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Thursday, June 24, 2021

Coral offspring physiology impacted by parental exposure to intense environmental stresses

Adult corals that survive high-intensity environmental stresses, such as bleaching events, can produce offspring that are better suited to survive in new environments. These results from a series of experiments conducted at the Bermuda Institute of Ocean Sciences (BIOS) in 2017 and 2018 are deepening scientists' understanding of how the gradual increase of sea surface temperatures and other environmental disturbances may influence future coral generations.


Researchers on the project included BIOS marine ecologists Samantha de Putron and Gretchen Goodbody-Gringley (now with the Central Caribbean Marine Institute), ecophysiologist Hollie Putnam at the University of Rhode Island (URI), and Kevin Wong, then a first-year doctoral student at URI. Primary funding came from the Heising-Simons Foundation International, Ltd. with additional funding from the National Geographic Society and the Canadian Associates of BIOS (CABIOS).


The team spent last year working the data into a manuscript, which was published this month in the journal Global Change Biology and listed Wong as the first author. Wong, now nearing the end of his fourth year of studies at URI under the mentorship of Putnam, plans to graduate in May 2022.


"We know parental history influences the characteristics of offspring in corals, however the experimental design used in this study provides us with a unique perspective on how multiple types of thermal events can accumulate over time and have lasting consequences across generations," Wong said.


Coral Collection and Study


The multi-year field and lab-based study began in the summer of 2017. Departing from BIOS on a small boat with diving gear, the team collected 40 adult Porites astreoides (mustard hill) corals from two different reef sites northwest of Bermuda: a patch reef (Crescent Reef), which is located in a shallower lagoon environment, and a rim reef (Hog Reef) which is a barrier reef more exposed to open ocean conditions.






They next placed the live corals in the then newly-constructed BIOS mesocosm facility, where large outdoor aquaria "flow-through" seawater systems allowed researchers to control and adjust water temperature in the tanks for completing the study.


A variety of baseline data were collected on the corals in each colony, such as metabolic rates and the density of Symbiodinaceae, the symbiotic algae that live within the coral tissues. To simulate a thermal stress event, the adult corals were exposed to two different temperature treatments -- ambient (84°F or 29°C) or heated (88°F or 31°C) -- for a period of 21 days over their reproductive period. Afterward, the team assessed the physiology of the adult corals, looking at key functions such as respiration and photosynthetic rates. They also monitored the release of coral larvae and assessed its physiology, measuring the larval size and density of Symbiodinaceae within each larva, among other factors.


Upon completion of the experiment, the adult corals were divided in half and reciprocally transplanted, with half of the fragments positioned in the new environments and half returned to their originating environments. All of the fragments remained in place until the summer of 2018, when they were re-collected, and the physiologies of both adult corals and coral larvae were assessed in the same manner as in 2017.


A Stronger Coral Generation


The results of this two-year investigation showed that adult corals that experienced the thermal stress event produced offspring more capable of thriving in their current environment. This means that parent corals that experience stressors may be able to "pre-condition" their offspring to survive in new environments in the following year. The results also indicate that high-intensity environmental stress events, such as bleaching, can have lasting impacts on adult colonies and how they produce their offspring.






"The coral used in this study is a notoriously resilient coral and these findings potentially demonstrate how this species is so persistent across the Caribbean," Putnam said. "Not all coral species are this robust to environmental stressors. However, this system allows us to unravel the mechanisms leading to resilience and identify which corals are most sensitive to climate change."


Long-time Member of BIOS Community


Wong, 27, is a familiar face at BIOS, having first arrived on campus in the summer of 2014 as a CABIOS intern when he spent 12 weeks working with de Putron on a research project investigating the role of temperature and light on the growth and survivorship of juvenile mustard hill corals from two different reef zones. The following year, he received CABIOS funding to work with then-faculty member Gretchen Goodbody-Gringley on a project focused on the reproductive ecology of corals from mesophotic reef ecosystems, deeper-water reefs which typically extend from 100 to almost 500 feet (30 to 150 meters) in depth.


While presenting the results of his research at the 2016 International Coral Reef Symposium meeting in Hawaii, he had the opportunity to interview with Putnam for URI's Biological and Environmental Sciences doctoral program. Wong then returned to BIOS to spend six months in 2016 as a teaching assistant for several summer and fall courses. He also received BIOS Grants-in-Aid funding for a research project with Goodbody-Gringley and de Putron focused on the reproductive ecology of mustard hill coral from various reef sites around Bermuda, resulting in a publication in the journal Coral Reefs.


"It is wonderful to see an undergraduate intern progress to a successful graduate student who is publishing manuscripts," de Putron said. "Many years of hard work and plenty of exhausting, yet fun, days in the field and laboratory all culminated in interesting and critically relevant discoveries that further our understanding of coral resilience."


Now, a year from graduation, Wong is diving deeper into the mechanisms that drive environmental memory within and across coral generations at a molecular level. By using approaches such as metabolomics (the identification and quantification of metabolic by-products), transcriptomics (quantification of gene expression), and epigenetics (features that regulate gene expression), Wong aims to determine the key linkages between metabolism and coral bleaching phenotypes at a cellular level.






#Nature | https://sciencespies.com/nature/coral-offspring-physiology-impacted-by-parental-exposure-to-intense-environmental-stresses/

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