HomeMy WebLinkAboutRES 062 Draft 01 2016-2018 JMYY.• ,OF M11y,.
COUNTY OF HAWAII - -a: STATE OF HAWAII
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RESOLUTION NO. 62 17
A RESOLUTION URGING THE HAWAII STATE LEGISLATURE TO IMPLEMENT
THE RAPID `OHI`A DEATH PART I: STRATEGIC RESPONSE PLAN FOR HAWAII
2017-2019 AND TO PROVIDE FUNDING TO IMPLEMENT THE PLAN OVER THE
NEXT THREE YEARS.
WHEREAS, Rapid `Ohi`a Death is caused by two species of the fungal pathogen
Ceratocystis, which has impacted over 50,000 acres of`Ohi`a forests and killed millions of
individual trees on Hawai`i Island; and
WHEREAS, the State Board of Agriculture approved a permanent quarantine on
October 18, 2016 for the transport of`Ohi`a plant parts from Hawai`i Island; and
WHEREAS, the outbreak of Rapid `Ohi`a Death on Hawai`i Island is negatively
impacting the culture, the economy, and all of the natural systems that rely on the magnificent
`Ohi`a tree; and
WHEREAS, on May 7, 2016, the Hawai`i County Council adopted Resolution
No. 516-16, urging the administrations of the State of Hawai`i and the County of Hawai`i to take
appropriate steps to prevent the spread of Rapid `Ohi`a Death in Hawai`i, attempting to address
this important issue in a meaningful way; and
WHEREAS, on November 30, 2016, Governor Ige, lead scientists, and other top policy
makers attended the first ever Rapid `Ohi`a Death Summit for the State of Hawai`i held in
Honolulu; and
WHEREAS, the Rapid `Ohi`a Death Part I: Strategic Response Plan (attached here as
Exhibit"A"), was introduced at the Summit; and
WHEREAS, the Rapid `Ohi`a Death Part I: Strategic Response Plan was developed by
the Department of Land and Natural Resources as the lead agency, after months of multi-agency
collaborations, the best available science, and input from many people working on Rapid `Ohi`a
Death; and
WHEREAS, the Rapid `Ohi`a Death Part I: Strategic Response Plan clearly charts a
logical path to address Rapid `Ohi`a Death now, as well as how to prevent its spread in the
future; now, therefore,
BE IT RESOLVED BY THE COUNCIL OF THE COUNTY OF HAWAII that the
Hawai`i State Legislature is urged to implement the Rapid `Ohi`a Death Part I: Strategic
Response Plan for Hawai`i 2017-2019, and to provide funding as identified in the plans budget to
implement the plan over the next three years.
BE IT FURTHER RESOLVED that the Departments and Agencies of the County of
Hawai`i implement the parts of the Rapid `Ohi`a Death Part I: Strategic Response Plan for
Hawai`i 2017-2019, that are applicable to their operations.
BE IT FINALLY RESOLVED that the County Clerk shall transmit a copy of this
resolution to the Honorable Chair Mike Gabbard and the Honorable Vice Chair Gil Riviere of
the Senate Committee on Agriculture and Environment; the Honorable Chair Glenn Wakai and
the Honorable Vice Chair Brian Taniguchi of the Senate Committee on Economic Development,
Tourism and Technology; the Honorable Chair Donna Mercado Kim and the Honorable Vice
Chair Russell Ruderman of the Senate Committee on Government Operations; the Honorable
Chair Maile S.L. Shimabukuro and the Honorable Vice Chair Brickwood Galuteria; of the
Senate Committee on Hawaiian Affairs: the Honorable Chair Clarence Nishihara and the
Honorable Vice Chair Glenn Wakai of the Senate Committee on Public Safety,
Intergovernmental and Military Affairs; the Honorable Chair Lorraine Inouye and the Honorable
Vice Chair Donovan Dela Cruz of the Senate Committee on Transportation and Energy; the
Honorable Chair Jill N. Tokuda and the Honorable Vice Chair Donovan Dela Cruz of the Senate
Committee on Ways and Means.;the Honorable Chair Karl Rhoads and the Honorable Vice
Chair Mike Gabbard of the Senate Committee on Water and Land; the Honorable Chair Richard
Creagan and the Honorable Vice Chair Lynn DeCoite of the House Committee on Agriculture;
the Honorable Chair Chris Lee and the Honorable Vice Chair Nicole Lowen of the House
Committee on Energy and Environmental Protection; the Honorable Chair Sylvia Luke and the
Honorable Vice Chair Ty J.K. Cullen of the House Committee on Finance; the Honorable Chair
Kaniela Ing and the Honorable Vice Chair Cedric Asuega Gates of the House Committee on
2
Ocean, Marine Resources and Hawaiian Affairs: the Honorable Chair Richard H.K. Onishi and
the Honorable Vice Chair James Kunane Tokioka of the House Committee on Tourism: the
Honorable Chair Henry J. C. Aquino and the Honorable Vice Chair Sean Quinlan of the House
Committee on Transportation; the Honorable Chair Ryan Yamane and the Honorable Vice Chair
Sam Satoru Kong of the House Committee on Veterans, Military, & International Affairs, &
Culture and the Arts: and to the Honorable Mayor Harry Kim for distribution to the Department
of Environmental Management, the Department of Public Works, the Department of Parks and
Recreation, the Department of Research and Development, the Hawai`i County Police and Fire
Departments, the Mass Transit Agency and the Department of Water Supply.
Dated at Kona , Hawai`i, this 22nd day of February , 2017 .
INTRODUCED BY:
feA4A- 114tyje
C./
COUNCIL MEMBER, COUNTY OF HAWAII
COUNTY COUNCIL ROLL CALL VOTE
County of Hawai`i AYES NOES ABS EX
Hilo, Hawai`i CHUNG X
DAVID X
I hereby certify that the foregoing RESOLUTION was by EOFF X
the vote indicated to the right hereof adopted by the COUNCIL of the KANUHA
County of Hawai'i on February 22, 2017
LEE LOY X
O'HARA X
ATTEST: POINDEXTER X
RICHARDS X
RUGGLES X
8 01 0
C-89/GREDC-3
Reference:
COUNTY CLERK CHAIRPERSON& PRESIDING OFFICER RESOLUTION NO. 62 17
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`I`IWI, AN ENDEMIC HAWAIIAN HONEYCREEPER, ON `OHI`A MAMO WAN CLARK PHOTO)
EXHIBIT A
CONTENTS
Forward 1
Situation Overview 2
The identification, pathology, distribution, and severity of Rapid 'Ohi'a Death (ROD) 2
Data gaps and knowledge voids .................... 2
Current status and future needs of the response .................................................................................................................................................................................... 4
Goaland Objectives ........................................................................................................................................................................................................................................................................................................................... 5
CulturalSignificance and Engagement ............................................................................................................................................................................................................................................. 6
Research to Inform Response 8
Detecting ROD and understanding its pathology8
.............. .....
Understandingdisease dispersal ............................................................................................................................................................................. . 8
Understanding the impact of ROD on 'ohi'a forests ....................................._............................................_.......................... 9
Spatial dynamics of the threat 10
Restoring ROD-impacted forests 10
Response to Threat 11
Preventing the spread of ROD 11
Surveillance, monitoring, and early detection 12
Rapid response to isolated ROD outbreaks 13
Containmentof ROD-infected areas ........................................................................................................................................ ........................................................................... 14
Restorationof ROD-impacted areas........................................................................................................................................................................................................................ 15
PublicOutreach and Engagement .......................................................................................................................................................................................................................................................... 16
Coordinationand Defining Roles ........................................................................................................................................................ .................................... 18
Budget .............. 19
Part II: Operational Response Plans for 2017-2019 . ....... 20
Acknowledgments 20
ACRONYMS
CTAHR: College of Tropical Agriculture and Human HDOA: Hawai'i Department of Agriculture
Resources PCSU: Pacific Cooperative Studies Unit
DLNR: Department of Land and Natural Resources UH: University of Hawai'i
DOI: Department of the Interior USDA: United States Department of Agriculture
EDRR: Early detection/Rapid response
RAPID , 0H1 ,A DEATH
PART I: STRATEGIC RESPONSE PLAN
FOR HAWAII, 2017-2019
POINT OF CONTACT.
