News Release

Breakdown in coral spawning places species at risk of extinction

Synchronized coral spawning has become erratic, endangering the long-term survival of coral species, Tel Aviv University researchers say

Peer-Reviewed Publication

American Friends of Tel Aviv University

Corals

image: In-situ spawning of the studied species. (A) At ~30 minutes prior to spawning, Acropora eurystoma colonies can be observed in a 'setting' mode, in which egg-sperm bundles are already visible at the mouth-opening of each polyp. (B) Synchronized whole-colony spawning of A. eurystoma. (C) Partial spawning of Platygyra lamellina without the formation of egg-sperm bundles, in contrast to (D) Synchronized whole-colony spawning of egg-sperm bundles by P. lamellina. (E) Acanthastrea echinata spawning and (F) a male Galaxea fascicularis colony. Scale bars indicate ~1 cm. view more 

Credit: Tel Aviv University

Coral reefs are among the most diverse and productive ecosystems on our planet. But due to climate change and other human stressors, reef-building corals that reproduce by means of broadcast-spawning -- the simultaneous release of eggs and sperm into open water -- may now be under threat of extinction.

A new Tel Aviv University study finds that the highly synchronized, iconic spawning events of certain reef-building corals in the Gulf of Eilat/Aqaba, Red Sea, have completely changed over time and lost their vital synchrony, dramatically reducing chances of successful fertilization.

According to the research, led by Prof. Yossi Loya and PhD candidate Tom Shlesinger of TAU's School of Zoology and published in Science on September 6, the breakdown in coral spawning synchrony has led to a dearth of new recruits and stagnant aging populations, creating circumstances for extinction.

"Coral spawning, often described as 'the greatest orgy in the world,' is one of the greatest examples of synchronized phenomena in nature," explains Prof. Loya. "Once a year, thousands of corals along hundreds of kilometers of a coral reef release their eggs and sperm simultaneously into the open water, where fertilization will later take place. Since both the eggs and the sperm of corals can persist only a few hours in the water, the timing of this event is critical."

Successful fertilization, which can take place only within this narrow time window, has led to the evolution of a precise spawning synchrony. Such synchronicity relies on environmental cues: sea temperature, solar irradiance, wind, the phase of the moon and the time of sunset.

In 2015, the researchers initiated a long-term monitoring of coral spawning in the Gulf of Eilat/Aqaba. Over four years, they performed 225 night field surveys lasting three to six hours each during the annual coral reproductive season from June to September and recorded the number of spawning individuals of each coral species.

"We found that, in some of the most abundant coral species, the spawning synchrony had become erratic, contrasting both the widely accepted paradigm of highly synchronous coral spawning and studies performed on the exact same reefs decades ago," says Shlesinger.

The researchers then investigated whether this breakdown in spawning synchrony translated into reproductive failure. They mapped thousands of corals within permanent reef plots, then revisited these plots every year to examine and track changes in the coral community -- i.e., how many corals of a given species had died compared with new juveniles recruited to the reef.

"Although it appeared that the overall state of the coral reefs at Eilat was quite good and every year we found many new corals recruiting to the reefs, for those species that are suffering from the breakdown in spawning synchrony, there was a clear lack of recruitment of new juvenile generations, meaning that some species that currently appear to be abundant may actually be nearing extinction through reproductive failure," says Shlesinger.

"Several possible mechanisms may be driving the breakdown in spawning synchrony that we found," Prof. Loya concludes. "For example, temperature has a strong influence on coral reproductive cycles. In our study region, temperatures are rising fast, at a rate of 0.31 degrees Celsius per decade, and we suggest that the breakdown in spawning synchrony reported here may reflect a potential sublethal effect of ocean warming. Another plausible mechanism may be related to endocrine (hormonal) disrupting pollutants, which are accumulating in marine environments as a result of ongoing human activities that involve pollution."

"Regardless of the exact cause leading to these declines in spawning synchrony, our findings serve as a timely wake-up call to start considering these subtler challenges to coral survival, which are very likely also impacting additional species in other regions," says Shlesinger. "On a positive note, identifying early-warning signs of such reproductive mismatches will contribute to directing our future research and conservation efforts toward the very species that are at potential risk of decline, long before they even display any visible signs of stress or mortality."

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