Cooking corals on Christmas Island

Bay of Wrecks, windward side, 30ft depth. Photo of newly-dead, algae-covered Acropora coral (brown-green fuzzy plates), bleached and partially-bleached Porites (white and yellow-white nubbly massive-type corals), bleached Montipora (white fungus-looking coral in lower left of photo), and partially-bleached Pocillopora (white-tipped branching corals). Photo by Pamela Grothe.

by Kim Cobb

On this remote island in the middle of the Pacific Ocean, corals are being put to the test of their lives as water temperatures soar to a staggering 31C (88F). The current El Niño event is responsible for the large-scale warming across the equatorial Pacific, but water temperatures have been above the threshold for coral bleaching at this site for months now. Worst of all, waters will remain far above average for the next 1-2 months, before returning to near-normal values by spring 2016.  

The last time water temperatures reached such levels was during the 1997/98 El Niño event – the largest El Niño event on record. Presumably the reef at Christmas Island was devastated by widespread bleaching and mortality, but nobody was around to document the effects. As it happens, I snorkeled the reefs at Christmas during November 1997 as a baby graduate student, but didn’t think to take photos or make any systematic observations at the time.

Over the last week, our field team has been systematically documenting the status of the many different types of coral reefs on Christmas Island. In close collaboration with Dr. Julia Baum (U. Victoria) – a marine ecologist by training – we have taken hundreds of photos along preset transects that she and her students have been surveying for the last 7 years. Such baseline data are critical to understanding how this off-scale thermal stress event has impacted the reef. And up until July, 2015, her field teams had documented thriving reef communities all around Christmas Island. This July, they observed the beginnings of the current bleaching event, with some species showing widespread bleaching but little mortality.

This time, the underwater damage is jaw-dropping. It is hard to describe the gut punch that I took when I first witnessed the devastation on the remote windward reefs. Here, entire species of coral, such as Acropora, were already coated in brown-green algae, pushed far beyond the point of bleaching many weeks ago. Others, such as Favia, were 100% bleached, with some algae-coated colonies having lost their months-long battle against the warm waters. Consistently, we observed Porites and Pocillopora in various states of bleaching. For Pocillopora, every colony showed bleaching at the tips of its stocky branches, but very few were completely bleached. While some Porites colonies were completely bleached, a Porites colony only a few meters away may have only exhibited mild paling. We did not see any dead Porites colonies – at least not yet. This genus is particularly important to my lab’s work, as we use Porites colonies to reconstruct El Niño events for the last 7,000 years, calibrating our reconstructions with colonies growing on the reef today. Ecologically, it is one of the more resistant species to bleaching, so its resilience to the current thermal stress event is a key benchmark of reef health. I would estimate total coral bleaching and/or death at 50-90% (very site-dependent).

We will be returning to Christmas Island in March 2016 with the Baum team, at the tail end of the current El Niño event, to document the maximum extent of bleaching and mortality. Judging by how much the reefs have deteriorated from July to November, the next four months may well witness near-100% mortality for most of the Christmas Island coral reefs.

Our latest field observations confirm our fears – that the current bleaching event will reshape the reefs at Christmas Island for years to come. Monster El Niño events are nothing new to Christmas, as recorded in the geochemical variations of centuries-old coral skeletons from my lab’s work, but the rapid succession of very strong El Niño events in the last decades stands out against the backdrop of natural variability in our records. For the reefs at Christmas Island, the 2015/2016 El Niño event may be a tiding of things to come under continued anthropogenic climate change. If so, then the current event represents a golden opportunity to study if and how this reef is fundamentally (and possibly permanently) altered under acute thermal stress. After all, while we cannot stop the ravaging effects of the current El Niño on coral reef ecosystems across the Pacific, we can certainly learn some key lessons from it. It isn’t far-fetched to think that one day, such lessons may provide the blueprint for engineering the resilience of corals reefs to climate change.

Below are some of the photos from the last week's expedition. UPDATE:  A special thanks to Danielle Claar (U. Victoria) for helping to identify the species in these photos.

South Side, 30ft depth. This was the healthiest site we saw. 100% bleached Hydophora microcons beginning to die (brown cap on pure white, spherical colonies in foreground), nearly 100% bleached Porites (white nubby mass in center of image), and partially-bleached Porites (pale yellow nubby mass in lower left of photo), and severely bleached Pocillopora (white-tipped branching coral to the far right of photo). Photo by Kim Cobb.

