Walnut twig beetle

Walnut twig beetle
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Order:	Coleoptera
Infraorder:	Cucujiformia
Family:	Curculionidae
Genus:	Pityophthorus
Species:	P. juglandis
Binomial name
	Pityophthorus juglandis; Blackman, 1928

Last updated February 18, 2024

Pityophthorus juglandis, also known as the walnut twig beetle, is a weevil that feeds on several different species of walnut trees ( Juglans ). It is one of only a few species in the genus Pityophthorus that is associated with hardwoods and the only one associated with walnut trees.^[1]

Description

Pityophthorus juglandis can easily be distinguished from other members of its genus. Curtis Utley, a researcher at Colorado State University, elaborates on these differences stating, "Among these differences there are the 4 to 6 concentric rows of asperities on the prothorax, usually broken and overlapping at the median line. The declivity at the end of the wing covers is steep, very shallowly bisulcate, and at the apex it is generally flattened with small granules."^[2] The walnut twig beetles' small size is common for its genus. Adult beetles average between 1.5 and 1.9 millimeters in length.^[1] Although little is known about the life-cycle of the walnut twig beetle, during experimentation with the beetle in a controlled environment, the lifespan of one generation of walnut twig beetles was seven weeks after logs of black walnut, Juglans nigra , were harvested from the wild in May, marking what scientists think is the beginning of the feeding season of the walnut twig beetle.^[1] Gatherings of the beetle in sections of the walnut tree are known as galleries.^[1] The outward appearance of the walnut above these galleries seemed normal except for small beetle entrance holes.^[1] In later stages of decline, beetle entrance holes and galleries were found scattered every 2 to 5 centimeters, essentially crippling the tree.^[1]

The walnut twig beetle is commonly associated with the fungus Geosmithia morbida that causes damage ranging from discoloration in some species of walnuts to mortality in others. "Thousand cankers disease" was given its name because of the magnitude of galleries and subsequent cankers created by the disturbance regime of walnut twig beetles and Geosmithia morbida . The black walnuts only survived for several years after the start of feeding by the walnut twig beetle.^[1] However other species of walnut that are more regenerative towards Geosmithia morbida allowed the walnut twig beetle to feed for longer.

Origin and subsequent spread of species

The walnut twig beetle was first recorded in 1928 in Arizona inhabiting the Arizona walnut tree, Juglans major .^[3] The movement of this insect from Arizona to the surrounding areas was recorded in 1959 in Los Angeles when the walnut twig beetle was collected from both the black walnut and the native southern California black walnut, J. californica .^[3] Recently the beetle and fungus have spread to areas of the United States with much colder climates. In Denver, Colorado during 2001 the first cases of black walnut mortality due to cankerous sores caused by the walnut twig beetle and the fungus, G. morbida, which the walnut twig beetle carries, were recorded, and by 2008 nearly all of the black walnuts in Denver, Colorado had been eliminated.^[3] A similar instance occurred during this same time period in Delta, a city nearly four hundred kilometers west of Denver.^[3] Bark beetles are a major natural disturbance in North American forests, in recent history affecting more area annually than fire does.^[4]

Association with Geosmithia morbida

The walnut twig beetle is not the first bark beetle to be associated with a species of Geosmithia .^[5] The deaths of black walnut trees associated with the walnut twig beetle are not caused by the beetle but instead G. morbida. The origin of G. morbida is not known, but experts strongly believe that its emergence is connected to the walnut tree beetle and the Arizona walnut tree, and was not caused by the transfer of the disease from another area but instead by an evolutionary change in a similar species of fungi that inhabited closely to where the beetle was first identified.^[2]^[6] The fungus and beetle have developed a symbiotic relationship in which the fungus allows itself to be eaten by the beetle in return for a ride to the fungus's next host. The walnut twig beetle's hard shell covers two wings, and because the beetle can fly, G. morbida is reliant on the walnut twig beetle to be spread across distances, making the fungus entomochoric, or completely dependent upon the walnut twig beetle for dispersal, and only found in habitats containing the beetle.^[5]

Human prevention of spread

Human intervention in disturbances related to tree extinction because of infectious disease or invasive wildlife has historically been costly and therefore limited at best. Pruning a tree is one way humans combat fungi spread by bark beetles, and has been the reported course of action to take when dealing with similar fungi such as the Dutch elm disease.^[7] Bark beetles usually feast on limbs no greater than 10 centimetres (3.9 inches) in diameter, spreading Dutch elm disease to a place that is still manageable to prune.^[1] However, the walnut twig beetle is not limited to attacking the limbs. Because the beetle can attack the trunk, pruning is rendered useless. In 2010, an outbreak of both G. morbida and the walnut twig beetle was identified in the community of Knoxville, Tennessee, threatening over 27 million black walnuts in Tennessee alone.^[8] The establishment of quarantine in the area was enacted, denoting a most drastic need to stop the spread of the disease.^[8] Since then several other states have enacted an exterior state quarantine in order to stop the spread of these pests into their states.^[8] Currently the most successful cure for G. morbida is the insertion of sterile agar into the site of the infection.^[2] However, since the magnitude of the number of holes in one tree bored by the walnut tree beetle is so great, this method does not seem to be an effective solution either. Community officials claim that the best thing people can do is not transport firewood, limiting the human spread of the disease.^[8]

