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51-424: Woodboring beetles with larvae commonly known as woodworm include: Signs of woodworm usually consist of holes in the wooden item, with live infestations showing powder (faeces), known as frass , around the holes. The size of the holes varies, but they are typically 1 to 1.5 millimetres ( 5 ⁄ 128 to 1 ⁄ 16  in) in diameter for the most common household species, although they can be much larger in

102-438: A J-shape. These J-shaped larvae shorten into prepupae and develop into pupae and adults the following spring. To exit the tree, adults chew holes from their chamber through the bark, which leaves a characteristic D-shaped exit hole. Immature larvae can overwinter in their larval gallery, but can require an additional summer of feeding before overwintering again and emerging as adults the following spring. This two-year life cycle

153-474: A darker green, but can also have copper hues. Emerald ash borer is the only North American species of Agrilus with a bright red upper abdomen when viewed with the wings and elytra spread. The species also has a small spine found at the tip of the abdomen and serrate antennae that begin at the fourth antennal segment. They leave tracks in the trees they damage below the bark that are sometimes visible. Adult beetles of other species can often be misidentified by

204-432: A higher moisture content than that of typical household items. A building with a woodworm problem in its structure or furniture may also have a problem with excess moisture. The issue could be the result of a lack of ventilation in a roof space, cellar or other enclosed space within an otherwise dry building. Whilst moisture is a leading factor resulting in a woodworm infestation, some species of woodboring insects, such as

255-549: A lab setting. Adults prefer to lay eggs on open grown or stressed ash but readily lay eggs on healthy trees amongst other tree species. Ashes that grow in pure stands, whether naturally occurring or in landscaping, are more prone to attack than isolated trees or ones located in mixed forest stands. Ashes used in landscaping also tend to be subjected to higher amounts of environmental stresses including compacted soil, lack of moisture, heating effects from urban islands , road salt, and pollution, which may also reduce their resistance to

306-409: A means of grafting or breeding new, resistant stock. Many of these lingering ashes were found to have unusual phenotypes that may result in increased resistance. Aside from their higher tannin content, Asian ashes also employ natural defenses to repel, trap, and kill emerald ash borer larvae. Although studies of American ashes have suggested that they are capable of mustering similar defensive mechanisms,

357-494: A monitoring program. These traps can also have volatile pheromones applied to them that attract primarily males. Sometimes trees are girdled to act as trap trees to monitor for emerald ash borer. The stressed tree attracts egg-laying females in the spring, and trees can be debarked in the fall to search for larvae. If detected, an area is often placed under a quarantine to prevent infested wood material from causing new infestations. Further control measures are then taken within

408-404: A type that only attacks living wood, and thus incapable of "infesting" any other pieces of wood, or doing any further damage. Genuine infestations are far more likely in areas with high humidity, such as poorly ventilated crawl spaces . Housing with central heating/air-conditioning tends to cut the humidity of wood in the living areas to less than half of natural humidity, thus strongly reducing

459-538: A viable option in urban areas with high value trees near an infestation. Ash trees are primarily treated by direct injection into the tree or soil drench. Some insecticides cannot be applied by homeowners and must be applied by licensed applicators. Damage from emerald ash borer can continue to increase over time even with insecticide applications. Insecticide treatments are not feasible for large forested areas outside of urban areas. The native range of emerald ash borer in Asia

510-534: Is also killed rapidly but usually only after all green and black ash trees are eliminated. Blue ash is known to exhibit a higher degree of resistance to emerald ash borer, which is believed to be caused by the high tannin content in the leaves making the foliage unpalatable to the insect. While most Asian ashes have evolved this defense, it is absent from American species other than blue ash. Researchers have examined populations of so-called "lingering ash", trees that survived ash borer attack with little or no damage, as

561-566: Is an invasive species that is highly destructive to ash trees in its introduced range. Before emerald ash borer was found in North America, very little was known about the insect in its native range aside from a short description of life-history traits and taxonomic descriptions, which resulted in focused research on its biology in North America. The insect was first identified in Canton, Michigan (near Detroit ), in 2002, but it may have been in