Robert D. Hauff
State Protection Forester
DLNR Division of Forestry & Wildlife
Tel. (808) 587-4174
Robert.D.Hauff@hawaii.gov
PRIMARY CONTRIBUTORS:
Phil Cannon (USDA Forest Service), Charles Chimera (UH Pacific Cooperative
Studies Unit), J.B. Friday (UH College of Tropical Agriculture and Human Re-
sources), Christian Giardina (USDA Forest Service), Thomas Harrington (Iowa
State University), Rob Hauff (DLNR Division of Forestry and Wildlife), Flint
Hughes (USDA Forest Service), Jim Jacobi (US Geological Survey), Lisa Keith
(USDA Agricultural Research Service), Kealoha Kinney (USDA Forest Service),
Lloyd Loope (Loope Environmental Consulting), Ric Lopez (USDA Forest Ser-
vice), Christy Martin (UH PCSU Coordinating Group on Alien Pest Species), and
Corie Yanger (UH College of Tropical Agriculture and Human Resources).
We greatly appreciate the major review by: Carter Atkinson, Joshua Atwood,
Gordon Bennett, David Benitez, Susan Frankel, Curtis Ewing, Alan Holt, Jenny
Juzwik, Teya Penniman, Evelyn Wight, and Mike Wingfield.
_ r _
FORWARii
Rapid 'Ohi'a Death (ROD) is an extremely serious threat to Hawaii's native forests. Mortality caused by
the disease is unprecedented with respect to scale, rapidity, and potential impact. To date, this dis-
ease has only been found on 'ohi'a and is caused by an introduced fungal pathogen. ROD should not
be confused with either 'ohi'a dieback, where groups of trees die over a period of a few years due to
natural causes, or with Puccinia rust, an introduced disease that was first reported in Hawai'i in 2005
and affects new leaves and stems of 'ohi'a, rose apple, and other closely related plants. ROD has the
potential to kill most 'ohi'a individuals in an infected forest. In the few years since ROD symptoms were
detected in 'ohi'a trees in the Puna District of Hawai'i Island, the disease has already become well es-
tablished in large areas of this district and has since spread to many more areas on Hawai'i Island.
As a disease, ROD is particularly problematic because it
is caused by two distinct but closely related fungal patho-
gens within the genus Ceratocystis. While exhibiting
different pathologies, apparent modes of spread, distribu-
tions, and introduction histories, both Ceratocystis species
cause high rates of mortality in 'ohi'a forests, complicating a.»y
planning and response. Given the importance of 'ohi'a to
the ecology, hydrology, economy, and cultures of Hawai'i, Hawaii Island
as well as the high potential for further spread of ROD
across Hawai'i Island and the rest of the State, this Strate- Pa1is
gic Response Plan (SRP) represents a call for rapid, coordi-
nated, sustained, and large-scale impact management of
this unprecedented threat. This SRP also reflects the need
to transition from emergency response to a more sustain-
able and organized strategic response, and focuses on the
following questions:
What do we currently know about ROD? Locations where Ceratocystis is pres-
ent and impacting 'ohi'a forests as of
What do we need to know about the disease and November, 2016. (Anya Tagawa image,
how do we address the unknowns? after ROD Working Group map)
What do we need in order to manage this disease and
its impacts?
To address these questions, the best available science and input from many people working on ROD
have been used to craft this plan that documents what we have learned since the cause of ROD was
identified in late 2014, and the major needs for the next three years. To date, agencies, institutions,
and non-government organizations (NGOs) have contributed more than $2,000,000 in staff time and
in-kind support, and have applied for and received another $2,159,950 in ROD funding from federal,
state and private sources in 2015-2016.
This plan projects the additional needs of $3.6 million for 2017, and $3.2 each year for the next two
years, 2018 and 2019, assuming that existing staff and agency in-kind support will continue at least at
current levels. Public and private funds will continue to be sought to fund the priorities in this plan.
I
SITUATION OVERVIEW
The identification, pathology, distribution, and severity of
Rapid 'Ohi'a Death—This new disease is caused by two spe-
cies of the fungal pathogen Ceratocystis, which has rapidly
spread across the southern districts of Hawai'i Island and killed
millions of 'ohi'a trees (Metrosideros polymorpha). The disease
currently impacts over 50,000 acres of 'ohi'a forest, representing
about 10% of all 'ohi'a forest on Hawai'i Island. To infect a tree,
the pathogen must enter through an open wound, after which It .',j,
it spreads into the trunk, stopping water transport. Although p
trees may be infected for many months before showing out-
ward
ut ward symptoms, once the first visible symptoms appear, death ' »
follows within a few weeks, earning the name "Rapid 'Ohi'a ='F '
Death". Initial results from ongoing research into the impacts of
the disease have shown average annual mortality rates as high
as 20% in 'ohi'a forests where the disease is present, and nearly
100% mortality in areas where the disease has been present for An 'ohi'a tree may be infected
several years. First detected in the Puna and South Hilo districts, for many months before showing
ROD has spread to Ka'u and South Kona districts. There have symptoms, but once the pathogen
been no confirmed cases of ROD in North Hilo, Hamakua, and moves into and blocks the flow of
Kohala districts, nor have there been confirmed cases on any of water in the trunk, the tree crown
the other Hawaiian Islands, as of November 2016. turns yellowish (chlorotic) and
then brown within days to weeks,
The 'ohi'a tree is Hawai'i's most important native tree species, with the entire tree dying soon
occurring as the dominant tree in at least 80% of Hawai'i's na- after (J.B. Friday photo)
tive forests and representing 50% of all forests in Hawai'i. Occu-
pying nearly one million acres across the Hawaiian Islands, 'ohi'a forests extend from sea level to 8,000
feet in elevation and from very dry areas to rainforests receiving over 300 inches of rain per year. 'Ohi'a
is often the first flowering plant to colonize fresh lava flows, and also flourishes on 4 million year old
soils of Kaua'i. 'Ohi'a forests protect the upper reaches of the State's critically important watersheds,
which supply fresh water to downstream communities and agriculture. The State's most endangered
native birds such as the 'akepa and Hawai'i creeper make their home in high elevation 'ohi'a forests,
along with hundreds of other native animals and plant species, many of which are rare, threatened, or
critically endangered. Tens of thousands of Hawai'i Island residents live in or adjacent to 'ohi'a for-
ests, and over a million people a year visit the 'ohi'a forests of Hawai'i Volcanoes National Park. 'Ohi'a
forests have been treasured by native Hawaiians for centuries, not only for practical uses but also in
art, such as hula where 'ohi'a is the kinolau (bodily manifestation) of important Hawaiian gods Ku, Laka,
Kane, and Pele.
Data gaps and knowledge voids —The origins and exact modes of entry into Hawai'i of the two Cer-
atocystis species that kill 'ohi'a are currently unknown. DNA analyses of fungal samples from ROD-im-
pacted trees do not match other Ceratocystis species catalogued in global databases. These two Cer-
atocystis species are in the process of being taxonomically described and named as new species and
are currently being referred to as Ceratocystis Species A and Ceratocystis Species B. Both Species A
and Species B likely were accidentally introduced to Hawai'i with imported plants or plant parts — high-
lighting the need for biosecurity measures focused on plant
diseases to prevent additional importations. Such measures ;, 114. �J ' '
would also prevent further spread of this disease statewide and
beyond. Analyses of DNA from thousands of fungal isolates , . ,`
suggests similarities with the Caribbean group of Ceratocystis
(most similar to Species A) and the Asian group of Ceratocys- �i, * f
tis (most similar to Species B). There remains a critical need • t
to definitively identify the genetic relationships of the Hawai'i s t g`
species to other Ceratocystis species, in order to understand ,} : t
where these species are from, what host plant material they en-
tered on, what additional plant species might be vulnerable to •t� r•
''f
attack, and what additional biosecurity measures are needed
to restrict entry of other host plant species.