Related Research Articles

Juglans nigra, the eastern American black walnut, is a species of deciduous tree in the walnut family, Juglandaceae, native to North America. It grows mostly in riparian zones, from southern Ontario, west to southeast South Dakota, south to Georgia, northern Florida and southwest to central Texas. Wild trees in the upper Ottawa Valley may be an isolated native population or may have derived from planted trees.

Juglans cinerea, commonly known as butternut or white walnut, is a species of walnut native to the eastern United States and southeast Canada.

<span class="mw-page-title-main">Bark beetle</span> Subfamily of beetles

A bark beetle is the common name for the subfamily of beetles Scolytinae. Previously, this was considered a distinct family (Scolytidae), but is now understood to be a specialized clade of the "true weevil" family (Curculionidae). Although the term "bark beetle" refers to the fact that many species feed in the inner bark (phloem) layer of trees, the subfamily also has many species with other lifestyles, including some that bore into wood, feed in fruit and seeds, or tunnel into herbaceous plants. Well-known species are members of the type genus Scolytus, namely the European elm bark beetle S. multistriatus and the large elm bark beetle S. scolytus, which like the American elm bark beetle Hylurgopinus rufipes, transmit Dutch elm disease fungi (Ophiostoma). The mountain pine beetle Dendroctonus ponderosae, southern pine beetle Dendroctonus frontalis, and their near relatives are major pests of conifer forests in North America. A similarly aggressive species in Europe is the spruce ips Ips typographus. A tiny bark beetle, the coffee berry borer, Hypothenemus hampei is a major pest on coffee plantations around the world.

A plant canker is a small area of dead tissue, which grows slowly, often over years. Some cankers are of only minor consequence, but others are ultimately lethal and therefore can have major economic implications for agriculture and horticulture. Their causes include a wide range of organisms as fungi, bacteria, mycoplasmas and viruses. The majority of canker-causing organisms are bound to a unique host species or genus, but a few will attack other plants. Weather and animal damage can also cause stress to the plant resulting in cankers. Other causes of cankers is pruning when the bark is wet or using un-sterilized tools.

Ophiognomonia clavigignenti-juglandacearum is a mitosporic fungus that causes the butternut canker, a lethal disease of butternut trees. It is also known to parasitize other members of the genus Juglans on occasion, and very rarely other related trees including hickories. The fungus is found throughout North America, occurring on up to 91% of butternut trees, and may be threatening the viability of butternut as a species.

<span class="mw-page-title-main">Beech bark disease</span> Disease of beech trees

Beech bark disease is a disease that causes mortality and defects in beech trees in the eastern United States, Canada and Europe. In North America, the disease occurs after extensive bark invasion by Xylococculus betulae and the beech scale insect, Cryptococcus fagisuga. Through a presently unknown mechanism, excessive feeding by this insect causes two different fungi to produce annual cankers on the bark of the tree. The continuous formation of lesions around the tree eventually girdles it, resulting in canopy death. In Europe, N. coccinea is the primary fungus causing the infection. Infection in European trees occurs in the same manner as it does in North American trees. Though the disease still appears in Europe, it is less serious today than it once was.

Ophiostoma ulmi is a species of fungus in the family Ophiostomataceae. It is one of the causative agents of Dutch elm disease. It was first described under the name Graphium ulmi, and later transferred to the genus Ophiostoma.

Monilinia fructicola is a species of fungus in the order Helotiales. A plant pathogen, it is the causal agent of brown rot of stone fruits.

Ophiostoma novo-ulmi is a species of fungus in the family Ophiostomataceae. It is one of the key causative agents associated with Dutch Elm Disease (DED), along with Ophiostoma ulmi and Ophiostoma himal-ulmi.

The plant pathogenic fungus Leucostoma kunzei is the causal agent of Leucostoma canker, a disease of spruce trees found in the Northern Hemisphere, predominantly on Norway spruce and Colorado blue spruce. This disease is one of the most common and detrimental stem diseases of Picea species in the northeastern United States, yet it also affects other coniferous species. Rarely does it kill its host tree; however, the disease does disfigure by killing host branches and causing resin exudation from perennial lesions on branches or trunks.

Rhagoletis juglandis, also known as the walnut husk fly, is a species of tephritid or fruit fly in the family Tephritidae. It is closely related to the walnut husk maggot Rhagoletis suavis. This species of fly belongs to the R. suavis group, which has a natural history consistent with allopatric speciation. The flies belonging to this group are morphologically distinguishable.

