Dutch elm disease
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Dutch elm disease (DED) is a fungal disease of elm trees which is spread by the elm bark beetle. Although believed to be originally native to Asia, it has been accidentally introduced into America and Europe, where it has devastated native populations of elms which had not had the opportunity to evolve resistance to the disease. The name Dutch elm disease refers to the identification of the disease in the 1920s in the Netherlands; the disease is not specific to the Dutch Elm hybrid [1] [2]
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[edit] Overview
The causative agents of DED are ascomycete microfungi. Three species are now recognized: Ophiostoma ulmi, which afflicted Europe in 1910, reaching North America on imported timber in 1928, Ophiostoma himal-ulmi, a species endemic to the western Himalaya, and the extremely virulent species, Ophiostoma novo-ulmi, which was first described in Europe and North America in the 1940s and has devastated elms in both areas since the late 1960s [3]. The origin of O. novo-ulmi remains unknown but may have arisen as a hybrid between O. ulmi and O. himal-ulmi [4] The new species was widely believed to have originated in China, but a comprehensive survey there in 1986 found no trace of it, although elm bark beetles were very common [4].
The disease is spread in North America by two species of bark beetles (Family: Curculionidae, Subfamily: Scolytinae): the native elm bark beetle, Hylurgopinus rufipes, and the European Elm Bark Beetle, Scolytus multistriatus. In Europe, whilst the aforementioned Scolytus multistriatus again acts as vector for infection, it is much less effective than the Large Elm Bark Beetle Scolytus scolytus.
In an attempt to block the fungus from spreading further, the tree reacts to the presence of the fungus by plugging its own xylem tissue with gum and tyloses, bladder-like extensions of the xylem cell wall. As the xylem (one of the two types of vascular tissue produced by the vascular cambium, the other being the phloem), delivers water and nutrients to the rest of the plant, these plugs prevent them from travelling up the trunk of the tree, eventually killing it. The first symptom of infection is usually an upper branch of the tree with leaves starting to wither and yellow in summer, months before the normal autumnal leaf shedding. This progressively spreads to the rest of the tree, with further dieback of branches. Eventually, the roots die, starved of nutrients from the leaves. Often, not all the roots die: the roots may put up small suckers. These may grow up for some years into small elm trees, but after a decade or so the new trunks become large enough to support the bark beetles, and with their inevitable arrival the fungus returns, and the new tree dies. [3]
[edit] Disease range
- Europe
Dutch elm disease was first noticed in Europe in 1910, and spread slowly, reaching Britain in 1927. This first strain was a relatively mild one, which only killed a small proportion of elms, more often just killing scattered branches, and had largely died out by 1940. It was isolated in Holland in 1921 by Marie Beatrice Schwarz, a pioneering Dutch phytopathologist, and this discovery would lend the disease its name.[6]
In about 1967, a new, far more virulent strain arrived in Britain on a shipment of Rock Elm logs from North America, and this strain proved both highly contagious and lethal to all of the European native elms; more than 25 million trees died in the UK alone. By 1990-2000, very few mature elms were left in Britain or much of northern Europe. One of the most distinctive English countryside trees, the English Elm U. procera Salisb. (see e.g. John Constable's painting The Hay Wain), is particularly susceptible. Thirty years after the epidemic, these magnificent trees, which often grew to > 45 m high, are long gone. The species still survives in hedgerows, as the roots are not killed and send up root sprouts ("suckers"). These suckers rarely reach more than 5 m tall before succumbing to a new attack of the fungus. However, established hedges kept low by clipping have remained apparently healthy throughout the nearly 40 years since the onset of the disease in the UK.
The largest concentration of mature elm trees remaining in England is in Brighton & Hove, East Sussex, where 15,000 elms still stand (2005 figures), several of which are estimated to be over 400 years old. Their survival is owing to the isolation of the area, between the English Channel and the South Downs, and the assiduous efforts of local authorities to identify and remove infected sections of trees immediately when they show signs of the disease. Empowered by the Dutch Elm Disease (Restriction on Movement of Elms) (Amendment) Order 1988 [7], local authorities may order the destruction of any infected trees or timber, although in practice they usually do it themselves, successfully reducing the numbers of elm bark beetle Scolytus spp, the vector of Elm Disease.[8]
- United States
The disease was first reported in the United States in 1928, with the beetles believed to have arrived in a shipment of logs from the Netherlands destined for use as veneer in the Ohio furniture industry. The disease spread slowly from New England westward and southward, almost completely destroying the famous Elms in the 'Elm City' of New Haven, reaching the Detroit area in 1950[9], the Chicago area by 1960, and Minneapolis by 1970.
