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File: 'Dikstein2023.xlsx'
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Viral infection arrests microalgae-host calcification and nutrient consumption, and triggers shifts in organic stoichiometry [dasid=8379] show more
File properties
Filename Dikstein2023.xlsx
Direct link https://mda.vliz.be/directlink.php?fid=VLIZ_00000842_64e4ba6e5d033845577610
Datatype Experimental data
MIMEtype application/vnd.openxmlformats-officedocument.spreadsheetml.sheet
Authors Miguel Frada
Dataprovider Miguel Frada
Email Dataprovider miguel.frada@mail.huji.ac.il
Conditions of use CC BY-NC (https://creativecommons.org/licenses/by-nc/4.0/)
Creationdate
Submitter Dhondt Charlotte
Submit date 2023-08-22 13:38:54
Archived by Dhondt Charlotte
Archive date 2023-08-22 13:44:16
Path VLIZ External DOI requests - Public/
Start year
End year
Summary Metadata: https://www.vliz.be/nl/imis?module=dataset&dasid=8379
Data accompanying paper: https://doi.org/10.1101/2023.07.11.548577
Description Blooms of the dominant coccolithophore Emiliania huxleyi are routinely infected by a specific lytic virus (EhV), which rapidly kills host cells triggering bloom termination and organic and inorganic carbon export. However, the impact of EhV on the dynamic of resource acquisition and cellular stoichiometry remains unknown, limiting the current understanding of the ecological and biogeochemical significance of E. huxleyi blooms. To tackle this knowledge gap, we used algal and EhV cultures to determine over the course of infections the dynamics of alkalinity, modulated by calcification, nitrate and phosphate consumption and organic matter stoichiometry.
Changes
Metadata
Content
Type of experiment
ecological lab experiment
Materials and Methods
Instrument
Protocol
Additional information
Other info
Link file
| Viral infection arrests microalgae-host calcification and nutrient consumption, and triggers shifts in organic stoichiometry [dasid=8379] show more |
File properties
| Filename | Dikstein2023.xlsx |
|---|---|
| Direct link | https://mda.vliz.be/directlink.php?fid=VLIZ_00000842_64e4ba6e5d033845577610 |
| Datatype | Experimental data |
| MIMEtype | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Authors | Miguel Frada |
| Dataprovider | Miguel Frada |
| Email Dataprovider | miguel.frada@mail.huji.ac.il |
| Conditions of use | CC BY-NC (https://creativecommons.org/licenses/by-nc/4.0/) |
| Creationdate | |
| Submitter | Dhondt Charlotte |
| Submit date | 2023-08-22 13:38:54 |
| Archived by | Dhondt Charlotte |
| Archive date | 2023-08-22 13:44:16 |
| Path | VLIZ External DOI requests - Public/ |
| Start year | |
| End year | |
| Summary | Metadata: https://www.vliz.be/nl/imis?module=dataset&dasid=8379 Data accompanying paper: https://doi.org/10.1101/2023.07.11.548577 |
| Description | Blooms of the dominant coccolithophore Emiliania huxleyi are routinely infected by a specific lytic virus (EhV), which rapidly kills host cells triggering bloom termination and organic and inorganic carbon export. However, the impact of EhV on the dynamic of resource acquisition and cellular stoichiometry remains unknown, limiting the current understanding of the ecological and biogeochemical significance of E. huxleyi blooms. To tackle this knowledge gap, we used algal and EhV cultures to determine over the course of infections the dynamics of alkalinity, modulated by calcification, nitrate and phosphate consumption and organic matter stoichiometry. |
| Changes |
Metadata
| Content | |
| Type of experiment | ecological lab experiment |
|---|---|
| Materials and Methods | |
| Instrument | |
| Protocol | |
| Additional information | |
| Other info | |
| Link file |