Nutritive effect of dust on microbial biodiversity and productivity of the Arabian Gulf

Mohammad A. A. Al-Najjar; Christopher Munday; Artur Fink; Mohamed A. R. Abdel-Moati; Waleed Hamza; Laura Korte; Jan-Berend Stuut; Ibrahim S. Al-Ansari; Ibrahim Al-Maslamani; Dirk de Beer

doi:10.1080/14634988.2019.1676541

Nutritive effect of dust on microbial biodiversity and productivity of the Arabian Gulf

Mohammad A. A. Al-Najjar, Christopher Munday, Artur Fink, Mohamed A. R. Abdel-Moati, Waleed Hamza, Laura Korte, Jan-Berend Stuut, Ibrahim S. Al-Ansari, Ibrahim Al-Maslamani, Dirk de Beer

Earth and Climate

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Abstract

The Arabian Gulf is exposed to intensive dust storms during summer until early winter. We investigated the nutritive effect of the dust on microbial biodiversity of the water column and the productivity of the Gulf. We collected samples from three sites in a transect perpendicular to the shore in March (before the strong dust storms) and in October (after the dust season) in 2013. At the three sites, we sampled the water column at three depths, and see-floor sediments using a HAPS corer. We also sampled the sand dunes that are the source of the dust. We analyzed the samples for pigments, microbial community composition using a 16S rRNA analysis, and nutrients. Our results showed that species richness and biodiversity were higher in October than in March. The relative abundances of key-player microorganisms were strongly pronounced in October. We assume that the dust rapidly sinks to the seafloor where the nutrients Fe and P are liberated through iron reduction. Assuming that all phosphate diffusing from the seafloor originates from the dust particles after deposition, we estimated a contribution of minimum 30,000 tons of fish produced every year in the Gulf. We found no close temporal coupling between dust storms and productivity. This is because nutrient liberation from the seafloor is slow and its transport from the seafloor to the photic zone by circulation processes is irregular. This study highlights the importance of dust as a source of nutrients in the Gulf ecosystem.

Original language	English
Pages (from-to)	122-135
Number of pages	14
Journal	Aquatic Ecosystem Health and Management
Volume	23
Issue number	2
Early online date	2 Apr 2020
DOIs	https://doi.org/10.1080/14634988.2019.1676541
Publication status	Published - 2 Apr 2020

Funding

This study was made possible by a grant from the Qatar National Research Fund (QNRF) under its National Priorities Research Program award number NPRP 5-478-1-082. The contents of the manuscript are solely the responsibility of the authors and do not necessarily represent the official views of QNRF. The authors would like to thank the Environmental Study Center/Qatar University for providing their research vessels “Janan” and “Mukhtaber Albihar”, labs and instruments. The project team would like to thank Dr. Mohsin A. Al-Ansi, Ismail Al ShaikhAl-Yafei, for his unlimited help during the preparations of the surveys, Prof. Samir Al-Joua QU for offering lab facilities to achieve the biological samples preparation and to Mr. Saeed Okail Al-Yafei for participation in dust sampling. Max-Planck Institute for Marine Microbiology is highly acknowledged for providing the sediment corer and for providing their facilities to conduct pigments analysis and pore-water measurements. Duygu Sevilgen and Gabriele Eickert-Grötzschel from the MPI-Bremen are deeply thanked for technical assistance during the field work. NIOZ in Netherland and UAE University are also highly acknowledged. This study was made possible by a grant from the Qatar National Research Fund (QNRF) under its National Priorities Research Program award number NPRP 5-478-1-082. The contents of the manuscript are solely the responsibility of the authors and do not necessarily represent the official views of QNRF. The authors would like to thank the Environmental Study Center/Qatar University for providing their research vessels ?Janan? and ?Mukhtaber Albihar?, labs and instruments. The project team would like to thank Dr. Mohsin A. Al-Ansi, Ismail Al ShaikhAl-Yafei, for his unlimited help during the preparations of the surveys, Prof. Samir Al-Joua QU for offering lab facilities to achieve the biological samples preparation and to Mr. Saeed Okail Al-Yafei for participation in dust sampling. Max-Planck Institute for Marine Microbiology is highly acknowledged for providing the sediment corer and for providing their facilities to conduct pigments analysis and pore-water measurements. Duygu Sevilgen and Gabriele Eickert-Gr?tzschel from the MPI-Bremen are deeply thanked for technical assistance during the field work. NIOZ in Netherland and UAE University are also highly acknowledged.