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612-456: Is costly, so slowing down the rate at which trees die through removing known infested trees and treating trees with insecticides can allow local governments more time to plan, remove, and replace trees that would eventually die. This strategy saves money as it would cost $ 10.7 billion in urban areas of 25 states over 10 years, while removing and replacing all ash trees in these same areas at once would cost $ 25 billion (with another estimate putting

663-522: Is generally low. The United States Department of Agriculture 's Animal and Plant Health Inspection Service published a rule on December 14, 2020—to take effect one month later, January 14, 2021—ending all EAB quarantine activities in the United States due to ineffectiveness so far. Other means will be used instead, especially biological controls (see §Biological control below). These insects have managed to eliminate close to 300,000 Ash trees in

714-462: Is important to ascertain whether an infestation is still active before treatment is carried out. It is also advisable to investigate and solve possible dampness issues, as dry wood is not usually affected, and wood that remains damp may be reinfected at a later date. Electrical insect killers, which attract and kill adult beetles before they can breed, may be used along with conventional chemical treatments to kill adult beetles before they can breed, but

765-688: Is more common in cool climates, such as European Russia . The native range of the emerald ash borer is temperate north-eastern Asia, which includes Russia, Mongolia, northern China, Japan, and Korea. The beetle is invasive in North America where it has a core population in Michigan and surrounding states and provinces. Populations are more scattered outside the core area, and the edges of its known distribution range north to Ontario , south to northern Louisiana , west to Nebraska , and east to New Brunswick . Satellite populations also exist in Colorado and in

816-599: Is only a nuisance pest on native trees, as population densities typically do not reach levels lethal to healthy trees. In China, it infests native Fraxinus chinensis , F. mandshurica , and F. rhynchophylla ; in Japan it also infests F. japonica and F. lanuginosa . Emerald ash borer primarily infest and can cause significant damage to ash species including green ash ( F. pennsylvanica ), black ash ( F. nigra ), white ash ( F. americana ), and blue ash ( F. quadrangulata ) in North America. In Europe, F. excelsior

867-431: Is present. The wasps stun the beetles and carry them back to their burrows in the ground where they are stored until the wasps’ eggs hatch and the wasp larvae feed on the beetles. Volunteers catch the wasps as they return to their burrows carrying the beetles to determine whether emerald ash borer is present. This methodology is known as biological surveillance, as opposed to biological control, because it does not appear that

918-561: Is the main ash species colonized, which is moderately resistant to emerald ash borer infestation. Ash susceptibility can vary depending on the attractiveness of chemical volatiles to adults, or the ability of larvae to detoxify phenolic compounds. Emerald ash borer has also been found infesting white fringe tree in North America, which is a non-ash host, but it is unclear whether the trees were healthy when first infested, or were already in decline because of drought. Another non-ash host has also been discovered, Olea europaea , albeit in

969-672: The canopy before mating, but cause little defoliation in the process. Males hover around trees, locate females by visual cues, and drop directly onto the female to mate. Mating can last 50 minutes, and females may mate with multiple males over their lifespan. A typical female can live around six weeks and lay approximately 40–70 eggs, but females that live longer can lay up to 200 eggs. Eggs are deposited between bark crevices, flakes, or cracks and hatch about two weeks later. Eggs are approximately 0.6 to 1.0 mm (0.02 to 0.04 in) in diameter, and are initially white, but later turn reddish-brown if fertile. After hatching, larvae chew through

1020-447: The pawpaw , yellowwood , Franklin tree , Kentucky coffeetree , Osage orange , sourwood , and bald cypress . Insecticides with active ingredients such as azadirachtin , imidacloprid , emamectin benzoate , and dinotefuran are currently used. Dinotefuran and imidacloprid are systemic (i.e., incorporated into the tree) and remain effective for one to three years depending on the product. Insecticides are typically only considered

1071-430: The woodboring weevil , are only found where fungal rot has already begun. Depending on the species involved, woodworm infestation is generally controlled with insecticides. However, some woodworm conditions, such as those caused by the waney edge borer ( Ernobius mollis ), require no treatment at all because the insect will have been killed in the preparation of the wood. Only active infestations require treatment, so it