- Canada
Dutch elm disease reached Eastern Canada during the Second World War, and spread to Ontario in 1967, Manitoba in 1975 and Saskatchewan in 1981. The largest American, or American White, Elm Ulmus americana known to exist in Ontario, the Sauble Elm, succumbed to the disease and was cut down in September of 1968 [10]. In Toronto, Ontario, 80% of the elm trees have been lost to Dutch elm disease, and many more have fallen victim to the disease in Ottawa, Montreal and other cities during the 1970s and 1980s. Alberta and British Columbia are the only provinces that are currently free of Dutch elm disease, although an elm tree in southeastern Alberta was found diseased in 1998 and was immediately destroyed before the disease could spread any further. Thus, this was an isolated case. Today, Alberta has the largest number of elms unaffected by Dutch elm disease in the world. Aggressive measures are being taken to prevent the spread of the disease into Alberta as well as further progression of the disease in other parts of Canada. The City of Edmonton has banned elm pruning from March 31 to October 1, since fresh pruning wounds will attract the beetles during the warmer months.
Practical Information for the Elm tree owner: DED is caused by a fungus. It is primarily spread 3 ways: 1) by beetle vectors which carry the fungus from tree to tree (the beetle doesn't kill the tree, the fungus it carries does). 2) through direct contact of an infected tree's roots with a neighboring healthy tree. 3) by pruning of a healthy tree with saws which have been used to take down diseased trees. This third method of spread is common and not recognized by many tree pruning and removal services. Arborists at Kansas State University claim that cleaning blades with a 10% solution of a household bleach will prevent this type of spread. Owners of healthy trees should be vigilant about the companies they hire to prune healthy trees. Be certain blades are disinfected between use to remove dead trees and use to prune healthy trees.
[edit] Treatment
The first fungicide used for preventive treatment of Dutch elm disease was Lignasan BLP (carbendazim phosphate), which was introduced in the 1970s. This had to be injected into the base of the tree using specialized equipment, and was never especially effective. It is still sold under the name "Elm Fungicide". Arbotect (thiabendazole hypophosphite) became available some years later, and it has been proven effective. Arbotect must be injected every 2 to 3 years to provide ongoing control; the disease generally cannot be eradicated once a tree is infected.
Alamo (propiconazole) has become available more recently and shows some promise, though several university studies show it to be less effective than Arbotect treatments. Alamo is primarily recommended for treatment of Oak Wilt.
Treatment of diseased trees is costly and at best will prolong the life of the tree by perhaps five or ten years. It is usually only justified when a tree has unusual symbolic value or occupies a particularly important place in the landscape.
[edit] Resistant trees
Research to select resistant cultivars and varieties began in the Netherlands in 1928, and in the USA since the disease became endemic there. Initial efforts in the Netherlands involved crossing varieties of U. minor and U. glabra, but later included the Himalayan or Kashmir Elm U. wallichiana as a source of anti-fungal genes. Early efforts in the USA involved the hybridization of the Siberian Elm Ulmus pumila with the American Elm, and produced a resistant tree, but that lacked the beauty, traditional shape, and landscape value of the American Elm; few were planted.
Recent research in Sweden has established that early-flushing clones are less susceptible to DED owing to an asynchrony between DED susceptibility and infection [5].
- Cultivars
Resistant American Elm cultivars are commercially available in North America, notably:
- 'Princeton', a cultivar selected in 1922 by Princeton Nurseries for its landscape merit. By happy coincidence, this cultivar was revealed to be highly resistant in inoculation studies carried out by the USDA in the early 1990s. Because mature trees planted in the 1920s still survive, the properties of the mature plant are well known.
- 'Valley Forge', has demonstrated resistance to Dutch elm disease approximately equal to that of the Princeton Elm cultivar in controlled USDA tests.
- 'Lewis & Clark' (Prairie Expedition TM ), the latest cultivar to be released in 2004, cloned from a tree found growing in North Dakota that had survived unscathed when all around had succumbed to disease.
There is also the 'American Liberty', in fact a set of six cultivars of moderate to high resistance produced through selection over several generations starting in the 1970s. Marketed as a single variety, nurseries selling the "Liberty Elm" actually distribute the six cultivars at random and thus, unfortunately, the resistance of any particular tree cannot be known. One of the cultivars Independence' is covered by patent (U. S. Plant Patent 6227).
In 2007, the Elm Recovery Project from the University of Guelph in Ontario, Canada reported that cuttings from healthy surviving old elms surveyed across Ontario had been grown to produce a bank of resistant trees, isolated for selective breeding of highly resistant cultivars [11] .
The Slippery or Red Elm U. rubra, that overlaps the range of the American Elm, is less susceptible to Dutch elm disease than many elms, but this quality seems to have somehow largely evaded the attention of the resistance programme.
Even resistant cultivars can become infected, particularly if the tree is under stress from drought and other environmental conditions, and if the disease pressure is high. With the exception of the Princeton Elm, no trees have yet been grown to maturity. The oldest Liberty Elm was planted in about 1980, and the trees cannot be said to be mature until they have reached an age of sixty years.