Funders	Funder number
Qatar National Research Fund	NPRP 5-478-1-082
Qatar National Research Fund
United Arab Emirates University
Koninklijk Nederlands Instituut voor Onderzoek der Zee

Keywords

dust
Arabian Gulf productivity
microbial loops

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10.1080/14634988.2019.1676541

Nutritive effect of dust on microbial biodiversity and productivity of the Arabian GulfFinal published version, 1.67 MBLicence: Article 25fa Dutch Copyright Act

https://bioone.org/journals/aquatic-ecosystem-health-and-management/volume-23/issue-2/14634988.2019.1676541/Nutritive-effect-of-dust-on-microbial-biodiversity-and-productivity-of/10.1080/14634988.2019.1676541.full

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title = "Nutritive effect of dust on microbial biodiversity and productivity of the Arabian Gulf",

abstract = "The Arabian Gulf is exposed to intensive dust storms during summer until early winter. We investigated the nutritive effect of the dust on microbial biodiversity of the water column and the productivity of the Gulf. We collected samples from three sites in a transect perpendicular to the shore in March (before the strong dust storms) and in October (after the dust season) in 2013. At the three sites, we sampled the water column at three depths, and see-floor sediments using a HAPS corer. We also sampled the sand dunes that are the source of the dust. We analyzed the samples for pigments, microbial community composition using a 16S rRNA analysis, and nutrients. Our results showed that species richness and biodiversity were higher in October than in March. The relative abundances of key-player microorganisms were strongly pronounced in October. We assume that the dust rapidly sinks to the seafloor where the nutrients Fe and P are liberated through iron reduction. Assuming that all phosphate diffusing from the seafloor originates from the dust particles after deposition, we estimated a contribution of minimum 30,000 tons of fish produced every year in the Gulf. We found no close temporal coupling between dust storms and productivity. This is because nutrient liberation from the seafloor is slow and its transport from the seafloor to the photic zone by circulation processes is irregular. This study highlights the importance of dust as a source of nutrients in the Gulf ecosystem.",

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AU - Al-Najjar, Mohammad A. A.

AU - Munday, Christopher

AU - Fink, Artur

AU - Abdel-Moati, Mohamed A. R.

AU - Hamza, Waleed

AU - Korte, Laura

AU - Stuut, Jan-Berend

AU - Al-Ansari, Ibrahim S.

AU - Al-Maslamani, Ibrahim

AU - de Beer, Dirk

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N2 - The Arabian Gulf is exposed to intensive dust storms during summer until early winter. We investigated the nutritive effect of the dust on microbial biodiversity of the water column and the productivity of the Gulf. We collected samples from three sites in a transect perpendicular to the shore in March (before the strong dust storms) and in October (after the dust season) in 2013. At the three sites, we sampled the water column at three depths, and see-floor sediments using a HAPS corer. We also sampled the sand dunes that are the source of the dust. We analyzed the samples for pigments, microbial community composition using a 16S rRNA analysis, and nutrients. Our results showed that species richness and biodiversity were higher in October than in March. The relative abundances of key-player microorganisms were strongly pronounced in October. We assume that the dust rapidly sinks to the seafloor where the nutrients Fe and P are liberated through iron reduction. Assuming that all phosphate diffusing from the seafloor originates from the dust particles after deposition, we estimated a contribution of minimum 30,000 tons of fish produced every year in the Gulf. We found no close temporal coupling between dust storms and productivity. This is because nutrient liberation from the seafloor is slow and its transport from the seafloor to the photic zone by circulation processes is irregular. This study highlights the importance of dust as a source of nutrients in the Gulf ecosystem.

AB - The Arabian Gulf is exposed to intensive dust storms during summer until early winter. We investigated the nutritive effect of the dust on microbial biodiversity of the water column and the productivity of the Gulf. We collected samples from three sites in a transect perpendicular to the shore in March (before the strong dust storms) and in October (after the dust season) in 2013. At the three sites, we sampled the water column at three depths, and see-floor sediments using a HAPS corer. We also sampled the sand dunes that are the source of the dust. We analyzed the samples for pigments, microbial community composition using a 16S rRNA analysis, and nutrients. Our results showed that species richness and biodiversity were higher in October than in March. The relative abundances of key-player microorganisms were strongly pronounced in October. We assume that the dust rapidly sinks to the seafloor where the nutrients Fe and P are liberated through iron reduction. Assuming that all phosphate diffusing from the seafloor originates from the dust particles after deposition, we estimated a contribution of minimum 30,000 tons of fish produced every year in the Gulf. We found no close temporal coupling between dust storms and productivity. This is because nutrient liberation from the seafloor is slow and its transport from the seafloor to the photic zone by circulation processes is irregular. This study highlights the importance of dust as a source of nutrients in the Gulf ecosystem.

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Nutritive effect of dust on microbial biodiversity and productivity of the Arabian Gulf

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