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1122-530: The National Capital Region in only nine years. This leaves only 80,000 ash trees left standing either due to luck or to some amount of resistance to the beetles. These forests used to have an extremely dense Ash population having 17-18 trees per Hectare now there are only 5-6 trees per Hectare. This illustrates extremely well the overall destructive power of the Emerald Ash Borer and the relevance to

1173-674: The Pacific Northwest in Oregon . In eastern Europe, a population was found in Moscow in 2003. From 2003 to 2016, this population has spread west towards the European Union at up to 40 km (25 mi) per year and is expected to reach central Europe between 2031 and 2036. Although not recorded from the European Union as of 2019, it has already spread to far eastern Ukraine from neighboring Russia. In its native range, emerald ash borer

1224-887: The U.S. since the late 1980s. It is suspected that it was introduced from overseas in shipping materials such as packing crates. Without factors that would normally suppress emerald ash borer populations in its native range (e.g., resistant trees, predators, and parasitoid wasps ), populations can quickly rise to damaging levels. After initial infestation, all ash trees are expected to die in an area within 10 years without control measures. Every North American ash species has susceptibility to emerald ash borer, as North American species planted in China also have high mortality from infestations, but some Asian ash species are resistant, including F. baroniana , F. chinensis, F. floribunda , F. mandshurica , and F. platypoda . Green ash and black ash trees are preferred by emerald ash borer. White ash

1275-449: The area to slow population growth by reducing beetle numbers, preventing them from reaching reproductive maturity and dispersing, and reducing the abundance of ash trees. Government agencies in both the U.S. and Canada have utilized a native species of parasitoid wasp, Cerceris fumipennis , as a means of detecting areas to which emerald ash borer has spread. The females of these wasps hunt other jewel beetles and emerald ash borer if it

1326-458: The bark of ash trees to emerge as adults in one to two years. In its native range, it is typically found at low densities and does not cause significant damage to trees native to the area. Outside its native range, it is an invasive species and is highly destructive to ash trees native to Europe and North America. Before it was found in North America, very little was known about the emerald ash borer in its native range; this has resulted in much of

1377-406: The bark to the inner phloem , cambium , and outer xylem where they feed and develop. Emerald ash borer has four larval instars . By feeding, larvae create long serpentine galleries. Fully mature fourth-instar larvae are 26 to 32 mm (1.0 to 1.3 in) long. In fall, mature fourth-instars excavate chambers about 1.25 cm (0.49 in) into the sapwood or outer bark where they fold into

1428-592: The beetle in Beijing and sent it to France, where the first brief description of Agrilus planipennis by the entomologist Léon Fairmaire was published in the Revue d'Entomologie in 1888. Unaware of Fairmaire's description, a separate description naming the species as Agrilus marcopoli was published in 1930 by Jan Obenberger . Adult beetles are typically bright metallic green and about 8.5 mm (0.33 in) long and 1.6 mm (0.063 in) wide. Elytra are typically

1479-469: The beetles' bodies but also are concentrated in their frass, contributing to soil nutrients cycles. Though the vast majority of woodboring beetles are ecologically important and economically benign, some species can become economic pests by attacking relatively healthy trees (e.g. Asian longhorn beetle , emerald ash borer ) or by infesting downed trees in lumber yards. Species such as the Asian longhorn beetle and

1530-418: The borer. Furthermore, most ashes used in landscaping were produced from a handful of cultivars, resulting in low genetic diversity . Young trees with bark between 1.5 mm (0.059 in) to 5 mm (0.20 in) are preferred. Both males and females use leaf volatiles and sesquiterpenes in the bark to locate hosts. Damage occurs in infested trees by larval feeding. The serpentine feeding galleries of

1581-530: The case of the house longhorn beetle. Adult beetles that emerge from wood may also be found in the summer months. Typically the adult beetles lay eggs on or just under the surface of a wooden item. The resulting grubs then feed on the wooden item causing both structural and cosmetic damage. They then pupate and hatch as beetles that then breed, lay eggs and repeat the process, causing further damage. As these beetles are accustomed to consuming decaying wood in forests, most grubs will prefer wooden items that contain

