Title Type
Heavy Metal Implications to Sediment Microbiome and Coral Reef Community Publication
How do long sediment-laden algal turfs affect coral recruitment on Florida’s Coral Reef? Publication
Identification and virulence testing of Symbiodiniaceae-associated viral particles from Florida corals. Publication
Identification and virulence testing of symbiont-associated viral particles from Florida corals Publication
Improving and expanding the portfolio of grazers available for coral co-culture and reef restoration Publication
Investigating stony coral tissue loss disease (SCTLD) susceptibility in brain coral recruits Publication
Investigation of temperature as a driver of stony coral tissue loss disease dynamics Publication
Meta-transcriptomics to determine if and how viruses are involved in SCTLD infection status and/or disease susceptibility Publication
Meta-transcriptomics to determine if and how viruses are involved in SCTLD infection status and/or disease susceptibility Publication
Methods to improve the success of SCTLD-susceptible coral species outplanted for restoration: From lab to nursery to reef Publication
Novel Treatment Options for Stony Coral Tissue Loss Disease: Final Report Publication
Osborne Tire Reef Coral Removal, Relocation, and Monitoring Publication
Real-Time Water Quality Monitoring for the Florida Keys National Marine Sanctuary (FKNMS) Publication
SCTLD Resistance Research Consortium Summary Report through May 2023 Publication
SEAFAN BleachWatch Program Current Conditions Report #20230604 Publication
SEAFAN BleachWatch Program Current Conditions Report #20230604 Publication
Summaries for FY22-23 Funded Projects Publication
The Effect of Disease Lesions and Amoxicillin Treatment on the Physiology of SCTLD-affected Corals Publication
The Role of Outplant Density on Coral Survivorship, Growth, Predation Impacts, and Disease Spread Publication
The Role of Sponge Filtration in Transforming Coastal Water Quality in the Florida Keys Publication
The use of algal symbiont cultures (Family Symbiodiniaceae) as model systems to study stony coral tissue loss disease: Use of fractionated disease isolates to help with pathogen identification Publication
The use of algal symbiont cultures (Family Symbiodiniaceae) as model systems to study stony coral tissue loss disease: Use of fractionated disease isolates to help with pathogen identification Publication
Using a surrogate model system to screen for pathogen(s) associated with SCTLD. Publication