There are several suspected vectors for the spread of ROD, In some areas like this forest
although the relative importance of each is not known. The in Puna, nearly all of the 'ohi'a
disease can be spread by people moving infected materials to have died from ROD, and there
ROD-free areas —for example the movement of infected 'ohi'a are few if any 'ohi'a seedlings
logs for posts or firewood, or 'ohi'a plants for landscaping or emerging among the invasive
restoration. Certain Ceratocystis spore types are "sticky" and plants in the understory (LB.
can be transported on cutting tools such as machetes and Friday photo)
chainsaws, which can spread the disease when used on unin-
fected trees. Ceratocystis also produces highly durable spores that are long-lived under a variety of
environmental conditions. Researchers also suspect that the disease is spread by wind and movement
of infected sawdust called frass that is created when wood boring beetles bore into infected, dying,
or dead 'ohi'a trees. The resulting wood frass can contain fungal spores that can be spread by wind.
Initial wind transport modeling suggests that infected frass can be transported for many miles, al-
though it is not clear how much of the inoculum is needed to infect a tree. Following transport, Cera-
tocystis-laden dust or frass can land on 'ohi'a where it may enter an 'ohi'a tree through aboveground
wounds, or become incorporated within surrounding soil where it may enter trees through the root
system. Ceratocystis has been detected in soil near infected trees, and this soil can be spread by
shoes and vehicles that trap and transport spores to new locations.
The fungus can remain viable for at least a year in dead wood, although it is not yet clear how long
after a tree dies or is harvested before the material no longer contains living, infective spores. Kiln-dry-
ing wood at temperatures greater than 130°F kills the fungus. Moving any 'ohi'a wood product that
has not been thoroughly kiln-dried may pose a risk. The Ceratocystis fungus and resulting spores can
also persist in soils, and so transport of soils or live plants in unsterile media or soil should be avoided.
Potted 'ohi'a plants also pose a risk and should not be moved into disease free areas. To this end, the
Hawai'i Department of Agriculture (HDOA) instituted an interim rule in August 2015, which bans the
movement of Myrtaceae plants, plant parts, and soil from Hawai'i Island to other islands in the State
without a permit. In 2016, HDOA went through formal rulemaking to make the interim rule perma-
nent. To date, there are no ROD-related interstate or foreign export restrictions for the protection
of related Metrosideros species outside of Hawai'i including Samoa, Fiji, New Caledonia, and New
Zealand. Current research efforts urgently seek to understand how environmental conditions may be
associated with stands of ohi'a impacted by ROD, with a focus on geology, soil types, climate, and
3
topography. Field plots and remote sensing are being used to determine how the disease progresses
in infected forests and spreads to new areas, providing information required for rapid response and
silvicultural recommendations for managing the disease. While many thousands of acres of higher el-
evation native forests in Hawai'i Island are relatively healthy, native forests growing below about 3,000
feet in elevation are often altered by a diversity of invasive plant species. In such areas, where ROD
has killed or is killing 'ohi'a overstory trees, non-native plants dominate the understory, reducing their
watershed, conservation and cultural value. For these systems, additional effort must be directed at
dealing with multiple threats.
Preliminary systemic fungistatic applications to Ceratocystis-infected 'ohi'a saplings in the greenhouse
show promise of preventing death from Ceratocystis. A fungistatic is distinct from a fungicide in that
an infected tree is not cured of the fungus, rather fungal growth is arrested. Development of such a
tool and its application will help private landowners who wish to maintain individual ohi'a trees on their
land, or for landowners who wish to maintain heritage 'ohi'a trees or 'ohi'a corridors. Fungistatics likely
will need to be reapplied to the same tree on a somewhat regular basis. Research is underway to un-
derstand how long a single application remains effective, and the opportunities and limitations of this
method. For other species and associated wilt diseases found elsewhere, a single application has been
shown prevent the advancement of disease symptoms for one to two years.
Metrosideros ('ohi'a) is a highly variable genus with eight named varieties of M. polymorpha and four
other species of Metrosideros found on the older islands of Hawai'i. Given this genetic diversity, re-
search is underway and will be expanded to determine whether or not disease resistance exists in wild
populations of 'ohi'a at genotype, population, and species levels. As a precautionary action, a state-
wide effort is underway to collect 'ohi'a seed from populations throughout the main Hawaiian Islands
to preserve 'ohi'a's wide genetic diversity.
Current status and future need of the response — In the past two years, the Hawai'i conserva-
tion community has made extensive progress in understanding and addressing the ROD crisis. A
multi-agency ROD Working Group ROD was established in 2015 to coordinate research, management,
and outreach. The ROD Working Group has facilitated many important advances with respect to ROD,
including: definitively identifying two species of Ceratocyctis as the cause of ROD; developing and
implementing aerial surveillance and ground-based ROD detection methods; careful mapping of the
current extent of ROD affected stands and isolated outbreaks; building a statewide ROD prevention
program that reaches many thousands of Hawaii's citizens every day; providing the science needed to
establish Hawai'i Department of Agriculture's quarantine rule restricting the movement of 'ohi'a ma-
terial and soil out of Hawai'i Island; and identifying the potential vectors that most likely cause spread
of the disease. Continued investments are required to prevent further spread of the disease across
Hawai'i Island and the state. Despite considerable progress in determining the identity, pathology,
distribution, and seriousness of this disease - information that forms the basis for this SRP- addition-
al research is necessary before a comprehensive strategic response plan focused on management
actions can be developed and implemented. This SRP focuses on knowledge gaps and laying the
foundation for an adaptable strategic response plan to address critical research needs and to provide
management recommendations that can be implemented immediately, or in the very near future. This
document provides the basis for enhanced partner coordination and collaboration in addressing this
ecological crisis, and for building a framework for effective ROD disease management and ecosystem
restoration.
4
DUAL ANU Mitt' I IV
The goal of this SRP is to provide a roadmap that conveys ' :. 4,004
the current situation and known needs for the next three :0.7""
-,, - .. ' r=
years for understanding, and where possible, addressing 44 .4 .r
ROD. This SRP presents seven strategic objectives in the areas , r'
of containment, early detection, rapid response, outreach, and *."
restoration:
Objective 1. To understand and share the biocultural
significance of 'ohi'a through this SRP; engage and learn '' "`
from diverse partners representing culturally based
ownerships in Hawaii; and embrace culturally-based
approaches for addressing ROD;
Objective 2. To develop a robust and efficient research plan Nearly a million acres of 'ohi'a
for addressing high priority questions regarding: 1) statewide provide habitat, shelter,
Ceratocystis genetics, etiology and epidemiology of and food for many species, in-
the disease; 2) the roles of people, insects, and wind cluding this endangered Hawaiian
as disease vectors; 3) detection of infected trees and tree snail on O'ahu which eats the
treatment of infected sites; and 4) opportunities for mold that grows on the leaves.
restoring impacted ecosystems; (Nate Yuen photo)
Objective 3. To create a sustainable, coordinated, and efficient
response to the disease that: 1) limits disease spread from affected districts of Hawai'i Island to
unaffected areas of Hawai'i Island and prevents spread to other islands through a coordinated
early detection and rapid response program; 2) develops robust containment and management
of both disease infestations as well as new occurrences in otherwise disease-free areas; 3)
deploys technologically advanced surveillance, monitoring, and early detection approaches;
4) monitors disease impacted areas, their long-term response to the pathogen, and projects
future impacts; and 5) develops restoration plans for the range of 'ohi'a forest types and
ownerships so that managers have access to next steps for addressing impacts of the disease;
Objective 4. To provide the science and recommendations for guidelines, best management
practices, or policies to manage disease spread over the long term;
Objective 5. To develop a public outreach and engagement strategy that best engages Hawai'i's
citizens and conservation organizations to address this disease;
Objective 6. To describe critical roles and responsibilities across agencies and organizations, including
how roles and responsibilities are to be coordinated today and into the future;
Objective 7. To provide a synthesis of proposed activities and actions, and a detailed and transparent
budget so the public, decision makers, agency leadership, and managers can clearly
understand what is required to address the ROD threat.
