Sergey Dobrestov scite author profile

The cyanobacterial layer (1-3 mm) of microbial mats of Wadi Muqshin, Sultanate of Oman, in hypersaline continental pools near the Empty Quarter desert were analyzed for cyanobacterial diversity, pigments composition and antibacterial and quorum sensing inhibition activities at the microbial community level. The salinity of the ponds reached up to 75 ‰, the temperature was around 49 °C and the salt composition was similar to seawater. Cyanobacteria in pools containing coccoid and filamentous forms similar to those normally found in salt ponds and in intertidal flats were found. Among the observed taxa were Microcoleus chthonoplastes, Spirulina subsalsa, Johannesbaptistia pellucida, Chroococcidiopsis sp., Aphanocapsa sp., Chroococcus sp., Gloeocapsa sp., Schizothrix sp. and Leptolyngbya sp. Using high performance liquid chromatography (HPLC), the pigments chlorophyll a, scytonemin, chlorophyllid a, β-carotene and fucoxanthin were detected, with the highest concentrations obtained for the ultraviolet (UV) sunscreen pigment scytonemin. The chemical extracts of the microorganisms in the mats cyanobacterial layer exhibited antibacterial activity against 3 out of 9 tested pathogenic bacterial strains and showed quorum sensing inhibition activity against the reporters Agrobacterium tumefaciens NTL4 (pZLR4) and Salmonella enterica S235 but not Chromobacterium violaceum CV017. We conclude that the studied inland hypersaline microbial mats harbor similar diversity to their counterparts in intertidal flats and evaporation ponds and could produce chemical compounds that are of biotechnological significance.

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Antifouling enhancement of polyethersulfone membranes incorporated with silver nanoparticles for bovine serum albumin and humic acid removal

Al-Bulushi¹,

Al-Hinai²,

Al-Obaidani³

et al. 2021

Desalination and Water Treatment

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Study on distribution of Cysts of Harmful Algal Blooms-forming algae at Sohar Industrial Port, Sea of Oman

Al-Kharusi¹,

Al-Hashmi²,

Dobrestov³

2019

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The current study focused on assessing the presence/absence of cysts of some harmful algal species in Sohar Industrial Port (SIP) and in the seawater intake basin of the desalination plant located in the Sea of Oman. A total of seven type's species of potential harmful dinoflagellate cysts species were identified inside Sohar Port and in its surrounding area, while no cysts were found in the intake area of the desalination plant. The presence of cysts-forming algae in the port and their absence from the intake site of the desalination plant indicates that the port is providing a suitable environment for their survival. M. polykrikoides cysts were found during the two periods of sampling indicating their establishment of population and may well pose serious threat to the desalination plant in the future.

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