A novel method to simulate the 3D chlorophyll distribution in marine oligotrophic waters

A novel method to simulate the 3D chlorophyll distribution in marine oligotrophic waters

•In present work, for the first time a clear quantitative connection between the behavior of environmental variables and the space-time profiles of concentrations of chlorophyll are established in the 3D space•results were validated through the comparison with the experimental distributions, further...

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Veröffentlicht in:Communications in nonlinear science & numerical simulation 2021-12, Vol.103, p.106000, Article 106000
Hauptverfasser: Awada, H., Aronica, S., Bonanno, A., Basilone, G., Zgozi, S.W., Giacalone, G., Fontana, I., Genovese, S., Ferreri, R., Mazzola, S., Spagnolo, B., Valenti, D., Denaro, G.
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3-D printers
Abundance
Algae
Chlorophyll
Chlorophyll distribution
Data acquisition
Fluid dynamics
Global warming
Marine ecosystems
Phytoplankton
Phytoplankton dynamics
Simulation
Spatial distribution
Spatial ecology
Statistical analysis
Three dimensional models
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container_issue
container_start_page 106000
container_title Communications in nonlinear science & numerical simulation
container_volume 103
creator Awada, H.
Aronica, S.
Bonanno, A.
Basilone, G.
Zgozi, S.W.
Giacalone, G.
Fontana, I.
Genovese, S.
Ferreri, R.
Mazzola, S.
Spagnolo, B.
Valenti, D.
Denaro, G.
description •In present work, for the first time a clear quantitative connection between the behavior of environmental variables and the space-time profiles of concentrations of chlorophyll are established in the 3D space•results were validated through the comparison with the experimental distributions, furthermore the study area represents an unexplored and interesting area from several points of view (inaccessibility due to geopolitical problems). A 3D advection-diffusion-reaction model is proposed to investigate the abundance of phytoplankton in a difficult-to-access ecosystem such as the Gulf of Sirte (southern Mediterranean Sea) characterized by oligotrophic waters. The model exploits experimentally measured environmental variables to reproduce the dynamics of four populations that dominate phytoplankton community in the studied area: Synechococcus, Prochlorococcus HL, Prochlorococcus LL and picoeukaryotes. The theoretical results obtained for phytoplankton abundances are converted into chl-a and Dvchl-a concentrations, and the simulated vertical chlorophyll profiles are compared to the corresponding experimentally acquired data during the MedSudMed-08 oceanographic survey. Non parametric tests showed that the 3D model successfully simulates the spatial distribution of chlorophyll in most of the Gulf of Sirte. Statistical analysis indicates that about 80% of the simulated chlorophyll vertical profiles are not significantly different from the experimental data. This model is also a useful tool to predict chlorophyll distributions in hard-to-access areas, where experimental data cannot be collected. Moreover, the model could be used to predict the effects of global warming on phytoplankton dynamics and primary production in marine ecosystems.
doi_str_mv 10.1016/j.cnsns.2021.106000
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A 3D advection-diffusion-reaction model is proposed to investigate the abundance of phytoplankton in a difficult-to-access ecosystem such as the Gulf of Sirte (southern Mediterranean Sea) characterized by oligotrophic waters. The model exploits experimentally measured environmental variables to reproduce the dynamics of four populations that dominate phytoplankton community in the studied area: Synechococcus, Prochlorococcus HL, Prochlorococcus LL and picoeukaryotes. The theoretical results obtained for phytoplankton abundances are converted into chl-a and Dvchl-a concentrations, and the simulated vertical chlorophyll profiles are compared to the corresponding experimentally acquired data during the MedSudMed-08 oceanographic survey. Non parametric tests showed that the 3D model successfully simulates the spatial distribution of chlorophyll in most of the Gulf of Sirte. Statistical analysis indicates that about 80% of the simulated chlorophyll vertical profiles are not significantly different from the experimental data. This model is also a useful tool to predict chlorophyll distributions in hard-to-access areas, where experimental data cannot be collected. 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A 3D advection-diffusion-reaction model is proposed to investigate the abundance of phytoplankton in a difficult-to-access ecosystem such as the Gulf of Sirte (southern Mediterranean Sea) characterized by oligotrophic waters. The model exploits experimentally measured environmental variables to reproduce the dynamics of four populations that dominate phytoplankton community in the studied area: Synechococcus, Prochlorococcus HL, Prochlorococcus LL and picoeukaryotes. The theoretical results obtained for phytoplankton abundances are converted into chl-a and Dvchl-a concentrations, and the simulated vertical chlorophyll profiles are compared to the corresponding experimentally acquired data during the MedSudMed-08 oceanographic survey. Non parametric tests showed that the 3D model successfully simulates the spatial distribution of chlorophyll in most of the Gulf of Sirte. Statistical analysis indicates that about 80% of the simulated chlorophyll vertical profiles are not significantly different from the experimental data. This model is also a useful tool to predict chlorophyll distributions in hard-to-access areas, where experimental data cannot be collected. 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subjects 3-D printers
Abundance
Algae
Chlorophyll
Chlorophyll distribution
Data acquisition
Fluid dynamics
Global warming
Marine ecosystems
Phytoplankton
Phytoplankton dynamics
Simulation
Spatial distribution
Spatial ecology
Statistical analysis
Three dimensional models
title A novel method to simulate the 3D chlorophyll distribution in marine oligotrophic waters
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