Published April 17, 2023 | Version USVI-SCTLD-Gene-Expression-Study
Software Open

Stony Coral Tissue Loss Disease Induces Transcriptional Signatures of in situ Degradation of Dysfunctional Symbiodiniaceae

Authors/Creators

  • 1. The University of Texas at Arlington

Description

All files and links necessary to reproduce the article: "Stony Coral Tissue Loss Disease Induces Transcriptional Signatures of in situ Degradation of Dysfunctional Symbiodiniaceae".

Notes

Also funded by a NOAA OAR Cooperative Institutes award (#NA19OAR4320074).

Files

kbeavz/SCTLD-Transmission-Experiment-USVI-USVI-SCTLD-Gene-Expression-Study.zip

Files (85.1 kB)

Additional details

Related works

Is supplement to
https://github.com/kbeavz/SCTLD-Transmission-Experiment-USVI/tree/USVI-SCTLD-Gene-Expression-Study (URL)

Funding

U.S. National Science Foundation
RAPID: Collaborative Research: Predicting the Spread of Multi-Species Coral Disease Using Species Immune Traits 1927277
U.S. National Science Foundation
RAPID: Collaborative Research: Predicting the Spread of Multi-Species Coral Disease Using Species Immune Traits 1928761
U.S. National Science Foundation
RAPID: Collaborative Research: Predicting the Spread of Multi-Species Coral Disease Using Species Immune Traits 1928609
U.S. National Science Foundation
VI-EPSCoR: RII: Building Research Strength in the US Virgin Islands 0814417
U.S. National Science Foundation
RAPID: Collaborative Research: Predicting the Spread of Multi-Species Coral Disease Using Species Immune Traits 1928753
U.S. National Science Foundation
RII Track-1: Ridge to Reef Processes and Interdependent Drivers of Small Island Resilience 1946412
U.S. National Science Foundation
A multi-scale approach to predicting infectious multi-host disease spread in marine benthic communities 2109622
U.S. National Science Foundation
RAPID: Collaborative Research: Predicting the Spread of Multi-Species Coral Disease Using Species Immune Traits 1928771
U.S. National Science Foundation
EAGER: Collaborative Research: Quantifying coral microbiome dynamics under change 1938112
U.S. National Science Foundation
RAPID: Collaborative Research: Predicting the Spread of Multi-Species Coral Disease Using Species Immune Traits 1928817