Spencer Fire, Ph.D.
Assistant Professor | Ocean Engineering and Marine Sciences
- Melbourne FL UNITED STATES
- F.W. Olin Life Sciences 214
- Ocean Engineering and Marine Sciences
Dr. Fire's research program combines an interest in the very smallest and the very largest organisms in the sea.Contact More Open options
Areas of Expertise
Spencer Fire's research program combines an interest in the very smallest and the very largest organisms in the sea (and occasionally a few in between). From single-celled marine algae (phytoplankton) to shellfish, finfish, sea turtles, humans and marine mammals such as baleen whales, the interactions between these organism can tell us much about the status of our oceans' health.
Dr. Fire's current research focuses on the impacts of harmful algal blooms and their toxins on marine food webs and the health of sentinel organisms such as marine mammals. To carry out this work, Dr. Fire and his students focus on three core areas:
1. Developing and using molecular detection methods to investigate how natural contaminants move through marine food webs,
2. Drawing on field experience with small cetaceans and pinnipeds, as well as knowledge of field survey methods, to study marine mammal health and behavior in the wild,
3. Combining a knowledge of large-scale oceanographic processes with laboratory and field methods to study changing marine ecosystems and their links to wildlife and human health.
Florida Tech’s Marine Science Students Examines Red Tide’s Effect on Dolphins in Gulf of Mexico
Space Coast Daily News
Florida Tech ocean engineering and marine sciences assistant professor Spencer Fire’s paper, “Association between red tide exposure and detection of corresponding neurotoxins in bottlenose dolphins from Texas waters during 2007–2017,” was released this month.
Algae's toxin remains in dolphins livers, even when not blooming
"We're not making any conclusions about what it's doing to them," said Spencer Fire, an assistant professor at Florida Tech. The study for the first time establishes a baseline level of the toxin in lagoon dolphins by which to compare future toxin levels during dolphin strandings or die-offs.
Whales change their tunes when ships appear
Despite these caveats, Spencer Fire, assistant professor in Florida Tech’s Department of Ocean Engineering and Marine Sciences, described the new research as “solid.”
Florida Tech to study toxic algae impact on dolphins
"Anything you see happening to the health of these populations would indicate a risk to human populations," said Spencer Fire, an assistant professor of biological sciences at FIT who will conduct the research.
Dolphin health is connected to human well-being
Florida Institute of Technology assistant professor Spencer Fire and researchers from lead agency Georgia Aquarium and other conservation partners recently completed a study to better understand the health of Atlantic bottlenose dolphins in the IRL, and the data collected from the dolphins is expected to help researchers understand how toxic algal blooms can harm wildlife.
University of California Santa Cruz
Brigham Young University
University of California Santa Cruz
Marine algal toxins and their vectors in southern California cetaceansHarmful Algae
Utility of Red Tide (Karenia brevis) Monitoring Data as a Predictive Tool to Estimate Brevetoxin Accumulation in Live, Free-Ranging Marine MammalsFrontiers in Marine Science
An assessment of temporal, spatial and taxonomic trends in harmful algal toxin exposure in stranded marine mammals from the U.S. New England coastPLoS ONE
Antarctic ecosystem responses following ice-shelf collapse and iceberg calving: Science review and future researchWiley Interdisciplinary Reviews: Climate Change
Association between red tide exposure and detection of corresponding neurotoxins in bottlenose dolphins from Texas waters during 2007–2017Marine Environmental Research