Hosts and symptoms
''Hypoxylon'' canker of shade trees has three primary species, through which the pathogen can infect a variety of hardwood shade trees. ''Hypoxylon atropunctatum'' is most commonly found on oak, ''Hypoxylon mammatum'' is a significant pathogen on aspen trees, and ''Hypoxylon tinctor'' infects sycamore trees. In order to tell if the pathogen is affecting the tree, the bark must be closely examined, but the symptoms are distinct. Early stages of the disease show a light brown and tan color that looks dry and dusty. Later on, as the pathogen goes through the sexual stage, the bark will turn to a dark grey color. The bark becomes brittle and flakes off, and black and grey cankers will appear. These changes are symptoms, indications of a disease. They demonstrate that the pathogen is present and infecting or has already infested the host. ''Hypoxylon'' also produces characteristic signs, which are either going to be direct products of the pathogen or the appearance of the pathogen itself. The visible signs from ''Hypoxylon'' are conidia and ascospores. Conidia are produced during the asexual stage, while ascospores are produced during the sexual stage. One can sometimes see the conidia with the naked eye if they are structuralized, but it is much easier to see them under a dissecting microscope. When looking through a compound microscope, it is possible to see the ascospores. They will be located on perithecia. The microscopic signs of the perithecium are the flask-shaped sexual fruiting body that contains ascospores. Lastly, the pathogen is going to be found primarily just beneath the bark of the trees, located throughout the tree and if the pathogen spreads. The pathogen can also spread to the bark of surrounding trees. If one sees symptoms on the main trunk, the tree is likely too diseased to save, since the trunk is the spot where the nutrients and water are transported. Once ''Hypoxylon'' is active on the main trunk, there is no other way for the water and nutrients to get to the rest of the tree and thus it dies. Fortunately, if ''Hypoxylon'' is found on the branches or limbs there is a good chance the tree will live if the fungus does not spread. Pruning out the limbs and branches that look like they have the disease on it or are dying will solve the problem.Disease cycle
Factors that give rise to infection
''Hypoxylon'' canker of shade trees is an ascomycete fungal disease. The fungal pathogen must take advantage of wounds in the host tree or unhealthy tree tissue to infect and colonize the host, as normal, robust trees are not very susceptible to infection. However, many hosts of ''Hypoxylon'' canker, such as red and postStages of infection
While theAsexual (anamorph) stage
The fungus can infect seedlings and typically colonizes under the bark of the trees. Since the fungus infects under the bark, the signs of the pathogen aren't visible until the bark sheds off in response to the physical pressure imposed by the growthing pathogen; this typically happens in the transition between spring and summer. This shedding reveals large brown fungal mats, called stroma, which are the asexual reproductive structures that house the asexual spores,Sexual (teleomorph) stage
After the conidia have been dispersed by late summer and fall, the stroma turn very dark, often brown or black, and crusty. At this point, the stroma produce sexual fruiting bodies. Within theseEnvironment
''Hypoxylon'' canker greatly depends on dying tree matter, which is why it generally attacks only damaged and stressed trees. Normal, healthy trees are able to fend off infection with their natural defense mechanisms such as basal defense and hypersensitive response. Furthermore, it is known that the ''Hypoxylon'' fungi already exist on the majority of trees and are only waiting for a possible infection route to be created. When damage or stress occurs, the fungi will further colonize, infect, and begin living off the nutrients of the tree, flourishing in the bark and vascular system. Natural stresses such as defoliation by insects, animal damage, soil nutrient depletions, drought, overcrowding, and other disease can weaken trees, enabling ''Hypoxylon'' to infect. Human-caused problems can also lead to infection; soil compaction and excavation, construction, and physical injuries are known stresses to trees. Drought is one of the major indicators that ''Hypoxylon'' will become a problem in the following months to years. Droughts account for a large majority of tree-related problems as the water deficit has a negative effect on the tree's natural developments. Symptoms usually develop within a year after a drought, but with extreme conditions can develop in a matter of months. A major factor in the survival of ''Hypoxylon'' canker is the moisture content within the tree wood. When the stresses mentioned above begin to weaken the tree, moisture content of the wood decreases. As the wood further dries, the ''Hypoxylon'' fungi will feed and further white rot and decay of the tree will occur, potentially causing death.Management
Although there is no known cure for ''Hypoxylon'' canker, proper management practices and care can significantly reduce problems that may occur. Generally, avoiding tree stress and maintaining an overall healthy tree is the most ideal way of avoiding the canker. Avoiding any physical injuries to the trunk, limbs, or roots is important as these injuries can disrupt growth processes and xylem/phloem transport. Disruptions to the soil surrounding the tree should also be minimized. Any major disruptions, such as landscaping or irrigation modifications, in the surrounding environment can develop significant problems for both young and mature trees. Proper herbicides, pesticides, and fertilizers should be used in further tree protection. Additionally, adequate propagation along with good drainage is extremely important in sustaining a healthy tree. Studies have found that ''Hypoxylon'' canker favors lower tree density stands in addition to only stressed trees. This could be due to the mode of spore dispersal, the inability of spores to germinate on older bark, the fungal method of entry, and the specific tree age. If possible, minimize forest thinning unless recommended by an arborist or qualified specialist. When dead or dying tree branches do appear, selective pruning should be performed to remove these potential infection sources. The removal of dead or infected regions can prevent or considerably reduce advances of ''Hypoxylon''.Importance
The most significant impact of ''Hypoxylon'' canker of shade trees is that the ascomycete fungal pathogen can contribute to the death of many species of tall, mature shade trees. This can have an economic impact, since many of these types of trees are used for aesthetic landscaping in residential and commercial areas. There is also an ecological impact; specifically, ''Hypoxylon'' canker is most devastating to forest aspen trees. Aspen distribution in Utah, in National Forest System lands, has decreased by 60%. Though Hypoxylon is not the major cause of this decline, ''Hypoxylon'' mammatum is estimated to infect 30% of aspens each year across the Midwest. In 1972, the damage was significant enough to cause losses of $4 million worth of aspen across Wisconsin, Minnesota, and Michigan. Furthermore, severe drought conditions throughout the American West could exacerbate Hypoxylon damage to aspens since the fungus takes advantage of water stressed trees. Overall, the loss of aspen or any other species of tall, mature shade trees can have a large impact on the surrounding ecosystem; these trees can serve as habitat for a variety of animals. Since ''Hypoxylon'' canker of shade trees is found throughout the United States, in regions such as the mountain West, coastal South, and Midwest/Great Lakes region, the preservation and protection of the host trees is particularly significant.References