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1632-674: The effectiveness of such an approach is unknown. Freezing treatments are quite effective but are costly, take two to three weeks to work and may cause damage. Low-oxygen treatment is also effective but is costly and very time-consuming, taking as long as eight weeks to treat the problem. In places such as Cambodia , South Africa , the Philippines and Papua New Guinea , woodworms may be considered edible delicacies. Woodboring beetle The term woodboring beetle encompasses many species and families of beetles whose larval or adult forms eat and destroy wood (i.e., are xylophagous ). In

1683-420: The emerald ash borer are examples of invasive species that threaten natural forest ecosystems. Woodboring beetles are commonly detected a few years after new construction. The lumber supply may have contained wood infected with beetle eggs or larvae, and since beetle life cycles can be one or more years, several years may pass before the presence of beetles becomes noticeable. In many cases, the beetles will be of

1734-422: The everyday person. Something extremely important to note about this severe loss of Ash trees is the effect that it has on the ecosystem of that area. Swamplands that used to be home many Ash forest have now become shrublands, completely changing the ecosystem of that area permanently. The impact this has on the wildlife is extreme because of all the animals that used every part of the tree as refuge, such as birds in

1785-580: The foliage, small rodents amongst the roots, etc. Emerald ash borer threatens the entire North American genus Fraxinus . It has killed tens of millions of ash trees so far and threatens to kill most of the 8.7 billion ash trees throughout North America. Emerald ash borer kills young trees several years before reaching their seeding age of 10 years. In both North America and Europe, the loss of ash from an ecosystem can result in increased numbers of invasive plants, changes in soil nutrients, and effects on species that feed on ash. Damage and efforts to control

1836-426: The larvae disrupt the flow of nutrients and water, effectively girdling , thus killing the tree, as it is no longer able to transport sufficient water and nutrients to the leaves to survive. Girdled ashes will often attempt to regenerate through stump sprouting, and there is evidence that stressed trees may also generate higher than normal seed crops as an emergency measure. Outside its native range, emerald ash borer

1887-575: The likelihood of an infestation. Some species will infest furniture. Some beetles invade wood used in construction and furniture making; others limit their activity to forests or roots of living trees. The following lists some of those beetles that are house pests. Emerald ash borer The emerald ash borer ( Agrilus planipennis ), also known by the acronym EAB , is a green buprestid or jewel beetle native to north-eastern Asia that feeds on ash species ( Fraxinus spp.). Females lay eggs in bark crevices on ash trees, and larvae feed underneath

1938-433: The main infestation. Other factors can limit spread. Winter temperatures of approximately −38 °C (−36 °F) limit range expansion, and overwintering emerald ash borer survive down to average temperatures of −30 °C (−22 °F) because of antifreeze chemicals in the body and insulation provided by tree bark. Larvae can also survive high heat up to 53 °C (127 °F). Conversely, much like ashes grown in

1989-461: The material could be infested. Kentucky Extension specialists suggest selecting uncommon species to replace removed ashes in the landscape. Previous generations created monocultures by planting ash trees in an overabundance, a factor in the extent of the devastation caused by the emerald ash borer. Favoring instead a diversity in species helps keep urban forests healthy. University of Kentucky scientists suggest choosing monotypic species such as

2040-582: The material has been inspected or treated (i.e., heat treatment or wood chipping) to ensure no live emerald ash borer are present in the bark and phloem. In urban areas, trees are often removed once an infestation is found to reduce emerald ash borer population densities and the likelihood of further spread. Urban ash are typically replaced with non-ash species such as maple, oak, or linden to limit food sources. In rural areas, trees can be harvested for lumber or firewood to reduce ash stand density, but quarantines may apply for this material, especially in areas where

2091-480: The nursery trade, the population of emerald ash borer in North America is believed to have originated from a single group of insects from central China and also exhibits low genetic diversity. North American predators and parasitoids can occasionally cause high emerald ash borer mortality, but generally offer only limited control. Mortality from native woodpeckers is variable. Parasitism by parasitoids such as Atanycolus cappaerti can be high, but overall such control

