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Arborvitae Needle Blight

Severe case of arborvitae needle blight in a row of Emerald Green arborvitae (Thuja occidentalis 'Smargd'). Photo by Becky Wilson.
Needle tip dieback is a common symptom of arborvitae needle blight.
Range of arborvitae needle blight symptoms on western red-cedar (Thuja plicata).
Brown, desiccated needles of a Green Giant arborvitae (Thuja plicata x standishii) due to arborvitae needle blight.
Spore-bearing structures (pycnidia) produced by Phyllosticta on infected arborvitae needles.
Asexual spores (conidia) produced by Phyllosticta on arborvitae (Thuja).
Black, tendril-like spore masses produced by Pestalotiopisis on infected arborvitae needles.

Pathogens

Arborvitae needle blight is caused by the fungal pathogens Pestalotiopsis and Phyllosticta.  

Hosts

Arborvitae (Thuja spp.) are planted widely throughout the region by green industry professionals and homeowners as a landscape ornamental. Established in rows, arborvitae provides dense screening for privacy and border delineation. When planted as a specimen tree, they can be a focal point or complementary componment in any landscape. Due to their ubiquity on the landscape, arborvitae is often maligned as an unremarkable plant. Poor quality nursery stock, bad planting techniques and aggressive pruning are an unfortunate consequence of their popularity, but this is true for any oft-planted landscape ornamental (e.g. boxwood).

In southern New England, use of the common names arborvitae and cedar often refer to species of Thuja. However,Thuja are not true cedars (those belong to genus Cedrus). In the northeast, the most common species of arborvitae in commercial and residential use is northern white-cedar (Thuja occidentalis). Two cultivars in particular are especially popular: ‘Nigra’ (Dark American) for its fast growth and dark green color that persists through the winter months and ‘Smargd’ (Emerald Green) for its tight, columnar habit that creates a dense screen. Additionallly, there are many other cultivars of T. occidentalis that offer unique and distinctive growth habits. Western red-cedar (T. plicata) and the hybrid Green Giant arborvitae (T. plicata × standishii) are less common but have become increasingly popular in recent years. The native Atlantic white-cedar (Chamaecyparis thyoides) is not routinely planted because of its need for wet soils as an obligate wetland species. 

One reason why species of Thuja are so popular in commercial horticulture is their resistance to insect and disease problems. Thuja species allocate significant resources to defense, and as a result, these trees can live for hundreds of years in their natural settings. The wood is very decay-resistant and is prized for building materials that are subjected to harsh climates. They also exhibit rapid growth rates, resist drought well in most cases and have dense, overlapping branches of lustrous green needles. Despite all this, Thuja do suffer from pest and pathogen issues in the landscape. When trees are stressed, arborvitae needle blight can be significant threat to the long-term health of many trees in the landscape. Based on samples submitted to the UMass Plant Diagnostic Laboratory (UMPDL), arborvitae needle blight is primarily the result of infection by two fungi: Phyllosticta and Pestalotiopsis.

Symptoms & Signs

Little is currently known about the biology and ecology of Phyllosticta species on Thuja in North America. It's believed that P. thujae is the primary species encountered, but taxonomic studies are lacking. Phyllosticta thujae was first described in 1989 and is thought to occur only on Thuja. Based on submissions to the UMPDL, Phyllosticta can also be found on Leyland cypress (×Cupressocyparis leylandii), false-cypress (Chamaecyparis spp.), Japanese cedar (Cryptomeria) and juniper/red-cedar (Juniperus spp.). Arborvitae infected by Phyllosticta typically have blighted needle tips and/or discolored (pale green to yellow) needles that may appear desiccated. Infections often initiate at the needle tip and progress towards the base. During wet and mild weather, black pads of fungal tissue (pycnidia) rupture through the epidermis on symptomatic needles to release large volumes of spores (conidia), which are then blown or splashed to nearby shoots to initiate new infections. Because arborvitae have dense canopies, especially those that are sheared, ideal conditions exist for development of the pathogen. Most infections likely establish during wet weather in the spring, when new needles are emerging and are not fully developed. However, the pathogen may also be actively sporulating during the autumn season, especially when moisture is abundant. Overall, many Phyllosticta species are poorly understood and are mostly treated as secondary pathogens on conifers. Aggressive pruning and winter injury are likely the two most important predisposing stresses that lead to infection. 

Pestalotiopsis (pronounced Pesta-low-she-opsis) is a common pathogen on coniferous trees and shrubs in landscape settings, causing shoot and branch dieback on numerous species and varieties of Thuja, Chamaecyparis, Cryptomeria and Juniperus. The fungus invades the plant at the tips of new shoots, or can utilize pruning wounds as a source of entry. Once established, it causes browning and dieback that can eventually kill small branches. Overall, Pestalotiopsis can likely be described as more aggressive in comparison to Phyllosticta because of its ability to attack stems and small branches. Phyllosticta, meanwhile, is primarily restricted to the needles. Pestalotiopsis is opportunistic and attacks weakened plants predisposed by drought, insect feeding, mechanical damage and establishment stress. The fungus is a known endophyte, meaning that it can live dormant within the plant without causing disease, an adaptation that allows it to readily overwinter in asymptomatic plant tissues. Pestalotiopsis produces small pads of fungal tissue underneath the epidermis, and when moisture is abundant the pads ruptures through, producing a long black mass of spores. During wet weather, spores are blown and splashed onto healthy, nearby plant parts, initiating new infection centers.

Management

The best course of action for management of any needle and shoot blight pathogen is to prune and discard as many infected plant parts as much as possible. Dead shoots and needles harbor the fungal pathogens and allow them to overwinter in the tree canopy. When they sporulate from the dead tissue the following year, the spores are in very close proximity to newly developing and susceptible tissues. On well-established mature trees, this level of pruning can be a daunting task, but a necessary one if the disease is to be successfully controlled. However, it is important to keep in mind that spores travel long distances and both Phyllosticta and Pestalotiopsis are widespread in the environment. Avoid pruning during wet weather, as this is the time period when the fungus is most actively producing and disseminating spores. Avoid watering with overhead sprinklers that wet the foliage, which allows free moisture to linger on the needles can facilitate spore production and germination. Drip irrigation or hand-watering of newly planted trees is preferable.

Chemical management may be warranted in certain cases, such as when trees are recently planted and are undergoing transplant shock. Fungicides labeled for use on ornamentals in Massachusetts that may have utility against both pathogens include: copper hydroxide, copper salts of fatty and rosin acids, metconaozle, propiconazole, thiophanate-methyl and mancozeb. Fungicides should be used as a preventative measure to limit infections on the current year's growth in the spring. In some cases, fall applications may also help to reduce disease pressure. Proper spacing and planting techniques can alleviate some of the predisposing stresses that allow infections to establish on trees suffering from transplant shock. Arborvitae can tolerate partial shade and this is one reason why the plants are so adaptable across a range of sites. However, sites with deep shade and limited direct sunlight are not conducive to healthy growth for these plants. Therefore, proper placement of arborvitae in the landscape is critical in avoiding a disease outbreak. While arborvitae are drought-resistant in many landscapes once they become established, if soils are excessively sandy or the site is particularly exposed, Juniperus may be a better choice. 

Author: 
Nicholas J. Brazee
Last Updated: 
October 2022