.5 (ng g − 1 DW), respectively. The higher concentration of AHs and PAHs in Jinga Shrimp compared to sediments indicated the petrogenic source of these compounds. The predominant PAHs in both shrimp and sediment samples were the compounds with low molecular weight (LMW). Moreover, the aliphatic composition pro les in shrimps were similar to those in sediments, portraying a gradient of even-to-odd carbon dominance.The study found a positive and direct correlation between hydrocarbon concentrations in both shrimp and sediment samples and the corresponding aliphatics, PAH-16, and PAH-29 groups, a rming the potential of the Jinga Shrimp as an indicator of hydrocarbon pollution.

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Marine mammal records from Iran

Cited by 35 publications

References 8 publications

Report of the Scientific Committee

Report of the Scientific Committee

After two decades: extremely rare records of dugongs, Dugong dugon (Sirenia: Dugongidae), in the Iranian Persian Gulf

Sourcing aliphatic and polycyclic aromatic hydrocarbons (PAHs) in Jinga shrimp (Metapenaeus affinis) muscle tissues and surface sediments (study case: Northwest Persian Gulf)

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