REQUIREMENT
2017 $120,000
2018 $120,000
2019 $120,000
CULTURAL SIGNIFICANCE AND ENGAGEMENT
Among the many plant and animal species native to Hawai'i, 'ohi'a holds tremendous cultural signif-
icance to native Hawaiians. This species is a foundation for nearly all aspects of native Hawaiian en-
gagement with the natural world. Through chant and story, native Hawaiians have maintained an enor-
mous repository of information on 'ohi'a, information that provides a clearly articulated understanding
of the many ecological, biogeochemical, and hydrological linkages that 'bhi'a provides to Hawai'i.
In contrast to Western knowledge systems, which have developed complementary understanding of
'ohi'a's many bio-physical roles and ecosystem services, native Hawaiian knowledge systems also inte-
grate understanding of 'ohi'a's many and complex social, psychological and spiritual linkages between
» person and species. A critical distinction between Western and
native Hawaiian perspectives is that 'ohi'a is embraced as a
•
.,e ` revered deity and respected family member, and this reverence
and respect forms the bonds of a sacred relationship between
'' 'ohi'a and the Hawaiian people. Native Hawaiian organizations
_ • and institutions that serve native Hawaiians own, manage, or
I otherwise interact with a very large fraction of Hawai'i's native
. ohi'a forest. Approximately 17% of all land on Hawai'i island
4 ;' -�' ,` falls under the responsibility of native Hawaiian serving orga-
nizations, including Bishop Estate's Kamehameha Schools, the
4 Department of Hawaiian Homelands, and the Office of Hawaiian
affairs: 297,000 acres, 116,963 acres and 25,856 acres, respec-
•
• tively. These organizations and institutions are increasingly ap-
• proaching management through the lens of sacred relationship
to place. Consequently, native Hawaiians and especially practi-
In the Hawaiian language there is tioner communities are deeply concerned about ROD impacts
an abundance of words to de- on 'ohi'a, the forests and biophysical linkages created by 'ohi'a,
scribe rain, many of which incor- and the sacred familial connections between people and 'bhi'a.
porate the word lehua, reflecting Adapting traditional practices of forest gathering and ceremo-
the strong cultural significance ny to the presence and management of ROD will require ROD
and connection between the managers and researchers to work conjointly with native Ha-
native Hawaiians and 'ohi'a. (Nat, waiian and local communities to develop culturally appropriate
Yuen photo) strategies and approaches.
The SRP recommends the creation of a cultural engagement team that is comprised of native Hawai-
ians, local residents, and forest gathering practitioners as well as members of the ROD working group,
to be charged with developing guiding protocols and cultural considerations for ROD management
and strategic planning. Integrating traditional ways of knowing is important because the success and
reach of ROD management activities is largely dependent on native Hawaiian and local community
investment in and approval of ROD management prescriptions.
Responding to environmental change is not new to Polyne-
sian and other island cultures. There is an important collective 104
history of experience embodied in ancient Hawaiian knowledge
and practices that can inform how we respond and address
ROD from both a cultural and ecological perspective. The SRP
recommends that Native Hawaiian organizations lead local and
native Hawaiian communities in a series of workshops designed
to explore the wealth of biocultural knowledge and practices
captured in oli (chants), mele (song), and mo'olelo (stories) and
how this knowledge may be used to nurture individual and
1111
collective responsibility to participate in and take responsibility
for managing ROD. Data collected from the workshops will be
synthesized and used to construct the scaffolding needed to t '
-10
forge a new Kanawai (law or ethic, but literally meaning water
and responsibility Hawaiians had for controlling and conserv- .
ing water). A Kanawai-based approach represents a culturally9.
appropriate response when there is a need to guide the be-
havior of people for the betterment of all. To this end, inclusive From early Hawai'i to the present
outreach and dialog will be initiated with native Hawaiian, local day, flowers, seed capsules and
communities, and government agencies statewide to reach con- liko (new leaves) have been used
sensus about the meaning, mechanics, and implications of the for lei. (J.B. Friday photo)
Kanawai for ROD. As a result of this work, this team will produce
a new Kanawai for ROD based on traditional, local, and scien-
tific knowledge. The Kanawai for ROD will help create a systemic sense of responsibility in our local
communities and government agencies to participate in managing and preventing ROD. The Kanawai
will be supported by a guiding framework document that details the cultural, scientific, and legislative
factors considered in the proposed Kanawai for ROD management.
To achieve this work, the Plan recommends funding for travel and staffing to engage and instruct ROD
Working Group partners in the research, response, and outreach aspects of the disease ($120,000
each year for three years).
REQUIREMENT
2017 $1.6 M
2018 $1.4 M
RESEARCH TO INFORM RESPOND 2019 $1.4 M
Research required to adequately manage ROD falls into five main categories: 1) understanding the ep-
idemiology and pathology of ROD; 2) determining modes of dispersal; 3) quantifying ROD impacts on
the forest; 4) mapping the extent and dynamics of ROD on Hawai'i Island; and 5) developing prescrip-
tions to treat disease impacted areas. Two collaborative ROD Working Group Teams have been meet-
ing on a regular basis to identify ROD science needs and to define a framework for making urgently
needed progress in these areas.
Detecting ROD and understanding its pathology—There is
an urgent need for information about the life history, pathology,
warhosts, and host range of Ceratocystis Species A and Species B,
Oka the genetic basis of Ceratocystis host plant specificity including
the mechanisms by which Ceratocystis overcomes host defens-
/s # es, and the genetics of host plant resistance. Further research
NIP
s ' * ", is needed to understand genetic versus environmental factors
* of ROD disease susceptibility and disease progression in wild
14' h populations of 'ohi'a. Finally, there is a critical need for rapid,
ir accurate, and reproducible methods for detecting and diagnos-
ing Ceratocystis Species A and B in samples of wood, water,
z soil, air, and insect frass, both in the field and laboratory. This
information will lead to 1) a better understanding of how plant
and pathogen genetics affect ROD pathology and virulence,
and how they interact with the environmental factors described
above; 2) precisely defined temperature ranges for Ceratocystis
pathogenicity and virulence; 3) information about Ceratocystis
The development of a molecular spore viability in 'ohi'a wood and in nursery seedlings under dif-
detection technique for Cerato- ferent environmental conditions to support effective quarantine
cystis Species A and B reduced actions; 4) information on how the pathogen enters into other-
sample testing time from two wise healthy trees; and 5) development of molecular based ap-
weeks to 24 hours. A rapid field proaches to detecting and confirming disease presence in the
test is currently being developed. field. Such diagnostic tests will be integral for epidemiological
(USDA ARS photo) studies, facilitating HDOA quarantine inspections, and early de-
tection and rapid response efforts. Fundamental epidemiology
research, including understanding genetic versus environmental factors of ROD disease susceptibility
and resistance, is needed for varieties of Metrosideros polymorpha. Personnel and resources required
for this work include three post-doc and two technician salaries, lab and greenhouse materials and
supplies, and growth chambers ($661,000 for 2017 and $520,000 each year for 2018 and 2019).
