Brigitte Meyer-Berthaud is a paleobotanist with the National Center for Scientific Research in Montpellier, France. She said the new fossils are surprising because they indicate Earth's first trees evolved without the aid of leaves and horizontal branches.
"It was probably so advantageous to be bigger than the others that they achieved [height] even if they didn't have the proper organs," she said.
Meyer-Berthaud, who co-authored an accompanying article on the new research, identified in 1999 a different type of tree called Archaeopteris as the earliest modern tree.
These trees, which date to around 385 million to 359 million years ago, had horizontal branches, leaves, and an extensive root system.
Such structures are considered important to achieve treelike stature and are common to most trees in temperate and tropical areas today.
The Gilboa forest dates to 385 million years ago, and the group of cladoxylopsids that includes the Gilboa trees was widespread around the world from about 385 million to 400 million years ago.
Stein noted that these early trees played a major role in establishing Earth's first terrestrial ecosystems.
"Trees really dominate those kinds of environments they're found in. They really are the entire fabric in which an entire ecology fits in a terrestrial realm," he said.
How Ancient Forests Looked
Understanding the full appearance of the Gilboa trees allows scientists to infer what the entire forest ecosystem was like.
For example, since the Gilboa trees lacked leaves, sunlight would have filtered down to the forest floor.
And the trees, like modern palms, likely dropped their branches on a yearly or seasonal cycle, filling the forest floor with woody litter suitable for arthropods such as spiders and insects.
The trees also would have removed carbon dioxide from the atmosphere, causing global temperatures to drop, Stein added.
The traits of the Gilboa trees are found in many tree types throughout history, he noted.
"[The traits] cannot all be traced back to the same common ancestor, so it's clearly a recurrent evolved form," he said.
"The reason for that is probably ecology, probably something to do with a way of being a large tree or a large plant. It's one way to do it, and it is now clearly the oldest way," he added.
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