In 2001, English Elm U. procera was genetically engineered to resist disease, in experiments at Abertay University, Dundee, Scotland, by transferring anti-fungal genes into the elm genome using minute DNA-coated ball bearings [12]. However, there are no plans to release the trees into the countryside.
- Hybrid cultivars
There have been many attempts to breed disease resistant cultivar hybrids and they have usually involved a genetic contribution from Asian elm species which have demonstrable resistance to this fungal disease. Much of the early work in Europe was undertaken in the Netherlands. The Dutch research programme ended after 64 years in 1992. The programme had two major successes: 'Columella' and 'Nanguen' (Lutèce) [6], both found to be actually immune to the disease when inoculated with unnaturally high doses of the fungus. The patent for the Lutèce clone was purchased by the French Institut National de la Recherche Agronomique (INRA), which subjected the tree to 20 years of field trials in the Bois de Vincennes, Paris, before releasing it for sale in 2002.
In Italy, research is continuing at the Istituto per la Protezione delle Piante, Florence, to produce a wide range of disease-resistant trees using a variety of Asiatic species crossed with the early Dutch hybrid Plantyn (elm hybrid) as a safeguard against any future mutation of the disease [7]. Four trees with very high levels of resistance; 'San Zanobi' and 'Plinio' [8] were released in 2003, followed four years later by 'Arno' and 'Fiorente'. All four feature the Siberian Elm Ulmus pumila as a source of disease-resistance genes.
- The European White Elm
There is also the unique example of the European White Elm U. laevis which has little innate resistance to Dutch elm disease but is eschewed by the vector bark beetles and only rarely becomes infected. Recent research has indicated that it is the presence of certain organic compounds, such as triterpenes and sterols, which serves to make the tree bark unattractive to the beetle species that spread the disease [9].
[edit] Possible earlier occurrences
A less devastating form of the disease, caused by a different fungus, had possibly been present in Britain for some time, as this passage in Richard Jefferies' 1883 book, Nature near London, shows:
- There is something wrong with elm trees. In the early part of this summer, not long after the leaves were fairly out upon them, here and there a branch appeared as if it had been touched with red-hot iron and burnt up, all the leaves withered and browned on the boughs. First one tree was thus affected, then another, then a third, till, looking round the fields, it seemed as if every fourth or fifth tree had thus been burnt. [...] Upon mentioning this I found that it had been noticed in elm avenues and groups a hundred miles distant, so that it is not a local circumstance.
This suggestion remains largely speculative, and there is no proof that it was caused by a fungus related to Dutch elm disease.
From analysis of pollen in peat samples, it is apparent the elm all but disappeared from Europe during the mid-Holocene period about 6000 years ago. Examination of sub-fossil elm wood has suggested that Dutch elm disease may have been responsible [13].
[edit] References
- ^ Forestry Commission. Dutch elm disease in Britain [1], UK.
- ^ Macmillan Science Library: Plant Sciences. Dutch Elm Disease. [2]
- ^ a b Spooner B. and Roberts P. 2005. Fungi. Collins New Naturalist series No. 96. HarperCollins Publishers, London
- ^ a b Brasier, C. M. (1996). New horizons in Dutch elm disease control. Pages 20-28 in: Report on Forest Research, 1996. Forestry Commission. HMSO, London, UK.[7]
- ^ Ghelardini, L. (2007) Bud Burst Phenology, Dormancy Release & Susceptibility to Dutch Elm Disease in Elms (Ulmus spp.). Doctoral Thesis No. 2007:134. Faculty of natural Resources and Agricultural Services, Swedish University of Agricultural Sciences, Uppsala, Sweden
- ^ Institut National de la Recherche Agronomique. Lutèce, a resistant variety brings elms back to Paris [3], Paris, France
- ^ Santini A., Fagnani A., Ferrini F., Mittempergher L., Brunetti M., Crivellaro A., Macchioni N., Elm breeding for DED resistance, the Italian clones and their wood properties. Invest Agrar: Sist Recur For (2004) 13 (1), 179-184. 2004. [4]
- ^ Santini A., Fagnani A., Ferrini F. & Mittempergher L., (2002) San Zanobi and Plinio elm trees. HortScience 37(7): 1139-1141. 2002. American Society for Horticultural Science, Alexandria, VA 22314, USA.
- ^ Martín-Benito D., Concepción García-Vallejo M., Alberto Pajares J., López D. 2005. Triterpenes in elms in Spain. Can. J. For. Res. 35: 199–205 (2005). [5]
[edit] External links
- Elm Recovery Project - Guelph University (Canada)
- Dutch elm disease - info from the Government of Alberta
- Dutch elm disease - info from the Government of British Columbia
- DED info from Rainbow Treecare Scientific Advancements
- The Mid-Holocene Ulmus decline: a new way to evaluate the pathogen hypothesis