Understanding disease dispersal—There is an urgent need to understand how ROD is spread and
whether this information can be used to control disease transmission from ROD infected forests to
unaffected sites. This understanding is central to containing the disease and developing the most
effective rapid response protocols. To this end, research is needed to determine: 1) potential insect
vectors and the environmental factors correlated with their ecological activities, dispersal, and disease
transmission; 2) differences in dust and frass created by different species of wood boring beetles, in-
oculum production rates, and Ceratocystis presence across sites that may contribute to short and long
8
distance dispersal of fungal spores; 3) whether birds or other animals move infective spores; 4) wheth-
er cutting, covering, or chemically treating trees are effective means to reduce beetle colonization
of dead or dying trees and to reduce dust and frass production; 5) environmental factors that affect
dispersal by wind and water; 6) what the relative risks of human-caused spread are (e.g., hiking, off-
road vehicles, etc.); 7) whether fencing and ungulate removal or other forest conservation measures
result in reduced numbers of ROD infected trees; and 8) what type of monitoring approaches are best
to evaluate the effectiveness of ROD containment actions. Personnel and resources required for this
research include: salaries for senior researcher, graduate student, two field and two lab technicians,
equipment and supplies ($370,000 each year for 2017, 2018, and 2019).
Understanding the impact of ROD on 'ohi'a forests—There is a critical need to understand how
ROD affects the structure and composition of 'ohi'a forests, determine ROD related rates of mortality
in various forested areas, document what happens to these ROD affected forests over time, and proj-
ect the impact of ROD to 'bhi'a at larger scales. A network of ROD research plots has been established
in the past two years and is being expanded to encompass the range of ROD impacted 'bhi'a forest
types across Hawai'i Island. These plots are sampled regularly to quantify extent and patterns of ROD
mortality, determine whether Ceratocystis Species A and/or B are responsible for tree mortality; iden-
tify physical (e.g., lava substrate and age, climate), biological (e.g., forest size, age and composition),
and hydrological (e.g., drainage, water holding capacity) factors that may affect disease distribution,
and determine post-ROD forest succession across varied landscapes. Annual re-measurement of these
plots and variables provides fine scale understanding of 'ohi'a mortality, information for developing
treatment and restoration actions, and field based data to inform aerial surveys and remote sensing
based modeling. The personnel and resources required include two technicians ($120,000 each year
for 2017, 2018, and 2019).
tsc....,
.t .- S 1
tr.
Beetles like this ambrosia beetle (Xyleborus saxesenii) have been found boring into sick and
dead 'ohi`a, producing sawdust (frass) that is contaminated with Ceratocystis spores. Research is
progressing on the role of insects and wind in the spread of the disease. (Curtis Ewing photo)
I 9
arr11111rr• arr'
Spatial dynamics of the threat—There is a continued need for information about where ROD occurs,
where it is spreading, and why some 'ohi'a stands appear to be impacted more than others. Significant
investment has already been made into ROD detection capability through remotely operated vehicles,
plane and helicopter-based surveys to map and monitor ROD impacted areas. (The aerial detection
surveys described in the Response section will be closely coordinated with this work.) This approach
integrates several technologies and uses new imaging methods to precisely map and monitor how
tree-by-tree 'ohi'a condition is changing over time on Hawai'i Island. Remote sensing results will drive
spatial analyses that model patterns of ROD mortality, helping understand how environmental factors
such as temperature, rainfall, and soils affect the distribution, spread, and virulence of ROD. This will
support efforts to target the most vulnerable habitat types across Hawai'i for protection. Given the
rapid spread of the disease, annual re-mapping of Hawai'i Island is critical for informing rapid response
and containment efforts. Personnel and resources required for this work include remote sensing flights,
a post-doc, and partial support for technicians and geospatial analysts ($425,000 each year for 2017,
2018, and 2019).
Restoring ROD-impacted forests -There will be a critical need to develop condition specific and
cost-effective strategies for restoring ROD impacted forests, and to create tools to support decision
makers and managers in their efforts to prioritize ROD treatment and restoration projects on the
landscape. Forests of 'ohi'a naturally occur across enormous gradients in climate and soils and are
associated with diverse species assemblages. Additional variation is driven by diverse ownerships on
which 'ohi'a occurs. ROD is already affecting 'ohi'a across widely ranging sites—from young lava flows
in warm and wet areas of Puna to older lava flows in cooler and drier areas of Ka'u to older well devel-
oped soils in cooler and wetter areas of North Hilo. Restoration actions and decision support for ROD
containment and post-containment
management restoration need to
be developed that are specific to 41
site climate and soils, existing and , '0 , '
nearby assemblages of native and • r"# `y;' + ''� ! "*►
non-native species, land ownership .; 0*
and landowner objectives, cultural +` .r �` "fir , Q::. , ' a 1 . w .111.
considerations, access to planting , *or
p
materials, funding sources, prox-
imity to weed species, extent of
mortality caused by ROD to 'ohi'a,
and other ecological and social
considerations. Because even a 11[r
greatly expanded investment into C iRNEGIE
restoration is unlikely to match
what is already an enormous need,
implementation of restoration ac- By conducting test flights with the Carnegie Airborne
tions must be highly cost-effective Observatory in 2016, aerial surveys measured and mapped
and strategic. These activities will biologically important chemicals in forest canopies in three
be on-going and carried out with dimensions, with the goal of developing ROD detection ca-
existing staff and agency programs pability to track and study the spread of ROD for patterns,
until a more structured and informed and possibly detect it earlier than by other means. (Carne-
restoration plan is developed. gie Airborne Observatory image)
10
REQUIREMENT
2017 $1.3 M
, . .. , .,@,, .w . ,„ 2018 $1 M
2019 $1 M
RESPONSE TO THREAT
This Plan outlines five critical components to a comprehensive ROD response: (1) Actions required to
limit spread; (2) early detection surveillance for disease outbreaks; (3) rapid response to new outbreaks;
(4) containment actions required to control the disease; and (5) restoration of ROD-impacted forest
areas.
Preventing the spread of ROD—The spread of this disease occurs in several ways: through people
moving infected material, and by environmental means such as insects, or by wind and water trans-
port. Research is underway to understand whether and how insects and wind spread the disease.
Therefore, this section emphasizes the need to better understand and prevent movement of disease
inoculum by people. Ceratocystis spp. are known to be spread via movement of infected agricultur-
al products and plant materials, and sometimes the type of infected plant material is not related to
what it infects once moved. The pathway for introduction is also covered under the Research section,
and preventing additional strains of Ceratocystis from coming into Hawai'i is a high priority. Once
likely plant vectors are identified, restricting their importation is recommended. The public plays an
essential role in limiting the further spread of ROD within Hawai'i Island and preventing movement
of the disease to other Hawaiian • ter
Islands, but effective engagement *4. * '`
will require enhanced coordination
among ROD partners, local organi _ ryA ' I
zations, businesses and communi '� • ,�"`" ' � v.:. .0.
ties. In response to current science a
information and strong community tioNow
support, HDOA moved quickly to
enact interim rules to restrict the
movement of this disease from Ha-
wai'i Island to other islands in 2015,
and rulemaking is nearly complete r c'•' •
to make the ruleermanent. This
p r'will result in a permanent rule to
prohibit, except by permit, the
export of all Metrosideros species Hawaii Department of Agriculture continues to work close-
plants, plant parts, wood, and soil ly with the ROD researchers to identify and test effective
from Hawai'i Island. If Ceratocystis quarantine treatments that would be used to create permit
Species A or B is detected on other conditions for safe movement of regulated products like
islands in the State, it is strongly wood and soil from Hawaii Island. (HDOA photo)
urged that the quarantine be ex-
panded to protect the other islands. During the year-long interim 'ohi'a quarantine rule, multiple ship-
ments of infected material were intercepted and prevented from leaving Hawai'i Island — shipments
that would have introduced the disease to other Hawaiian Islands had they been allowed to reach their
respective destinations. The new Interagency Biosecurity Plan reflects the needs for interisland bios-
ecurity work, including inspection work related to ROD. Notably, before the HDOA quarantine rule
was in place, the locally-owned shipping company Young Brothers, Inc. voluntarily halted transport of
11
W
all 'ohi'a material out of Hawai'i Island. In contrast, no restrictions exist regarding movement of 'ohi'a
within Hawai'i Island, and so prevention efforts on Hawai'i Island rely entirely on large-scale public
awareness and voluntary compliance.