South Side, 30ft depth. 100% bleached and some dying Hydnophora, Favia, and Favites corals (white, round colonies w/ brown caps), partially-bleached and some dead Pocillopora (white-tipped branching corals), 100% bleached Montipora (white fungus-like fans), and dead Favia corals (round, brown, smallish corals - hard to see here). Photo by Kim Cobb.

Bay of Wrecks, 30ft depth. Photo shows dead Acropora colonies (brown-green fuzzy plates in left half of photo), 100% bleached Porites colony (large white nubbly coral), and numerous partially bleached Pocillopora colonies (white-tipped branching corals). Photo by Pamela Grothe.

Into the El Niño sauna

by Kim Cobb

I’ve been waiting 18 years for this moment.

You see, I study the El Niño-Southern Oscillation (some would say I’m obsessed with it), and this is the largest El Niño event since 1997/98, which itself was the largest El Niño on record. During that event, I was a beginning graduate student on a large research cruise to Christmas Island. I had no context for the conditions I was witnessing at the time – the white corals, the huge swells on the leeward side, the constant rain. Nobody on the cruise fully grasped the magnitude of the event that would peak that very month.

Fast-forward 18 years, and I am leading the first of several field expeditions designed to document the effects of this massive El Niño event on the coral reefs I’ve been studying for my entire career. The event itself will be gone in the blink of an eye, but its effects on coral reef ecosystems will likely last a decade or more.

At 2N, 157W, Christmas Island lies at the epicenter of the current El Niño event. NOAA has sounded the alarm on a global coral bleaching event that is currently underway, and Christmas Island has been under an Alert Level 2 (indicative of “Mortality Likely”) for the last three months (Figure 1). With ocean temperatures projected to remain warm over the next 1-2 months before cooling into the spring, most of the corals here will likely bleach. When corals lose their colorful, symbiotic algae, they lose a critical source of energy and become much more vulnerable to disease and infection. If bleaching lasts for more than a few months, corals are unlikely to survive the episode. In 1997/98, I witnessed widespread bleaching and mortality – although nobody was around to do an official survey. And over the last 18 years, I’ve watched the reefs recover, slowly but steadily.  

Figure 1. Map of coral bleaching projections for the last week, from NOAA Coral Reef Watch, showing a high likelihood for bleaching at Christmas Island.

In my lab, we use geochemical variations locked in coral skeletons from Christmas Island to reconstruct a history of El Niño-Southern Oscillation (ENSO) variability over the last centuries to millennia. Our lab’s data show that recent ENSO variability is significantly stronger than ENSO variability over the last 7,000 years, indicating that greenhouse gases may be driving an intensification in ENSO extremes (see related publication here). But what happens when the archive I rely on to study past El Niño events is threatened by a very strong El Niño event? I don’t know, but this winter, I intend to find out.

Ever since spring 2014, I’ve been waiting for the fledgling El Niño event to take shape. In late August of this year, after a decisive push from the atmosphere in the right direction, the breath-holding gave way to a flurry of preparations for the upcoming field season. Over the course of three planned expeditions, my lab’s resources, and those of my collaborators, will be stretched to the very limit (and beyond, in some cases).

Our mission for the current trip is multi-fold, and incredibly ambitious.

Our top priority is to service and/or install a wide variety of environmental logging devices, including a high-end weather station, as well as ocean temperature and salinity loggers, some of which were installed in Summer 2014. We will collect hundreds of rainwater and seawater samples to document how this event has changed the geochemical and isotopic properties of the environmental waters - changes that the corals record in their skeletons and that we rely on to document past El Niño events. With this trove of data, we hope to quantify how the physical and chemical environment changed before, during, and after the event.

Our second objective is to document the health of the coral reefs on Christmas Island by systematically photographing transects of corals previously photographed by our collaborator Julia Baum and her students on previous expeditions to the island. When her team was here in July 2015, her graduate student Danielle Claar photographed a variety of bleached corals, estimating total bleaching at roughly 30% (Figure 2). We expect much more extensive bleaching this time around, as ocean temperatures have only increased since that time.

A bleaching Acropora colony in upper left, along with fully bleached Pocillopora colonies, in July 2015. Photo taken by Danielle Claar.

The field team includes my new NOAA Postdoctoral Fellow Alyssa Atwood, my graduate student Pamela Grothe (a seasoned Christmas Island expeditioner), and long-time undergraduate researcher Shellby Miller. Yes, this is an all-female research team!

From left:  Pamela Grothe, Kim Cobb, Alyssa Atwood, and Shellby Miller.

Stay tuned for updates from the field (internet permitting - I blame the unusually slow internet on El Niño, of course).