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2142-471: The other three species have been documented parasitizing emerald ash borer larvae one year after release, indicating that they survived the winter, but establishment varied among species and locations. Tetrastichus planipennisi and Oobius agrili established and have had increasing populations in Michigan since 2008; Spathius agrili has had lower establishment success in North America, which could be caused by

2193-404: The public. The emerald ash borer life cycle can occur over one or two years depending on the time of year of oviposition , the health of the tree, and temperature. After 400–500 accumulated degree-days above 10 °C (50 °F), adults begin to emerge from trees in late spring, and peak emergence occurs around 1,000 degree-days. After emergence, adults feed for one week on ash leaves in

2244-464: The removal alone at $ 20–60 billion). Some urban areas such as Minneapolis have large amounts of ash with slightly more than 20% of their urban forest as ash. In areas where emerald ash borer has not yet been detected, surveys are used to monitor for new infestations. Visual surveys are used to find ash trees displaying emerald ash borer damage, and traps with colors attractive to emerald ash borer, such as purple or green, are hung in trees as part of

2295-404: The research on its biology being focused in North America. Local governments in North America are attempting to control it by monitoring its spread, diversifying tree species, and through the use of insecticides and biological control . French priest and naturalist Armand David collected a specimen of the species during one of his trips through Imperial China in the 1860s and 1870s. He found

2346-520: The spread of emerald ash borer have affected businesses that sell ash trees or wood products, property owners, and local or state governments. Quarantines can limit the transport of ash trees and products, but economic impacts are especially high for urban and residential areas because of treatment or removal costs and decreased land value from dying trees. Costs for managing these trees can fall upon homeowners or local municipalities. For municipalities, removing large numbers of dead or infested trees at once

2397-763: The trees do not appear to recognize when they are under attack. Many of the specialized predators and parasitoids that suppressed emerald ash borer in Asia were not present in North America. Predators and parasitoids native to North America do not sufficiently suppress emerald ash borer, so populations continue to grow. Birds such as woodpeckers feed on emerald ash borer larva, although the adult beetles have not been used by any American fauna as food. Emerald ash borer populations can spread between 2.5 to 20 km (1.6 to 12.4 mi) per year. It primarily spreads through flight or by transportation of ash bark containing products such as firewood or nursery stock, which allows it to reach new areas and create satellite populations outside of

2448-436: The turnover of trees by culling weak trees, thus allowing new growth to occur. They are also important as primary decomposers of trees within forest systems, allowing for the recycling of nutrients locked away in the relatively decay-resilient woody material of trees. To develop and reach maturity woodboring beetles need nutrients provided by fungi from outside of the inhabited wood. These nutrients are not only assimilated into

2499-481: The wasps have a significant negative impact on emerald ash borer populations. In areas where emerald ash borer is non-native and invasive, quarantines, infested tree removal, insecticides, and biological control are used to reduce damage to ash trees. Once an infestation is detected, quarantines are typically imposed by state, or previously, national government agencies disallowing transport of ash firewood or live plants outside of these areas without permits indicating

2550-620: The woodworking industry, larval stages of some are sometimes referred to as woodworms . The three most species-rich families of woodboring beetles are longhorn beetles , bark beetles and weevils , and metallic flat-headed borers . Woodboring is thought to be the ancestral ecology of beetles, and bores made by beetles in fossil wood extend back to the earliest fossil record of beetles in the Early Permian ( Asselian ), around 295-300 million years ago. Woodboring beetles most often attack dying or dead trees. In forest settings, they are important in

2601-592: Was surveyed for parasitoid species that parasitize emerald ash borer and do not attack other insect species in the hope they would suppress populations when released in North America. Three species imported from China were approved for release by the USDA in 2007 and in Canada in 2013: Spathius agrili , Tetrastichus planipennisi , and Oobius agrili , while Spathius galinae was approved for release in 2015. Excluding Spathius galinae , which has only recently been released,

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