To continue limiting the spread of ROD, this SRP recommends a greatly expanded public outreach
efforts statewide, with details being covered in the following Outreach and Engagement section, and
expanded funding via the Interagency Biosecurity Plan to support: 1) HDOA-Plant Quarantine inspec-
tion personnel and equipment; 2) pre-screening of plant materials imported into Hawai'i to prevent
additional strains or species of Ceratocystis from entering Hawai'i, while also carefully monitoring plant
material and media/soils being exported from Hawai'i Island; 3) construction of additional decontam-
ination stations on Hawai'i Island in 2017, with annual maintenance support ($250,000 in 2017 and
$50,000 each in 2018 and 2019). A discovery of ROD elsewhere in the state besides Hawai'i Island
would change projected costs.
Surveillance, monitoring, and early detec-
tion —The distribution of ROD impacted for „�f
ests is currently restricted to the southern dis-
tricts of Puna, Hilo, Kau, and Kona on Hawai'i -�4�
Island. Effective disease management, partic-
ularly rapid response, requires early detection
of ROD infected trees in otherwise uninfected
areas. This calls for timely access to accurate
and up-to-date information regarding the '' • -
location of newly symptomatic trees that can
only be achieved through regular surveys and .
prompt sampling of suspect trees. Therefore,
this SRP recommends: continued mapping of t
outbreaks and tracking disease movement via
aerial surveys; conducting follow-up ground
surveys to verify ROD presence; responding Aerial surveys are being conducted on each island
to citizen reports of disease to strengthen via helicopter. Dead 'ohi'a like this one on Maui are
early detection in urban and residential areas; mapped and a ground crew hikes in to take sam-
and structured sharing of data to coordinate pies. To date, none of the trees sampled outside of
monitoring and distribution of information. Hawaii Island have been positive for Ceratocystis
Aerial surveys using the Digital Mobile Sketch Species A or B. (DLNR DOFAW photo)
Mapping (DMSM) platform from helicopters
is ideally suited to early ROD detection, especially in very remote areas, and should continue on a
quarterly schedule for the northern portion of Hawai'i Island and twice per year statewide. Follow-up
ground sampling of suspicious trees is required to identify and contain ROD occurrences. This SRP also
recommends three detection and diagnostic investments: 1) a laboratory (or additional support for an
existing laboratory) to help with ROD detection and identification work by processing and storing ROD
infected samples and associated records while identifying new non-native pathogens; 2) production
of field kits to test for the presence of the pathogen causing ROD in real-time, thereby reducing time
between ROD detection and containment, and saving travel and labor costs; and 3) exploration of
feasibility of a canine detector program.
These investments will allow for early detection of and rapid response to new ROD outbreaks; provide
up-to-date maps of disease distribution and progression; and inform management decisions. The per-
sonnel and resources required for this work include additional funding for aerial surveys, ground crews,
laboratory support, and data management ($525,000 each year for 2017, 2018, and 2010).
Rapid response to isolated ROD outbreaks —Aggressively treating localized ROD outbreaks in
otherwise healthy forests is strongly recommended. Containment of fungal pathogens capable of
being spread by wind, insect, and other vectors is difficult at best. However, careful and thorough
implementation of sanitation practices, successfully implemented elsewhere in world, will help prevent
the spread of ROD. Complete eradication of Ceratocystis from even limited areas on Hawai'i Island is
unlikely, but new ROD outbreaks may be effectively neutralized if detected and treated quickly and ag-
gressively. Current ROD rapid response concepts are based on knowledge of Ceratocystis biology and
rapid response work with other plant species and fungal diseases where the use of sanitation practices
have proven effective in managing local epidemics. This SRP proposes that best management practic-
es for ROD rapid response need to be implemented, monitored, assessed, and when needed, refined
— all with the goal arresting ROD spread into uninfected areas. To achieve containment of the disease,
ROD outbreaks must be neutralized in the very earliest stages of infestation. Given the current distri-
bution of ROD impacted forests, the urgency of implementing rapid response cannot be overstated.
The Early Detection and Rapid Response (EDRR) Team of the
ROD Working Group provides a strong starting point for un-
derstanding requirements to implement, assess, and refine
methods that promptly identify and control ROD outbreaks
in the early stages of infestation. An EDRR Advisory Team is
being formed to serve this role on Hawai'i Island, and will serve
as a model for establishing similar teams on each of the main
islands. High value 'ohi'a forests of north Hawai'i Island and
neighbor islands will be the focus of EDRR efforts. Currently,
best management practices are being developed, and so in the t,
early stages of EDRR, the most conservative removal strategies " * ,{ r
will be deployed until it is clear less stringent methods can be
substituted.
Using best management practices, EDRR teams will quickly
respond to and attempt to contain incipient ROD outbreaks
before they become strongly established. Combined with follow
up monitoring, these efforts will provide critical information for
adapting methods and preventing the spread of ROD to north The scattered nature of infected
Hawai'i and neighbor islands. The personnel and resources trees and the wide extent of ROD
required for this work include additional funding for aerial sur- on Hawai'i Island makes aerial sur-
veys, ground crews, and data management. Funds for this work veys and new mapping technol-
are being provided by the DOI Service First grant, with some ogies important tools. (Carnegie
functions and costs shared from Surveillance and Containment Airborne Institute photo)
budgets.
13
Containment of ROD-infected areas — ROD containment must
happen at two scales. On a broad scale, the primary goal is to
prevent ROD from moving into the northern districts of Hawai'i
Island by containing ROD to Hawai'i Island's southern districts.
On a finer scale, new ROD occurrences outside of currently
impacted zones need to be contained and neutralized. Tools to
completely eradicate the ROD fungus across the landscape are
not available. Thus, it is important to develop and deploy meth- ,; +►if ;SO
ods to control initial outbreaks outside of heavily affected areas.
Although methods have not yet been thoroughly evaluated, _
forest managers need to proceed with containment practices ��w►
based on the best available science, anticipating that practices ='lA►
may need to be adjusted in light of new information about the
disease and its spread.
The objective of containment treatments is to interrupt the ` - .. A.
disease-insect cycle and limit the amount of inoculum (fungal
spores) being released into the environment. Before any man- _ N
agement is carried out, sites should be selected based on: how
recently mortality has occurred; location with respect to wind
exposure; proximity to healthy forests and direction of prevail- The species name for `ohi'a is
ing winds; and levels of insect activity. Samples also need to be "polymorpha", meaning "many
taken to ensure presence of the ROD pathogen. Site character- forms", lending hope that there
istics may require adjustments to treatment protocols. Based on may be varieties of that are
this site assessment, a treatment plan with control prescriptions resistant to infection or that may
should be developed, and may include: felling of large dead survive infection by Ceratocystis.
trees that attract beetles and are exposed to winds; suppression These 'ohi`a seedlings are Metros-
of beetles boring in diseased wood, perhaps using physical ideros polymorpha var. glaberrima
(covering), chemical (pest management) and/or biological (de- from the Waianae Mountains on
cay fungus additions) approaches. Sanitation protocols should O'ahu (Marian Chau photo)
be strictly followed, and tree felling should occur on moist,
low-wind days taking care to avoid wounding healthy trees which could lead to disease infection. Sites
managed with the goal of controlling ROD spread from a newly affected site need to be monitored
to determine whether operations are effective. Monitoring should include: sampling for beetle bor-
ing activity and resultant insect frass production; mapping disease spread over time through remote
sensing; and follow-up, on-site inspections for tree mortality that may require additional felling. Addi-
tional information requirements (see Research section) include understanding effective ways to detect
the pathogen in living trees; knowledge of how long spores stay viable in dead trees and how long the
trees remain suitable for beetle activity; ability to detect meaningful levels of inoculum in the environ-
ment; understanding how and where insect frass is dispersed; and determining the role of insects in
directly moving the disease from tree to tree. Personnel and resources required for this work include
additional for ground crews, vehicle, helicopter transport, supplies and decontamination stations
($358,000 in 2017, and $290,000 in each 2018 and 2019).
