Data

Data for: Carbonate chemistry fitness landscapes inform diatom resilience to future perturbations

Australian Ocean Data Network
Ferderer, Aaron
Viewed: [[ro.stat.viewed]] Cited: [[ro.stat.cited]] Accessed: [[ro.stat.accessed]]
ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.25959/4JM1-9F98&rft.title=Data for: Carbonate chemistry fitness landscapes inform diatom resilience to future perturbations&rft.identifier=10.25959/4JM1-9F98&rft.description=This file contains data and associated R code for producing the figures, tables and analysis/models within the manuscript Ferderer et al., Carbonate chemistry fitness landscapes inform diatom resilience to future perturbations. Data was collected at IMAS by Aaron Ferderer.Maintenance and Update Frequency: notPlannedStatement: This study characterised the fitness of five marine diatom species isolated from the Derwent Estuary across a broad matrix of carbonate chemistry conditions. The fitness landscapes encompassed past, present, and projected future ocean scenarios, including conditions expected under ocean acidification (OA) and ocean alkalinity enhancement (OAE). These landscapes were constructed across 11 levels of total alkalinity (ranging from 2000 to 3350 µmol kg⁻¹) and 8 levels of dissolved inorganic carbon (DIC) (spanning 1800 to 3666.67 µmol kg⁻¹), resulting in a minimum of 67 treatments per species. Diatoms were grown in monocultures, and each species was assessed independently. Growth was quantified using fast repetition rate fluorometry (FRRF), while carbonate chemistry parameters were determined using measured values of salinity, temperature, dissolved silicate, pH, and total alkalinity.&rft.creator=Ferderer, Aaron &rft.date=2024&rft_rights=This dataset is the intellectual property of the University of Tasmania (UTAS) through the Institute for Marine and Antarctic Studies (IMAS).&rft_rights=Creative Commons Attribution 4.0 International License https://creativecommons.org/licenses/by/4.0/&rft_rights=Cite data as: Ferderer, A. (2024). Data for: Carbonate chemistry fitness landscapes inform diatom resilience to future perturbations [Data set]. Institute for Marine and Antarctic Studies. https://doi.org/10.25959/4JM1-9F98&rft_rights=Data, products and services from IMAS are provided as is without any warranty as to fitness for a particular purpose.&rft_subject=oceans&rft_subject=PHYTOPLANKTON&rft_subject=EARTH SCIENCE&rft_subject=BIOLOGICAL CLASSIFICATION&rft_subject=PROTISTS&rft_subject=PLANKTON&rft_subject=CARBON DIOXIDE&rft_subject=OCEANS&rft_subject=OCEAN CHEMISTRY&rft_subject=ALKALINITY&rft_subject=DIATOMS&rft_subject=PLANTS&rft_subject=MICROALGAE&rft_subject=Coastal Cities / Towns (Australia) | Coastal Cities / Towns (Australia) | Hobart, TAS&rft_subject=Chemical Oceanography&rft_subject=EARTH SCIENCES&rft_subject=OCEANOGRAPHY&rft_subject=Biological Oceanography&rft.type=dataset&rft.language=English Access the data
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Creative Commons Attribution 4.0 International License
https://creativecommons.org/licenses/by/4.0/

This dataset is the intellectual property of the University of Tasmania (UTAS) through the Institute for Marine and Antarctic Studies (IMAS).

Cite data as: Ferderer, A. (2024). Data for: Carbonate chemistry fitness landscapes inform diatom resilience to future perturbations [Data set]. Institute for Marine and Antarctic Studies. https://doi.org/10.25959/4JM1-9F98

Data, products and services from IMAS are provided "as is" without any warranty as to fitness for a particular purpose.

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This file contains data and associated R code for producing the figures, tables and analysis/models within the manuscript Ferderer et al., Carbonate chemistry fitness landscapes inform diatom resilience to future perturbations. Data was collected at IMAS by Aaron Ferderer.

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Maintenance and Update Frequency: notPlanned
Statement: This study characterised the fitness of five marine diatom species isolated from the Derwent Estuary across a broad matrix of carbonate chemistry conditions. The fitness landscapes encompassed past, present, and projected future ocean scenarios, including conditions expected under ocean acidification (OA) and ocean alkalinity enhancement (OAE). These landscapes were constructed across 11 levels of total alkalinity (ranging from 2000 to 3350 µmol kg⁻¹) and 8 levels of dissolved inorganic carbon (DIC) (spanning 1800 to 3666.67 µmol kg⁻¹), resulting in a minimum of 67 treatments per species. Diatoms were grown in monocultures, and each species was assessed independently. Growth was quantified using fast repetition rate fluorometry (FRRF), while carbonate chemistry parameters were determined using measured values of salinity, temperature, dissolved silicate, pH, and total alkalinity.

Issued: 23 11 2024

Data time period: 2023-11-01 to 2024-04-30

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ALKALINITY | BIOLOGICAL CLASSIFICATION | Biological Oceanography | CARBON DIOXIDE | Chemical Oceanography | Coastal Cities / Towns (Australia) | Coastal Cities / Towns (Australia) | Hobart, TAS | DIATOMS | EARTH SCIENCE | Earth Sciences | MICROALGAE | OCEAN CHEMISTRY | Oceanography | OCEANS | PHYTOPLANKTON | PLANKTON | PLANTS | PROTISTS | oceans |

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(DATA ACCESS - download zip package of data and R code)

uri : https://data.imas.utas.edu.au/attachments/783c3b23-6d58-47cc-bdd1-f5ac37cd9275/Carbonate_Chemistry_Fitness_Landscape_Data.zip

ror : 00arpt780

ror : 00arpt780

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