Wednesday, July 06, 2022|
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A newly released study by federal and university researchers provides “encouragement and guidance” for land managers wanting to reestablish ‘ohi‘a stands wiped out by Rapid ‘Ohi‘a Death or impacted by other disturbances like volcanic activity and wildland fires.
In the academic paper, “Aboveground carbon accumulation by second-growth forests after deforestation in Hawaii,” researchers looked at how carbon accumulates after disturbances (lava flows, fire, disease) in the native ‘ohi‘a, compared to invasive species, albizia and strawberry guava, the Department of Land and Natural Resources said in a press release.
The authors write that the opportunity to understand and document aboveground forest carbon accumulation presented itself in the mid-1980s when portions of an intact, mature native lowland rainforest in the Puna District of Hawaii Island were cut to the ground and bulldozed.
“These actions created extensive areas of exposed, highly disturbed lava fields across most of the clearcut region,” the study notes.
Subsequent long-term monitoring of secondary tree succession showed widespread recruitment and growth of ‘ohi‘a seedlings and strawberry guava. Strawberry guava “is considered a profound threat to native Hawaiian forests, and it has displaced native species across hundreds of thousands of acres.”
One of the researchers’ primary questions was, “After several decades of succession since disturbance, to what degree have second-growth forests in clearcut areas accumulated carbon mass relative to adjacent, intact, mature primary forests?”
More broadly, the scientists wanted to learn the extent to which Hawaii’s dominant native tree, ‘ohi‘a, will be a viable candidate for reforestation efforts in the wake of stand-level kill-off induced by ROD and how ‘ohi‘a-dominated forests may help combat climate change, by increasing forest carbon capture across the Hawaiian Archipelago.
USDA-Forest Service research ecologist Flint Hughes, lead author of the study, noted the surprising and heartening result: “Not only are mature ‘ohi‘a forests capable of storing as much carbon in their living biomass as big tropical rainforests elsewhere in the world, second-growth ‘ohi‘a forests recovering from disturbances, such as clearcutting, grow every bit as fast as highly productive second-growth forests in Latin America, Asia or Africa.”
However, Hughes cautioned that the rapid carbon accumulation of second-growth ‘ohi‘a forests only occurred where invasive, nonnative trees like strawberry guava and albizia were not present. “Given those results, it’s clear that nonnative weed management is essential to the reestablishment and continued health of our ‘ohi‘a forests.”
The recent study confirmed previous studies that showed ‘ohi‘a stands could replace themselves quickly, if factors like nonnative plant invasions don’t disrupt their establishment and development.
On Hawaii Island alone, there are an estimated 290 million mature ‘ohi‘a. Collectively, they are an order of magnitude more numerous than any other native tree species.
“This is invaluable information in helping guide us to make restoration and recovery decisions for ‘ohi‘a-dominated forests that have seen the devastating impacts of the fungal disease,” said David Smith, administrator for the DLNR Division of Forestry and Wildlife. “It supports our long-held notion that native species are best for various reasons, not the least of which being valuable in capturing carbon from the atmosphere, as we investigate and consider all tools to combat climate change.”
The study was conducted by researchers with the Institute of Pacific Islands Forestry, U.S. Forest Service Pacific Southwest Research Station, California Strategic Growth Council, University of Hawai‘i at Manoa, and Brigham Young University.
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