Project: Functional diversity of marine eukaryotic phytoplankton and their contributions to the C and N cycling

Acronym/Short Name:DimBio NABE
Project Duration:2012-01 - 2015-12
Geolocation:North Atlantic Ocean, transects from southwest to northeast

Description

This project will investigate the taxonomic, genetic and functional diversity of eukaryotic phytoplankton at two North Atlantic sites (subarctic and subtropical) in two seasons.  The PIs will use diagnostic microarrays for community analysis based on functional genes (both DNA and RNA) and next generation sequencing (i.e., transcriptomics using 454 technology) to identify the players, both in terms of community composition and activity, and to explore the functional diversity of the natural assemblage. In order to identify which groups are active in C and N assimilation and which N source is being utilized by the different size and functional groups, both filter-separated and flow cytometry-sorted samples will be used to 1) measure 13C primary production and 15N assimilation by incubations with isotope tracers, 2) measure the natural stable N isotope signatures of different taxonomic groups and 3) link the molecular diversity to the functional diversity in C and N transformations. Using flow cytometry linked to mass spectrometry, these investigators have found an unexpectedly strong differentiation in the form of N assimilated by prokaryotes and eukaryotes, with eukaryotes being more dynamic.

This project will investigate the taxonomic, genetic and functional diversity of eukaryotic phytoplankton and to link this diversity and assemblage composition to the carbon and nitrogen biogeochemistry of the surface ocean. Taxonomic diversity will be investigated by identifying the components of the phytoplankton assemblages using molecular, chemical and microscope methods. Genetic diversity will be explored at several levels, including direct sequencing of clone libraries of key functional genes and metatranscriptomic sequencing and microarray analysis of size fractionated/sorted phytoplankton assemblages. Using natural abundance and tracer stable isotope methods, genetic and taxonomic diversity will be linked to functional diversity in C and N assimilation in size- fractionated and taxon-sorted populations.



People

Lead Principal Investigator: Bess B. Ward
Princeton University

Principal Investigator: Andrew E. Allen
J. Craig Venter Institute (JCVI)

Co-Principal Investigator: Daniel M. Sigman
Princeton University

Contact: Nicolas C. Van Oostende
Princeton University


Programs

Dimensions of Biodiversity [Dimensions of Biodiversity]


Data Management Plan

Data management plan for award OCE-1136345 (53.55 KB)
01/04/2015