Dataset: Fluorescence spectra for 3 strains of Synechococcus while increasing temperatures to detect the photosystem components disassociation temperature

Name: Fluorescence spectra for 3 strains of Synechococcus while increasing temperatures to detect the photosystem components disassociation temperature
Published: 2019-11-20
Keywords: Whole Genome Sequencing, Synechococcus, Subcluster 5.2, Estuary, Narragansett Bay, Eppley-Norberg Curve, temperature, biota, oceans

Final no updates expectedDOI: 10.1575/1912/bco-dmo.782322.1Version 1 (2019-11-20)Dataset Type:experimental

Principal Investigator: David A. Hutchins (University of Southern California)

BCO-DMO Data Manager: Nancy Copley (Woods Hole Oceanographic Institution)

Program: Dimensions of Biodiversity (Dimensions of Biodiversity)

Project: Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses)

Abstract

Fluorescence spectra from 600-700nm at 530nm excitation for 3 strains of Synechococcus while increasing temperatures to detect the photosystem components disassociation temperature.

Cite Dataset

Spatial Extent: N:41.71 E:-71.27 S:41.45 W:-71.40
Temporal Extent: 2017-01-01 - 2018-10-31

Fluorescence spectra from 600-700nm at 530nm excitation for 3 strains of Synechococcus while increasing temperatures to detect the photosystem components disassociation temperature

Related Datasets

No Related Datasets

Related Publications

Methods

Pittera, J., Partensky, F., & Six, C. (2016). Adaptive thermostability of light-harvesting complexes in marine picocyanobacteria. The ISME Journal, 11(1), 112–124. doi:10.1038/ismej.2016.102