PNG expedition discovers largest trees at extreme altitudes
The first field campaign surveying Papua New Guinea's lush primary forests from the coast to clouds has revealed the high mountain tops may house the largest trees recorded globally at such extreme altitudes.
The study – which involved The University of Queensland's Dr John Dwyer and James Cook University's Professor Michael Bird – was led by Dr Michelle Venter, a postdoctoral fellow at the University of Northern British Columbia, Canada.
"The study may force a re-think of what we know about the ideal environments for growing very large trees," said Dr Dwyer, a UQ School of Biological Sciences' lecturer and CSIRO researcher.
Dr Venter led seven field expeditions in areas far from roads and villages, with the help of more than 70 field assistants from five forest-dependent communities, working on slopes of up to 88 degrees.
They studied 195 forest plots in the rugged and remote Morobe province along an elevation gradient spanning from the coastal lowland forests (50m) to upper montane tropical forests (3100m).
Unexpectedly, the researchers found that the forest biomass had a major peak at altitudes of 2400-3100m, altitudes where forests struggle to reach more than 15m tall in other parts of the world.
"Tropical montane forests are typically squat and gnarly," Dr Venter said.
"Current thinking is that tall mountains make small trees.
"However, we recorded more than 15 tree families with individuals growing 30-40m tall at extreme altitudes, which brings this assumption into question."
The tallest trees included a 41m high Nothofagus starkenborghii, one of the southern beeches whose ancestors dominated Gondwanan forests for millions of years.
Dr Dwyer said the researchers became excited when they realised the unique climate conditions found on mountain tops of PNG were remarkably similar to those of temperate maritime areas known to grow the largest trees in the world
"Think of the foggy mid-west coast of the USA, which boasts the epically large coast redwoods," Dr Venter said.
The world's tallest known tree is a 115.8m (380ft) coast redwood (Sequoia sempervirens) found in California, and the second-tallest reliably measured specimen, is a 99.82m (327.5ft) mountain ash (Eucalptytus regnans) from the Arve Valley in Tasmania.
Several Australian gums from Tasmania and Victoria are also in the top 20 monument trees list.
Coast redwoods occur in elevations up to about 920m, while the Australian mountain ash occurs in cool mountainous areas to 1000 metres altitude, considerably less than the PNG altitudes.
James Cook University's Professor Bird said: "Believe it or not, why and how trees grow large is still a topic for investigation and reasons for the persistence of large old trees are still not clearly known."
"Large trees are susceptible to many interacting threats, from disease to climate change, and because of their size and age, they don't adapt well to rapidly changing, human-modified environments."
The study was published today in the journal Global Change Biology (DOI: 10.1111/gcb.13741)
Dr. John Dwyer
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