(Līhu‘e) – Recent helicopter surveys prompted foresters with the DLNR Division of Forestry and Wildlife (DOFAW) to sample 10 dead ‘ōhi‘a in two locations within the Līhu‘e-Kōloa Forest Reserve. Six trees tested positive for Ceratocystis lukuohia, the more virulent of the two fungal pathogens causing Rapid ʻŌhi‘a Death, the disease killing ‘ōhi‘a across the state.
Everyone is Asked to Practice Bio-Sanitation To view video please click on photo or view at this link: https://vimeo.com/325914375
Late in 2018, the Kaua‘i Rapid Response Team, made up of scientists and managers from county, state, federal, and non-governmental agencies, reported the presence of C. lukuohia on a Department of Hawaiian Home Lands parcel behind Kalalea Mountain in Anahola. A total of 22 trees in three separate locations across Kaua‘i have now tested positive for this more virulent species of the two fungi that cause Rapid ʻŌhi‘a Death.
“The lukuohia species is much more aggressive than the huliohia species,” said Sheri S. Mann, DOFAW Kauai Branch Manager. “It is very important to do all we can not to accidentally spread the pathogen around on our vehicles, boots, and clothes.”
Since the disease was identified on Hawai‘i Island in 2014, more than a million trees have died —with more than 90 percent of those testing positive for C. lukuohia. On Kaua‘i, the number of trees that have tested positive for C. lukuohia is much lower than on Hawai‘i Island. The six most recent are located in the Līhu‘e-Kōloa Forest Reserve—five near the Kalāheo-Lāwai section and one in the Wailua section of the forest reserve. The dead ‘ōhi‘a in upper Wailua is located along Powerline Trail. Both places are fairly accessible, so experts are asking for people’s help in containing the disease.
“These deadly microscopic fungal pathogens can be moved around the island in mud,” said Tiffani Keanini, project manager of the Kaua‘i Invasive Species Committee (KISC). “Theoretically, all it takes is one spore to infect an ‘ōhi‘a tree. So, we’re stressing bio-sanitation practices. Basically, leave mud where you found it. That may be easier said than done, but every little bit helps.”
Boot brushes have been installed at numerous trailheads around the island. While supplies last, KISC is also giving away bio-sanitation kits. Anyone interested in getting one should email email@example.com or call 808-821-1490. Each kit contains a boot brush, bottle of isopropyl rubbing alcohol, and educational literature. This bio-sanitation video provides a demonstration of these simple decontamination practices.
‘Ōhi‘a is the most common tree in our native forest, and it’s absolutely vital to our forest ecosystem and watershed. Mann added.
“The effort to save ‘ōhi‘a on Kaua‘i is a statewide one. After the positive test results of these six additional trees came back from the USDA Agricultural Research Service (ARC) in Hilo, high-resolution aerial imagery of the areas was obtained by the UH Hilo Department of Geography SDAV Lab. DOFAW and KISC have scheduled an on-the-ground sampling effort the second week of September. A crew of 12 to 15 trained technicians will sample additional suspect trees. Six experts from the Big Island Invasive Species Committee and one from Hawai‘i Island DOFAW will join us. The more we know about where this pathogen is and how it is moving, the more we can do to slow it down or maybe even stop it.”
Local residents can expect to see helicopters flying in and out of the affected areas during the survey week.
Two species of fungal pathogens result in the rapid killing of ‘ōhi‘a trees. The other pathogen resulting in ROD, Ceratocystis huliohia (the lesser virulent) was first detected on Kaua‘i in May 2018. Genetic testing suggests it may have been present on the island at undetectable levels for several decades.
In early 2018, the two different species of fungi that cause Rapid ʻŌhi‘a Death were described as C. huliohia and C. lukuohia. Both species are new to science. The difference between the two pathogens is how they move through the tree and how quickly they kill.
Since it was first detected on Kauai in 2018, 141 trees have been sampled. Of those, 22 have tested positive for C. lukuohia and 37 for C. huliohia.
“The pathogen enters the tree through a wound, be it a broken limb, twig or perhaps, a scuffed up exposed root. Whereas C. huliohia may take months to years to kill an ʻōhiʻa tree, C. lukuohia can kill a tree within weeks,” said James B. Friday, the extension forester with the University of Hawai‘i.
ʻŌhi‘a die for many reasons, although symptoms consistent with Rapid ʻŌhi‘a Death include the sudden browning of leaves on limbs or the entire crowns of trees. The fungus is not visible on the leaves or the bark but grows in the sapwood just below the bark and impacts the flow of water in the tree.
As there is no known cure, experts encourage these practices:
1) Avoid injuring ʻōhiʻa. Wounds serve as entry points for the fungus and increase the odds that the tree will become infected and die. Avoid pruning and contact with heavy equipment wherever possible. Avoid cutting new trails in ‘ōhi‘a forests and stepping on their roots.
2) Clean gear and tools, including shoes and clothes, before and after entering the forest and areas where ʻōhiʻa may be present. Brush all soil off tools and gear, then spray with 70% rubbing alcohol. Wash clothes with hot water and soap and, if possible, dry on the high heat setting in the dryer.
3) Wash your vehicle with a high-pressure hose or washer if you’ve been off-roading or have picked up mud from driving. Clean all soil off tires–including mountain bikes and motorcycles–and vehicle undercarriage, preferably with soap and water.
4) Don’t move ʻōhiʻa wood or ʻōhiʻa parts, including adjacent soil. The disease can be spread to new areas by moving plants, plant parts, and wood from infected areas to non-infected areas.
5) Keep your eyes open. If you see ʻōhiʻa with a limb or crown turning brown, take a picture and send it to KISC via email (firstname.lastname@example.org) or phone (808-821-1490) and describe exactly where you saw the tree. Samples of the wood must be taken by trained technicians and tested in a laboratory to confirm the presence of the ROD fungi.