Catastrophic events carry forests of trees thousands of miles to a burial at sea

Catastrophic events carry forests of trees thousands of miles to a burial at sea
Wood from trees as high as the mountains can travel thousands of miles downriver to the Bay of Bengal as part of an ancient cycle that seems to be triggered by monsoons and other catastrophic events. Credit: Christian France-Lanord, Université de Lorraine

Flooding from torrential rains caused by cyclones and monsoonal storms, as well as other catastrophic events, are responsible for moving huge amounts of fresh wood to a watery grave deep under the ocean, according to Earth scientists.

Their research, published in the Proceedings of the National Academy of Sciences on Oct. 21, shows the first-ever evidence that trees may travel thousands of miles from their mountain homes to settle in the vast sediments extending under the sea from river mouths.

Wood from ancient trees found in the deep sea

An international research team led by Sarah Feakins, associate professor of Earth sciences at USC Dornsife College of Letters, Arts and Sciences, examined taken from the over a thousand miles offshore from Bangladesh, in the Bay of Bengal.

Once at the target point at sea, the U.S.-operated research ship R/V Joides Resolution, which is part of the International Ocean Discovery Program, extended a drill mechanism more than two miles down from the ocean's surface to its floor and drilled more than a half a mile down into the sediments.

They then carried the samples back to the lab, where the research team combed through the resulting core samples. They discovered chips in the sandy layers dating back as far as 19 million years.

Their analysis showed that wood in most layers came from lowland sources, but one layer contained wood from trees high in the mountains.

"We found pristine pieces of conifers," Feakins said. "These trees grow two miles above sea level, up in the Himalayas."

The trees likely were uprooted during the last ice age by a massive release of water from the breach of a natural dam created by a glacier, landslide or similar land feature. In what must have been a surge of water, the trees rode rivers thousands of miles from Nepal through Bangladesh and into the Bengal Fan, the largest underwater sediment accumulation in the world.

The scientists, searching through other layers in the core sample, found wood from the lowlands, as well. These likely were carried to the sea by and flooding during monsoons or cyclones that occurred many time across 19 million years.

Rivers export trees

Aside from revealing the astounding distance trees may be carried by rivers to the sea due to natural events, the study finds this tree wood is an important part of the cycle.

Catastrophic events carry forests of trees thousands of miles to a burial at sea
Scientists studying sediments in the Bay of Bengal found wood sediments dating back 19 million years that appear to be from trees high in the mountains -- a sign that wood travels thousands of miles into the deep sea. Here is an aerial view of one leg of the river route. Credit: Christian France-Leonard, Université de Lorraine

Most of the planet's carbon resides in rock, but the remainder flows in various forms between land, air and ocean, making its way through plants, animals and microbes as it does so.

In the air, carbon may be part of carbon dioxide, methane or other , which can trap heat in the atmosphere, causing the greenhouse effect.

The carbon bound by plants, on the other hand, remains sequestered from the atmosphere until metabolism, decay or burning releases it, usually shortly after death. Yet, rapid transport events by rivers bypass decomposition that normally follows tree-fall and instead deliver fresh wood to be entombed in sediment on the seafloor.

The findings point to a previously unrecognized way carbon can remain locked away, effectively removed from the carbon cycle, for millions of years. The abundance of wood suggests that the prior estimates of carbon exported by modern Ganges-Brahmaputra rivers were low.

Now, accounting for wood, the amount of carbon exported and buried may be 50% greater than previously thought.

"As we've tried to calculate the amount of carbon in all parts of the carbon cycle, we didn't know about this forest of fragmented buried in the ocean floor," Feakins said. "Now we need to add it to the equation."

Carbon drawdown

Feakins added that the findings emphasize the importance of free-flowing rivers in carbon sequestration.

"Over the past 50 million years, average global temperatures fell significantly," Feakins said, as did atmospheric CO2 levels.

This was due to natural processes—such as weathering of rocks (including the Himalayas) and burial of plant carbon offshore—that draw carbon out of the atmosphere. This study points to the need to inventory millions of years of carbon sequestration in these elusive woody sediment layers without which greenhouse gases would have kept temperatures high.

Further, the 50 million years-long cooling trend has rapidly reversed in recent decades due to human activity, which has raised CO2 levels close to those of 3 million years ago.

Feakins notes that, in parallel to emissions reductions, understanding the services that natural ecosystem and rivers perform can inform decisions about forest management, dam removal and other issues with regard to their potential to help manage the carbon cycle.

More information: Hyejung Lee el al., "Sustained wood burial in the Bengal Fan over the last 19 My," PNAS (2019).

Citation: Catastrophic events carry forests of trees thousands of miles to a burial at sea (2019, October 21) retrieved 27 February 2024 from
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