''Ophiostoma ulmi'' is a species of

fungus A fungus ( : fungi or funguses) is any member of the group of eukaryotic organisms that includes microorganisms such as yeasts and molds, as well as the more familiar mushrooms. These organisms are classified as a kingdom, separately fr ...

in the family Ophiostomataceae. It is one of the causative agents of

Dutch elm disease Dutch elm disease (DED) is caused by a member of the sac fungi (Ascomycota) affecting elm trees, and is spread by elm bark beetles. Although believed to be originally native to Asia, the disease was accidentally introduced into America, Europe ...

. It was first described under the name ''Graphium ulmi'', and later transferred to the genus ''

Ophiostoma ''Ophiostoma'' is a genus of fungi within the family Ophiostomataceae. It was circumscribed in 1919 by mycologists Hans Sydow and Paul Sydow. Species *'' Ophiostoma adjuncti'' *'' Ophiostoma ainoae'' *'' Ophiostoma allantosporum'' *'' Ophiost ...

''. Dutch elm disease originated in Europe in the early 1900s.Clinton, G. P., McCormick, Florence A., ''Dutch elm disease, Graphium ulmi''; New Haven, 1936
/ref> Elm trees were once an ecologically valuable tree that dominated mixed broadleaf forests, floodplains, and low areas near rivers and streams. They were planted in urban settings because of their aesthetic appeal and their ability to provide shade due to their V like shape. An outbreak of Dutch elm disease in the 1920s and again in the 1970s was responsible for the death of more than 40 million American elm trees. ''Ophiostoma ulmi'' was the first known cause of Dutch elm disease . Since its discovery in 1910, new forms of the fungus, specifically ''Ophiostoma novo-ulmi,'' have emerged and appear to be more resistant to control measures and more aggressive in their infection.

Host range and symptoms

''Ophiostoma ulmi'' has a relatively narrow host range as it infects only elm trees (''

Ulmus Elms are deciduous and semi-deciduous trees comprising the flowering plant genus ''Ulmus'' in the plant family Ulmaceae. They are distributed over most of the Northern Hemisphere, inhabiting the temperate and tropical-montane regions of North ...

'' spp.) and '' Zelkova carpinifolia''. Habitat preferences of elms play a large part in determining their susceptibility as a host for Dutch elm disease. For example, of the three native European elm species (''

Ulmus glabra ''Ulmus glabra'' Hudson, the wych elm or Scots elm, has the widest range of the European elm species, from Ireland eastwards to the Urals, and from the Arctic Circle south to the mountains of the Peloponnese and Sicily, where the species reaches i ...

Huds''., ''

Ulmus laevis ''Ulmus laevis'' Pall., variously known as the European white elm, fluttering elm, spreading elm, stately elm and, in the United States, the Russian elm, is a large deciduous tree native to Europe, from France northeast to southern Finland, east b ...

Pall''. and ''

Ulmus minor ''Ulmus minor'' Mill., the field elm, is by far the most polymorphic of the European species, although its taxonomy remains a matter of contention. Its natural range is predominantly south European, extending to Asia Minor and Iran; its northern ...

''), all are susceptible to infection by ''O. ulmi'', but ''Ulmus glabra'' has a much smaller chance of being inoculated than ''Ulmus minor''. This is because the insect vector prefers the warm humid habitat of ''Ulmus minor'' to the cold hemiboreal habitat of ''Ulmus glabra''. For this reason, ''Ulmus minor'' has been almost completely eliminated by the disease. In North America, ''

Ulmus americana ''Ulmus americana'', generally known as the American elm or, less commonly, as the white elm or water elm, is a species of elm native to eastern North America, naturally occurring from Nova Scotia west to Alberta and Montana, and south to Flor ...

