Approximately 50,000 years ago, scientists believe a coniferous forest in the Himalayas was uprooted by some catastrophic natural event—perhaps a colossal glacial melt or earthquake—and traveled miles down a mountainside toward the sea. Over a matter of weeks, the trees were likely obliterated by rocks and boulders, passing through modern-day Nepal and Bangladesh before settling at the bottom of the Bay of Bengal. It was quite a journey for a log.
Though it seems unimaginable for high-altitude trees to wind up under the ocean, an international group of researchers studying sediments in the Bay of Bengal have charted this prehistoric forest’s journey in a new study, published October 21 in Proceedings of the National Academy of Sciences. “People have seen wood being transported to the sea by rivers, and we’ve known it was a possibility, but did not know it could happen at this scale,” says Sarah Feakins, an earth scientist at the University of Southern California and co-author of the study. “We were not expecting it at all.”
The bottom of the Bay of Bengal is home to the Bengal Fan, which is around 1,900 miles long and 890 miles wide—the largest underwater accumulation of sediments in the world.
The researchers drilled at seven sites at the center of the fan. No one expected to find any intact organic matter. “They call it ooze because it just oozes through your fingers,” Feakins says. But in the ooze of the second core, they found the sludge peppered with small fragments that contained recognizable fibers. “It was a bit of a surprise to see these planks of wood, clearly of organic matter,” France-Lanord says. “There was so much wood.”
The wood had blackened and compressed over time, but there was no denying its vegetal origin. And when Hyejung Lee, a graduate student at the University of Southern California, sieved the sediments and studied its chemical isotopes, she found something even more surprising. Though the majority of the wood came from broad-leafed angiosperm trees, which would have grown by the coast, there were also distinct layers of chips that came from gymnosperms, or conifers. In the Himalayas today, conifers grow at high altitudes, nearly 10,000 feet above sea level. According to Feakins, conifers of 50,000 years ago would have grown in a very similar altitude. The researchers also found distinct carbon and hydrogen isotopes that identified the conifer chips as having grown at high altitudes, Feakins says.
“It could have been an earthquake or ice age release, something triggered a huge amount of material from the mountains,” Feakins says. “But it had to happen quickly because that wood is very pristine.” Though the researchers have no way of measuring the speed of the coniferous journey downriver, Feakins estimates it happened in a matter of weeks. “They didn’t sit around for a long time or they would have rotted.”
“I think it’s a very compelling interpretation of the findings,” says Bernhard Peucker-Ehrenbrink, a geochemist at Woods Hole Oceanographic Institution who was not involved with the study. Peucker-Ehrenbrink points out that this is not the first woody debris uncovered in offshore sediments, but its sheer quantity and quality is remarkable. “When I first heard of these layers, I thought of lake outburst floods in the Himalayas,” he says. “The river network then routes the ensuing debris to the coast, where the material is routed through submarine canyons into the deeper areas of the Bengal Fan.”
The researchers hope to take cores from other sedimentary fans across the world to see if ancient forests lurk in those oozes, and if more of the world’s seafloor actually holds a secret vault of long-buried carbon. In her lifetime, Feakins doesn’t expect to see an event as rare and catastrophic as the one that buried the conifers 50,000 years ago. “We’d have to get really lucky for an event to happen while we were around, but obviously it would be catastrophic,” she says, pausing. “So actually we’d hope not to be around.”
[TBC: Something did indeed trigger this immense “flood,” as well as others alluded to by the researchers. The Biblical account begins in Genesis 6.]