Horticultural Research Institute Launches New Initiative to Fight Phytophthora Austrocedri


A dying juniper infected with Phytophthora Austrocedri, being researched by the Horticultural Research Institute (HRI)

A dying juniper infected with Phytophthora Austrocedri | Crown Copyright, Forestry Research, U.K.

The Horticultural Research Institute (HRI) has announced that, in response to the recent discovery of Phytophthora austrocedri, nearly $250,000 in federal funds have been shifted to address the urgent research needs of the horticultural community.

The funds, provided through USDA Agricultural Research Service’s (ARS) Floriculture and Nursery Research Initiative (FNRI), will be used to study and manage this emerging threat to the horticulture industry. The research represents a concerted effort to safeguard valuable plant species at risk from this destructive pathogen, particularly those in the Cupressaceae family, which includes economically and ecologically important plants like cypress, arborvitae, juniper, and cedar. USDA partners involved in the process include Drs. Tim Rinehart, Jerry Weiland, Nik Grunwald, and Oregon State University partners Drs. Alan Peper and Mana Ohkura, who worked quickly to reprioritize FNRI research objectives toward this emerging issue.

Phytophthora austrocedri is a water mold that causes severe disease in woody plants, primarily affecting the roots and collar area, which leads to the decline and death of the infected plants. The pathogen is part of the broader phytophthora genus, a notorious group that includes species responsible for diseases such as sudden oak death and potato late blight. First detected in Argentine Patagonia, where it was linked to widespread dieback of the native Austrocedrus chilensis trees, Phytophthora austrocedri has since emerged as a growing concern in other parts of the world, including the U.S., where it has been detected in two Oregon nurseries.

The pathogen’s ability to survive in soil and to move with irrigation water makes it highly adaptable and difficult to control, posing a significant threat to horticultural operations, particularly nurseries, and landscapes that rely on susceptible plant species.

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A juniper displaying bark symptoms of infected Phytophthora Austrocedri pathogen, studied by the Horticultural Research Institute (HRI)

The bark of a juniper infected with Phytophthora Austrocedri | Crown Copyright, Forestry Research, U.K.

The plants most at risk from Phytophthora austrocedri are members of the Cupressaceae family, including popular ornamental species such as Leyland cypress and Chinese juniper. Cultivars of both species are widely used in landscaping and nursery production across the U.S. due to their aesthetic appeal, drought tolerance, and ability to provide windbreaks and privacy screens. The spread of Phytophthora austrocedri could have severe economic consequences, especially for the nursery industry, which relies on the production and sale of these plants. Additionally, this pathogen poses a risk to natural ecosystems, where native species could also be impacted, leading to broader environmental consequences.

The funding will enable researchers to explore several key aspects of this pathogen, including its biology, modes of transmission, environmental factors that contribute to its spread, and potential methods for controlling or mitigating its effects. Developing an understanding of the disease’s epidemiology will be critical for implementing effective management strategies, both in nurseries and in the broader landscape. As part of this effort, HRI is collaborating with leading plant pathologists, nursery operators, and landscape professionals to ensure that research results can be quickly translated into practical recommendations for the industry.

One of the primary objectives of this research is to develop best management practices (BMPs) for nurseries and landscapers to prevent the spread of Phytophthora austrocedri. BMPs will include guidelines for irrigation management, sanitation practices, and the use of fungicides or other chemical treatments that have proven effective in managing related phytophthora species. Given the pathogen’s ability to spread through contaminated soil and water, nurseries may need to adopt stricter protocols to prevent the unintentional movement of the pathogen via plant material, tools, or irrigation water. The research will also address how the pathogen responds to environmental conditions in the Pacific Northwest, which are characterized by cool, wet winters and warm, dry summers.

Additionally, further research is needed to explore whether certain cultivars or species within the Cupressaceae family exhibit greater resistance to the disease, which could inform future breeding programs.

This research will also involve exploring potential chemical controls that can be safely and effectively used to manage the pathogen in both nursery and landscape settings. While fungicides can sometimes provide temporary protection, the goal is to develop integrated pest management (IPM) strategies that rely not only on chemical control but also on cultural practices that reduce the risk of disease introduction and spread. The possibility of biological controls, such as natural predators or antagonistic organisms that can suppress the pathogen, will also be explored.

The collaboration between HRI and USDA, and the ability to direct funding where it is most urgently needed, underscores HRI’s commitment to addressing emergent threats within the industry and ensuring that growers, landscapers, and plant health professionals have the tools they need to protect plants from serious diseases like Phytophthora austrocedri.

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