'', '' U. thomasii'', '' U. alata'', '' U. serotina'' and '' U. rubra'' are listed as highly susceptible to Dutch Elm disease, while '' U. crassifolia'' is less threatened. ''Ophiostoma ulmi'' causes symptoms commonly associated with most vascular wilts. Trees that have been infected by a vector will exhibit symptoms of leaf wilting and yellowing on branches and twigs that have been colonized by the Scolytid beetle. These symptoms are most often apparent from July into the autumn months. Trees that have contracted the disease via root grafts will often proceed much more quickly because the whole tree is compromised at once. Diagnosis of this disease is usually done by examining the

xylem Xylem is one of the two types of transport tissue in vascular plants, the other being phloem. The basic function of xylem is to transport water from roots to stems and leaves, but it also transports nutrients. The word ''xylem'' is derived from ...

tissue of twigs and branches of the trees. Symptoms of brown streaking that runs in the direction of the grain of the wood, and tylosis formation by the tree as a reaction to the fungal infection are characteristic of this disease. Breeding efforts began as early as the 1920s to try to combat this disease, and some crosses bred from resistant Asian species of elm and susceptible European species have shown a decrease in susceptibility to the pathogen. However, with the introduction of ''Ophiostoma novo-ulmi'' many of these resistant species struggle to survive.

Environment

''Ophiostoma ulmi'' infects the bark and xylem tissue of elm trees. It has been found in northern Africa and Oceania, but the vast majority of elms that are or have been colonized by ''O. ulmi'' can be found in Europe, west central Asia, and North America. While there is some speculation about how the disease traveled to North America, most experts agree that it was the fault of humans. In the spring, trees produce what is known as “springwood” from the stored starches of the previous growing season. This tissue is characterized by long xylem vessels with relatively thin walls, making it the ideal habitat for the pathogen. In springwood, the fungus spreads rapidly, and it is likely that the tree will die. Later in the growing season, the elm will utilize sugars produced by the leaves to nurture the formation of “summerwood”. Summerwood vessels are typically shorter with thicker walls, making it harder for the infection to spread. The pathogen enters its host with assistance from the Scolytid beetle, and will colonize the tunnels, or breeding galleries, made by the insect. The greatest impact of this disease is seen in urban settings and in trees that have previously been impaired by drought or insects. ''O. ulmi'' prefers a subtropical climate for sporulation, with optimal temperatures between 27.5℃ and 30℃ and high moisture, which has largely limited the pathogen’s reach in high altitudes and northern latitudes. The formation of other structures can tolerate cooler environments. Conidia will form at or around 20℃, while perithecia form at 8-10°C. Subjection to high summer temperatures combined with low moisture content and ensuing low nutrient levels in the bark of elm trees greatly restricts sporulation of the fungi. Because of this, it is common for the fungus to avoid branches with small diameters and localize in areas with thick bark, high moisture, and abundant nutrients. Chemical control of this disease through insecticides and fungicides has not proven successful in the past and is often expensive. Many communities have adopted cultural practices to help manage the spread of this disease. This includes sanitation, avoiding planting elm monocultures and breaking root grafts between elms.

Disease cycle

''Ophiostoma ulmi'' can reproduce asexually by overwintering in both the bark and upper layers of dead or dying elm wood as mycelia and synnemata. Synnemata produce conidia that are sticky and can be spread by vectors. In Dutch elm disease, the vectors that transmit ''Ophiostoma ulmi'' are Scolytid beetles. The conidia stick to the bodies of adult beetles and are spread throughout the tunnels (galleries) the beetle makes as it eats. Once in a tunnel, the spores will germinate to produce mycelium. During the late winter months and early spring, mycelia spread rapidly. At the same time, the fungus secretes enzymes that break down the cell walls of the tree and allow the mycelia to grow into the xylem tissue. Here, it will release millions of conidia that travel with the xylem sap. As the fungus grows it creates blockages in the vascular system of the tree, causing the characteristic symptom of wilting in the leaves. As new beetles bore through the xylem tissue, they come into contact with conidia in the sap which stick to their bodies and can be transmitted to other trees that they feed on. The disease can also be spread if mature roots of an infected tree graft to another tree and the conidia travel through xylem sap to the new host. The fungi can also reproduce sexually. ''O. ulmi'' is a heterothallic ascomycete disease with mating types A and B. When these mating types are present in the same host, ascospores will be produced inside of perithecia. The perithecia can form singly or in large groups, and typically will have a long neck like structure with a black ball at the top. This ball contains the asci and ascospores. Once they are mature, the ascospores are released from an opening in the perithecia in a sticky liquid that can attach to the body of the Scolytid beetle and be spread throughout the host or to new hosts.

References

{{Taxonbar, from=Q2324137 Fungi described in 1922 Fungal tree pathogens and diseases Ophiostomatales