14
Restoration of ROD-impacted areas —As with management of any threat, impact prevention is a
much more cost-effective strategy than the restoration of already impacted areas. This SRP recognizes
the need to prioritize rapid response and containment over less urgent activities. However, the current
and projected loss of 'ohi'a is significant and has resounding impacts that must be also be addressed.
It is not yet known if there are varieties of 'ohi'a that are resis-
ly, tant to ROD. Although work is underway to identify resistance
within 'ohi'a, restoration actions in the three-year window of this4. SRP should rely on replanting ROD impacted areas with plants
-.,• ` . other than 'ohi'a. This SRP recommends a geospatial-approach
'�17.t combined with best available knowledge to develop preliminary
•� ry restoration strategies that are specific to a given site and reflect
"..N.; consideration including: vegetation composition of the remain-
.14,- lw ,,. ing stand; desired future condition; habitat and wildlife con-
' --• "' ` ' siderations; adjacency of problematic non-native or desirable
native species; landowner/manager support and participation;
'Ohi'a growing near Halema'uma'u cost of proposed actions, and other considerations. Currently,
Crater in the Ka'u Desert, where sources of native species for out planting are limited, and so
wind, sulfur dioxide gas, and lack part of the landscape restoration solution will need to include
of water and soil are a testament an expansion of nursery capacity. For some ownerships, non-na-
to the resilience of Metrosideros tive species solutions may be selected to restore forest cover
polymorpha. (Nate Yuen photo) and keep out invasive species.
An important tool in preventing the extinction of threatened flora is the gathering and storage of seeds
as a "genetic safety net." This approach is commonly referred to as seed banking, and is especially
important when the source of the threat is poorly understood or cannot yet be mitigated, as is the case
with ROD. Lyon Arboretum has taken the lead in raising funds via a crowdsourcing campaign called
'Ohi'a Love, and has begun collecting and storing a number of 'ohi'a seeds in their Hawaiian Rare Plant
Program Seed Conservation Laboratory. These seeds will provide an important tool for preserving
genetic diversity of 'ohi'a, and will also enable researchers to test the many varieties for resistance to the
ROD pathogen. Expansion of a native Hawaiian seed saving network to each county with other Univer-
sity or conservation institutions could also ensure the long-term protection and availability of seeds for
restoration work. The personnel and resources required for this work include one restoration specialist
and seed banking personnel, supplies, and travel ($150,000 for each year, 2017, 2018, and 2019).
REQUIREMENT
2017 $586,000
2018 $540,000
PUBLIC OUTREACH AND ENGAGEMENT 2019 $540,000
A tremendous amount of public outreach has been done since the cause of ROD was identified. An ad
hoc team of outreach staff from agencies and NGOs assisted the one full-time ROD extension staff to
craft public messages to reduce the chances of the public spreading the ROD pathogens. Radio and
television public service announcements, print materials, and articles were deployed, as well as work-
shops and outreach talks with communities. Media campaigns provided guidance and encouragement
to forest users to decontaminate footwear, equipment, and vehicles, and signage with decontamina-
tion stations were installed at select public trailheads. More than 60 ROD information sessions and
workshops, landowner visits, and school presentations have been held on Hawai'i Island, and dozens
more have been held on other islands. Central to this effort has been the creation and maintenance
of a central website where current information is posted, with status updates on research and how the
public can help. The group also maintains a Facebook page to engage and update via social media.
It is now clear that the science and management tools in existence today cannot achieve the eradica-
tion of ROD from Hawai'i. Further, early projections of the potential loss of 'ohi'a from infection and
mortality rates in monitoring plots are sobering. To succeed in limiting the spread of ROD through
the movement of infected materials, and to continue to engage the public in positive action in light of
this information, greatly expanded efforts are required. In particular, efforts to educate key audiences
about decontamination and the importance of not moving 'ohi'a material needs to be expanded. One
of the main organizational goals for the Outreach Team is to transition the ad hoc Team to add capac-
ity and structure to better reach the many audiences statewide. This SRP proposes funding five full-
time staff to aid in all ROD related edu-
cation and outreach activities statewide.
Such an investment into each island will
greatly expand public engagement in
the prevention of ROD spread.
A second goal is to activate and em-
power people to prevent the spread of ' . F a p�
ROD and protect remaining 'ohi'a habi
tat. While the situation is serious, public k •"n�
outreach and engagement must focus
on messages that highlight what can be ,,, •
done to help our forests. Similar cam- t r ,4"
paigns have shown that the best way we r , 'tt
can engage the necessary level of aware-
ness and participation statewide, and "; s 11116.
move the public from emergency compli-
ance to internalizing awareness and be- Outreach and engagement has played a significant role
havior change, is to engage a wide variety in raising public awareness and support, limiting the
of community leaders on each island to spread of ROD even before the interim rule limiting
help amplify the messages and diversify movement of 'ohi'a from Hawaii Island, and in the ab-
the message delivery mechanisms. Peo- sence of on-island rules limiting movement of materials
ple must take the issue to heart, become containing the pathogen. (ROD Outreach Team photo)
16
personally invested, and outreach must involve more leaders in
the work of protecting and perpetuating healthy and resilientY de.
'ohi'a forests.
The third goal is to ensure that outreach co-evolves with sci-
ence. Knowledge about these newly-identified pathogens and
their impacts is increasing every week, requiring a carefully
coordinated statewide outreach program. Outreach should t •
increase the percentage of the public who understand ROD and
its impacts, and how they can help with prevention, mitigation,
and eventually, with some form of forest restoration. Outreach
must also be clear about the evolving nature of scientific re-
search, provide timely updates to keep the public informed
and communicate when new evidence requires a change in
prevention methods. The objectives to reach these goals are as
follows: .-
• New, full-time ROD outreach positions in each county . :''
• Public awareness surveys and attitude assessments• Outreach materials and media production and distribu- 4%44,
4,
tion
• Formation of new partnerships for wide-scale community
engagement
• Development of curricula for schools and programs ,},yency and private funds are
• Hosting or participating in educational community being used to produce and install
events signage and cleaning stations at
priority trailheads (Anya Tagawa
The majority of the work and materials to-date have been via photo)
in-kind support from agencies and NGOs, while a portion has
been supported through grants. The critical need to support this work in 2017 is $120,000 per island,
which reflects a single FTE for outreach and engagement, materials, supplies, and a small number
of trail signage and decontamination stations. The total need to accomplish all of the recommended
actions statewide is $586,000 in 2017, and $540,000 each year in 2018 and 2019.
