Award: OCE-1638834

Award Title: Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients
Principal Investigator: Tatiana Rynearson (University of Rhode Island)

Projects funded by this award

Project	Data Management Plan
Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients	DMP_Litchman_Rynearson_Hutchins_OCE-1638958_OCE-1638804_OCE-1638834.pdf (207.93 KB)

Datasets funded by this award

Anderson & Rynearson 2020: Skeletonema CHN

Anderson & Rynearson 2020: Skeletonema thermal growth

C:N in evolved and control populations

Diatom amplicon sequencing variants from Narragansett Bay 2008-2014

Growth rates - evolution expt

Herbivorous protist abundances under simultaneus manipulation of temperature and nutrients

March Incubation Chlorophyll a

March Incubation Microscopy Cell Counts

March Incubation Phytoplankton Elemental Composition

Modeled thermal traits

Narragansett Bay Plankton Time Series

T. pseudonana fatty acids by biovolume

T. pseudonana fatty acids per cell

T. rotula Common Garden Experiment

Temperature and nutrient dependent phytoplankton growth and herbivorous protist grazing rates

Temperature-growth rate curves for Thalassiosira pseudonana

Thermal capacities

Thermal growth rates

TPC Growth rates: 100 generations

TPC Growth rates: 200 generations

Related awards and associated datasets

Related Awards

Award: OCE-1638958
Award URL: http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=1638958 
Principal Investigator: Elena G. Litchman (Michigan State University)
Co-Principal Investigator(s): Christopher A Klausmeier
Datasets funded from this award: 

C:N in evolved and control populations

Growth rates - evolution expt

Herbivorous protist abundances under simultaneus manipulation of temperature and nutrients

T. pseudonana fatty acids by biovolume

T. pseudonana fatty acids per cell

Temperature and nutrient dependent phytoplankton growth and herbivorous protist grazing rates

Temperature-growth rate curves for Thalassiosira pseudonana

TPC Growth rates: 100 generations

TPC Growth rates: 200 generations

Award: OCE-1638804
Award URL: http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=1638804 
Principal Investigator: David A. Hutchins (University of Southern California)
Datasets funded from this award: 

C:N in evolved and control populations

Diatom growth rates

Diatom TPC parameters

Growth rates - evolution expt

Herbivorous protist abundances under simultaneus manipulation of temperature and nutrients

Synechococcus accessions

Synechococcus fluorescence emission spectra

Synechococcus growth rates

Synechococcus TPC parameters

T. pseudonana fatty acids by biovolume

T. pseudonana fatty acids per cell

Temperature and nutrient dependent phytoplankton growth and herbivorous protist grazing rates

Temperature-growth rate curves for Thalassiosira pseudonana

TPC Growth rates: 100 generations

TPC Growth rates: 200 generations

Transient exposure to novel high temperatures reshapes coastal phytoplankton communities