I was an intern in the Coral Health and Disease Program at Mote Marine Laboratory's research facility in the Florida Keys from February to August 2019. While there, I was supervised by Dr. Abigail Clark and Dr. Hanna Koch, who taught me so much about corals! |
Coral Husbandry
A big part of the Mote research facility in the Florida Keys involves daily care, or husbandry, of the corals that are kept in the ex-situ (out-of-ocean) nursery. There are thousands of corals kept across the many raceways that hold the corals, and these mini-habitats require daily cleaning to remove algae and to keep the corals happy and healthy. In addition to this, Mote pioneered the micro-fragmentation technique, which involves the fine cutting of bouldering coral species into very small fragments, affixing them onto cement plugs so that they can regrow, and then out-planting these corals back onto native reef sites in arrays such that the corals can regrow to a larger size much faster than they normally could. |
Micro-fragmentation works in a similar way to our skin healing after a cut - tissue regrows much more quickly to heal the wound that was made. In this way, faster coral growth is promoted. Normally, an individual boulder coral would take many years to grow to a large size. The scientific article describing this process can be found here: https://peerj.com/articles/1313/
In addition to many small fragments, a subset of the corals cared for at Mote are offspring from adult corals that have spawned in the Caribbean. The two images below show juvenile recruits of Acropora cervicornis, a critically endangered species of reef-building coral.
In addition to many small fragments, a subset of the corals cared for at Mote are offspring from adult corals that have spawned in the Caribbean. The two images below show juvenile recruits of Acropora cervicornis, a critically endangered species of reef-building coral.
DNA Extractions
One of my tasks as an intern was to assist in extracting DNA from coral tissue samples of healthy and diseased colonies along the Florida Reef Tract. Stony coral tissue loss disease (SCTLD) has been one of the most deadly diseases for the corals of the Caribbean. It emerged in 2014 in Miami and has since spread to other Caribbean countries. The disease affects 20 different coral species and has rapidly spreads across the colony. Because of this, many researchers, including Dr. Abigail Clark and Dr. Erinn Muller at Mote Marine Laboratory, are investigating what bacterial or viral agents are causing this disease. These extractions will be sequenced in the hopes of identifying common pathogens across different infected coral species. |
Photo from the Stony Coral Tissue Loss Disease workshop, in Key West, FL, with representatives and researchers from Florida and the U.S. Virgin Islands, where the disease has also spread. Efforts from this workshop included sharing information on methods for treating and monitoring the disease, as well as future directions.
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Coral Restoration
I also assisted the restoration team at Mote in assembling their first Acropora cervicornis spawning nursery. Coral spawning is how corals sexually reproduce, and having this nursery will allow for the generation of new genotypes in a controlled setting. These new genotypes provide the necessary diversity for a healthy coral reef population, and also offer opportunities to discover new genotypes that may perform better under certain environmental stressors, such as warming ocean temperatures. |
Independent Research Project
In addition to my daily tasks, I was funded to conduct an experiment utilizing Mote's new 3D scanner to explore ways in which growth rates may be monitored in a three-dimensional manner. The standard method of growth rate measurement uses the free software, ImageJ, to measure 2D surface area from an aerial view. As different coral species have different growth shapes, such as branching or bouldering, a 3D metric would be very useful in understanding when and how quickly corals begin growing vertically. I developed a protocol for using the 3D scanner with different coral species at Mote and shared some images from this process, depicted below. It was exciting to be a part of this project and learn how to apply a new technology to the coral research field.
In addition to my daily tasks, I was funded to conduct an experiment utilizing Mote's new 3D scanner to explore ways in which growth rates may be monitored in a three-dimensional manner. The standard method of growth rate measurement uses the free software, ImageJ, to measure 2D surface area from an aerial view. As different coral species have different growth shapes, such as branching or bouldering, a 3D metric would be very useful in understanding when and how quickly corals begin growing vertically. I developed a protocol for using the 3D scanner with different coral species at Mote and shared some images from this process, depicted below. It was exciting to be a part of this project and learn how to apply a new technology to the coral research field.
A side view and aerial view of an Acropora cervicornis fragment - the level of detail where you can see the individual polyp structure was so exciting to me.
Coral Spawning
After taking care of baby corals for several months, I was eager to be a part of the coral spawning project, led by Dr. Hanna Koch. Coral spawning is the sexual reproduction event that generates new offspring, increasing population size and genetic diversity for a given coral species. Coral spawning is very difficult to monitor; it occurs during the night after the full moon, and the time of year depends on geographic location. In Florida, coral spawning for most species is August - September, so we were preparing to collect in August. But what were we collecting?
Well, there are two modes of sexual reproduction for corals - broadcast spawning and brooding. Acropora cervicornis, our species of interest, utilize broadcast spawning, which means that on the reef, all adult colonies release gamete bundles (containing both eggs and sperm) at the same exact time. How do they synchronize this event so well? There are many different environmental cues they use to time this event that only happens once per year!
The first two images below were taken using corals collected from the field in June. Although the spawning event is in August, corals that are going to spawn that year are preparing for the event many months in advance. Corals that are ready to spawn are typically a certain size (i.e. adults) and have enough nutritional stores and energy to devote to producing these gamete bundles.
Well, there are two modes of sexual reproduction for corals - broadcast spawning and brooding. Acropora cervicornis, our species of interest, utilize broadcast spawning, which means that on the reef, all adult colonies release gamete bundles (containing both eggs and sperm) at the same exact time. How do they synchronize this event so well? There are many different environmental cues they use to time this event that only happens once per year!
The first two images below were taken using corals collected from the field in June. Although the spawning event is in August, corals that are going to spawn that year are preparing for the event many months in advance. Corals that are ready to spawn are typically a certain size (i.e. adults) and have enough nutritional stores and energy to devote to producing these gamete bundles.
The first night of spawning took place after we separated each coral colony into their own bucket. We monitored the corals every half hour to look for signs of setting, when the polyps hold the gamete bundles in preparation for their release. Once we started seeing gamete bundles floating to the surface, we collected data and the bundles themselves in order to do controlled crosses in the lab.