17
REQUIREMENT
2017 $90,000
2018 $90,000
COORDINATION AND DEFINING ROLES 2019 $90,000
Tremendous progress has been made in identifying and understanding ROD, and in preventing its
statewide spread. From the professionalism, dedication, and talent of the three original researchers,
Drs. Lisa Keith, Flint Hughes, and J.B. Friday, this response now consists of more than 200 individuals
from agencies, institutions, and non-government organizations (NGOs) in Hawai'i, the continental U.S.,
and internationally. Many of these individuals are contributing time, expertise, and resources to the
ROD effort. The work to-date has been coordinated and communicated through the ROD Working
Group, which is led by Dr. Ric Lopez of the USFS Institute of Pacific Islands Forestry. Monthly meet-
ings/conference calls allow an opportunity for participants to provide or receive updates on research,
management, and outreach. The purpose of the ROD Working Group is to facilitate inclusive ongoing
discussions and communication of all issues related to ROD, and share knowledge on a regular ba-
sis among group members, their organizations, and has resulted in the formation of targeted teams
addressing specific needs: the Early Detection and Rapid Response Team; the Outreach Team; the
Science Team; the Operational Management Response Team; and the Strategic Response Plan Team,
which has produced this document, in addition to the allied Maui ROD Working Group, and the Seed
Saving Team. This SRP recommends continuing the subject-matter Teams approach and continued
monthly meetings of the ROD Working Group as efficient approaches to disseminating new informa-
tion and receiving important updates from the broad range of participants engaging the many facets
of the ROD problem.
There has been outstanding cooperation and contribution of resources and staff from a wide variety
of government agencies, non-profits, community groups, private foundations, and industry, and it
has worked remarkably well thus-far. However, there is no clearly defined and transparent process for
decision making, nor is there a formal decision-making body or structure for such a large and ongo-
ing response. Organized and multi-pronged fundraising, grants management, resource and needs
tracking, resource allocation decisions for critical needs, and reporting are all necessary functions that
should be conducted in a more organized and transparent way. Therefore, the SRP also recommends
that the ROD Working Group facilitate a transition from the current emergency response framework to
a formalized strategic response framework, through the selection of a committee and decision-making
structure which would serve these needs in a more sustainable and transparent manner. In addition
to this coordinating team, which are proposed to be some of the individuals participating in the ROD
response, this SRP recommends that a full-time staff position be created to administer the range of ac-
tivities required to combat ROD, including the coordination of the transition from emergency response
to strategic response.
This coordinating team and ROD response administrator would continue to work closely with the ROD
Working Group, resource management and regulatory agencies, and the invasive species community
including the Hawai'i Invasive Species Council, the Invasive Species Committees, Watershed Partner-
ships, and others. Resources to establish a coordinating body with one staff is $90,000 for each year,
2017, 2018, and 2019.
18
-�.«•.,n,xw,u..,,.._ .mak... ., _ ..
RAPID 'OHM DEATH STRATEGIC RESPONSE BUDGET
Resource needs for Cultural En'a a ement
Item lc. sone
" lo •18 0 ' ptal for 3 rs
1 Hawaiian cultural specialist $100,000 $100,000 $100,000 $300,000
_2 Operational budget for workshops,travel $20,000 $20,000 $20,000 $60,000
Cultural Engagement Subtotal $120,000 $120,000 $120,000 $360,000
Resource needs for Research
Item Personel/item Total for' r
3 Forest pathologist post-doc $100,000 $100,000 $100,000 $300,000
4 Molecular biology post-doc $100,000 $100,000 $100,000 $300,000
5 Molecular biology technician $60,000 $60,000 $60,000 $180,000
6 Pathology post-doc $100,000 $100,000 $100,000 $300,000
7 Pathology technician $60,000 $60,000 $60,000 $180,000
8 Pathology supplies&equipment(growth chambers,vehicles) $241,000 $100,000 $100,000 $441,000
9 Entomology post-doc $100,000 $100,000 $100,000 $300,000
10 Field technicians(2 FTEs) $120,000 $120,000 $120,000 $360,000
11 Laboratory technicians(2 FTEs) $120,000 $120,000 $120,000 $360,000
12 Field and lab supplies&equipment $30,000 $30,000 $30,000 $90,000
13 Forest ecology technicians(2 FTEs) $120,000 $120,000 $120,000 $360,000
14 Remote-sensing flights $250,000 $250,000 $250,000 $750,000
15 Remote-sensing_post-doc $100,000 $100,000 $100,000 $300,000
16 Remote-sensing technicians(2 partial FTEs) $75,000 $75,000 $75,000 $225,000
Research Subtotal $1,576,000 $1,435,000 $1,435,000 $4,446,000
Resource needs for Res s onse to Threat
Item Personnel/item v-2017
17 Decontamination stations for vehicles/heavy equip. $250,000 $50,000 $50,000 $350,000
18 Aerial and survey work (helicopter,plane,and ground) $120,000 $120,000 $120,000 $360,000
19 _Statewide survey crew(4 FTEs) $255,000 $255,000 $255,000 $765,000
20 GIS/Data manager(1 FTE) $100,000 $100,000 $100,000 $300,000
21 Survey equipment and supplies $50,000 $50,000 $50,000 $150,000
22 Control ground crew(3 FTEs) $190,000 $190,000 $190,000 $570,000
23 Equipment,supplies,contractor for operations,vehicle,etc. $168,000 $100,000 $100,000 $368,000
24 Seed banking and restoration planner $150,000 $150,000 $150,000 $450,000
Response Subtotal $1,283,000 $1,015,000 $1,015,000 $3,313,000
Resource needs for Outreach and En a a.ement
Item Personnel/item 2018 ` 019 -; Total f, - -
25 Outreach/Education personnel(5 FTEs) $450,000 $450,000 $450,000 $1,350,000
26 Outreach materials,signage,media,etc. $136,000 $90,000 $90,000 $316,000
Outreach Subtotal $586,000 $540,000 $540,000 $1,666,000
Resource needs for Res.onse Coordination
Item Personnel/item2017 2018 2019 Total for 3 rs
27 Coordinating group staff(1 FTE,travel,operating costs etc.) y $90,000 $90,000 $90,000 $270,000
Grand Total $3,655,000 $3,200,000 $3,200,000 $10,055,000
r
RAPID `OHI`A DEATH
PART II: OPERATIONAL RESPONSE PLANS
FOR 2017-2019
This Strategic Response Plan provides the framework for moving forward, but it does not provide de-
tails on operational logistics. These Operational Response Plans are being developed, with the Hawai'i
Island ROD Incident Response Plan as an example. This Strategic Response Plan, a more comprehen-
sive Guidance Document on Rapid 'Ghia Death, and the Operational Response Plans will be posted at
www.RapidOhiaDeath.org as they are developed.
ACKNOWLEDGMENTS
Mahalo to the following agencies, institutions, and organizations for supporting the ROD response
through funding or contribution of staff time, resources, or in-kind support:
2016 Hawai'i State Legislature Office of Hawaiian Affairs
Carnegie Airborne Institute Representative Tulsi Gabbard & staff
Coordinating Group on Alien Pest Species Senator Brian Schatz & staff
(project of UH PCSU) Senator Mazie Hirono & staff
County of Hawai'i The Invasive Species Committees of Hawai'i
Department of Land and Natural Resources (projects of UH PCSU)
Department of the Interior The Nature Conservancy of Hawai'i
Dorrance Family Foundation The Watershed Partnerships
Hau'oli Mau Loa Foundation U.S. Fish & Wildlife Service
Hawai'i Conservation Alliance U.S. Geological Survey
Hawai'i Department of Agriculture UH College of Tropical Agriculture and Human
Hawai'i Invasive Species Council Resources
Kanaka'ole family & Foundation UH Lyon Arboretum
Koaniani Fund of the Hawai'i Community UH Pacific Cooperative Studies Unit
Foundation University of Hawai'i Foundation
Marisla Foundation USDA Agricultural Research Service
Merrie Monarch Festival USDA Forest Service
Gordon and Betty Moore Foundation And contributions of funding, expertise, or talent
National Park Service-Hawai'i Volcanoes by many, many individuals—mahalo nui loa!
National Park