This article has been reviewed according to Science X's editorial process and policies. Editors have highlighted the following attributes while ensuring the content's credibility:


peer-reviewed publication

trusted source

written by researcher(s)


Coral reefs: How climate change threatens the hidden diversity of marine ecosystems

Coral reefs: How climate change threatens the hidden diversity of marine ecosystems
A healthy reef on Kiritimati (Christmas Island, Republic of Kiribati). Credit: Danielle Claar, author provided

Like the heat waves on land we have all grown familiar with, marine heat waves are being amplified by climate change. These extreme warm water events have ushered in some of the most catastrophic impacts of climate change and are now a major threat to ocean life.

Coral reefs, which are home to a quarter of all life in the ocean, are the most vulnerable. This is a dire situation, given the vast number of people who depend on coral reefs for their sustenance and livelihoods.

As pushes corals beyond their limits, a key question is why different corals vary in their sensitivity to warm waters.

In our new study in Science Advances, we examined the genetics of hundreds of individual corals during the 2015–16 El Niño-driven heat wave. Our results suggest that heat waves have hidden impacts on the genetic composition of reef-building corals. Understanding this could help scientists bolster reef resilience to future heat waves.

Pushing corals out of their comfort zones

Corals are highly adapted to the temperature of their local waters, with temperatures even 1°C warmer than normal pushing them out of their comfort zone.

Unusually disrupts the vital relationship between (the reef-builders) and their symbiotic partners, microscopic algae that provide food to the corals. This causes , and in many cases mortality.

The tropical heat wave at our study site in the central Pacific Ocean, Kiritimati (Christmas Island), lasted for ten months, a world record. This led to extensive coral bleaching, presenting an opportunity to determine why some corals died and others survived.

Cryptic diversity within a widespread coral species

We focused on the widespread lobed coral (Porites lobata). This species is among the most heat-tolerant corals, and despite almost 90% of all coral cover being lost on Kiritimati, over half of lobed corals survived.

Coral reefs: How climate change threatens the hidden diversity of marine ecosystems
A reef on Kiritimati (Christmas Island) at the end of the 2015–16 marine heat wave where some Porites lobata colonies survived (yellow/tan colours), some were alive but bleached (white colonies), and some died along with the rest of the reef (red/purple/pink colours of turf algae covering dead colonies). Credit: Danielle Claar, author provided

In fact, some Porites colonies didn't bleach at all.


Using genomic tools, we identified three distinct types of Porites lobata on Kiritimati. These lineages, which may represent , are indistinguishable by eye but genetically different.

Such biodiversity is known as "cryptic diversity" or "hidden diversity." Although cryptic is widespread across corals, its ecological implications remain unclear.

Marine heat waves threaten cryptic diversity

We found that one genetic of Porites was highly sensitive to the heat wave: only 15% of its colonies survived compared to 50%–60% in the other lineages. Thus, even in a coral widely considered to be stress tolerant, heat waves can have hidden impacts, threatening diversity that is invisible to the naked eye.

If future continue to have similar effects, eventually sensitive genotypes like this one could be completely lost, reducing the genetic diversity of .

Because interbreeding between cryptic lineages and species can offer a potential avenue for future adaptation, losses of genetic diversity could make a bad problem even worse by limiting future adaptation to changing environments.

Coral reefs: How climate change threatens the hidden diversity of marine ecosystems
Two colonies of Porities growing side-by-side on Kiritimati (Christmas Island) during the 2015–16 marine heat wave. One colony appears healthy while the other is severely bleached. Credit: Kieran Cox, author provided

A forced breakup

So why did Porites lineages on Kiritimati differ in survival?

One hypothesis is that they house symbiotic partners with different heat sensitivities. Using metabarcoding, a technique that attempts to identify everything found living in the coral tissue, we identified which symbionts were partnered with which corals before, during and after the heat wave.

We found that the distinct Porites lineages had different partnerships before the heat wave. Porites species pass on their symbionts from one generation to the next and so these relationships likely arose over many generations.

By the end of the , however, one of Porites' unique algal partners had been virtually eliminated. The survivors of all lineages had similar symbionts, suggesting specialized relationships between the partners had been lost under extreme temperatures.

Thus, not only was a cryptic coral lineage left teetering on the edge of local extinction, but its specialized symbiotic relationship had also been forcefully broken up.

Implications for conserving coral reefs

Due to climate change and other threats, we are currently experiencing a biodiversity crisis. Our findings underscore that this crisis extends beyond what the eye can see.

Cryptic species often occupy unique ecological niches and play specific roles within ecosystems. Discovering these hidden differences can enhance our understanding of how ecosystems function. But worryingly, we may be losing this critical diversity before it is even discovered.

Continued study of cryptic diversity could prove essential to building climate resilient ecosystems. Using heat tolerant cryptic lineages in restoration approaches, for example, could help make reefs more tolerant to future warming.

Ultimately, greenhouse gas emissions must be rapidly reduced to curb planetary warming. While targeted efforts to bolster coral reefs against climate change may buy limited time, the current blanketing the world's oceans underscore that the ocean is simply becoming too hot for corals and we need to act rapidly to mitigate the damage.

Journal information: Science Advances

Provided by The Conversation

This article is republished from The Conversation under a Creative Commons license. Read the original article.The Conversation

Citation: Coral reefs: How climate change threatens the hidden diversity of marine ecosystems (2023, August 24) retrieved 20 July 2024 from
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Explore further

Marine heat wave impact on corals worse than previously thought, according to new research


Feedback to editors