Thousand cankers disease (TCD) is a recently recognized disease of certain walnuts. The disease results from the combined activity of the walnut twig beetle and a canker producing fungus, Geosmithia morbida. Until July 2010 the disease was only known to the western United States where over the past decade it has been involved in several large scale die-offs of walnut, particularly black walnut, Juglans nigra. However, in late July 2010 a well-established outbreak of the disease was found in the Knoxville, Tennessee, area. This new finding is the first locating it within the native range of its susceptible host, black walnut. In 2013, an outbreak was found in the Veneto region of Italy, where the disease has been found on both black walnut and English walnut.

Forest pathology is the research of both biotic and abiotic maladies affecting the health of a forest ecosystem, primarily fungal pathogens and their insect vectors. It is a subfield of forestry and plant pathology.

Fusarium circinatum is a fungal plant pathogen that causes the serious disease pitch canker on pine trees and Douglas firs. The most common hosts of the pathogen include slash pine, loblolly pine, Monterey pine, Mexican weeping pine, and Douglas fir. Like other Fusarium species in the phylum Ascomycota, it is the asexual reproductive state of the fungus and has a teleomorph, Gibberella circinata.

Geosmithia is a genus of anamorphic fungi of uncertain familial placement in the order Hypocreales. The genus, circumscribed by Australian mycologist John Pitt in 1979, is widely distributed. A 2008 estimate placed ten species in the genus, but several new species have since been described. Thousand cankers disease, which affects economically important black walnut populations in North America, is caused by Geosmithia morbida.

Geosmithia morbida is a species of anamorphic fungus in the Bionectriaceae family that, together with the activity of the walnut twig beetle, causes thousand cankers disease in species of walnut trees. It was described as new to science in 2010 from specimens collected in the southern United States. The fungus, transmitted by the walnut twig beetle, Pityophthorus juglandis, is known from the western USA from California to Colorado. The cankers resulting from infection restrict nutrient flow and typically kill the host tree within three to four years. Based on closeness of internal transcribed spacer DNA, the closest relative of G. morbida is G. fassatiae. The specific epithet morbida refers to the deadly pathogenic effect it has on its host.

The foamy bark canker is a disease affecting oak trees in California caused by the fungus Geosmithia sp. #41 and spread by the Western oak bark beetle. This disease is only seen through the symbiosis of the bark beetles and the fungal pathogen. The bark beetles target oak trees and bore holes through the peridermal tissues, making tunnels within the phloem. The fungal spores are brought into these tunnels by the beetles and begin to colonize the damaged cells inside the tunnels. Symptoms of the developing fungus include wet discoloration seeping from the beetle entry holes as the fungus begins to consume phloem and likely other tissues. If bark is removed, necrosis of the phloem can be observed surrounding the entry hole(s). As the disease progresses, a reddish sap and foamy liquid oozes from entry holes, thus giving the disease the name foamy bark canker. Eventually, after the disease has progressed, the tree dies. This disease is important because of its detrimental effects on oak trees and its ability to spread to several new Californian counties in just a couple of years.

Species which are not native to a forest ecosystem can act as an agent of disturbance, changing forest dynamics as they invade and spread. Invasive insects and pathogens (diseases) are introduced to the United States through international trade, and spread through means of natural and human-dispersal. Invasive insects and pathogens are a serious threat to many forests in the United States and have decimated populations of several tree species, including American chestnut, American elm, eastern hemlock, whitebark pine, and the native ash species. The loss of these tree species is typically rapid with both short and long-term impacts to the forest ecosystem.

Cypress canker is a disease affecting Cupressus species, caused by one of several species of fungus in the genus Seiridium. Infection causes die-back of twigs and branches in susceptible cypress trees, with rapidly increasing amounts of damage and the death of the tree.

References

1 2 3 4 5 6 7 8 Freeland, E.; Kolarik, M.; Utley, C.; et al. (March 2011). "Geosmithia morbida sp. nov., a new phytopathogenic species living in symbiosis with the walnut twig beetle (Pityophthorus juglandis) on Juglans in USA". Mycologia. 103 (2): 325–332. doi:10.3852/10-124. PMID 20943528. S2CID 35496500.
1 2 3 Utley, C (Spring 2013). "The Biology of Geosmithia morbida and Susceptibility of Walnut and Hickory Species to Thousand Cankers Disease" (PDF). Colorado State University, Department of Bioagricultural Sciences and Pest Management. Retrieved October 16, 2013.
1 2 3 4 Alexander, K.; Cranshaw, W.; Leatherman, D.; Tisserat, N; Utley, C. (2009). "Black walnut mortality in Colorado caused by the walnut twig beetle and thousand cankers disease". Plant Health Progress.
↑ Aukema, B.; Bentz B.; Carroll A.; Hicke J.; Raffa K.; Romme W.; Turner M (2008). "Cross-scale Drivers of Natural Disturbances Prone to Anthropogenic Amplification: The Dynamics of Bark Beetle Eruptions". BioScience. 58 (6): 501–507. doi: 10.1641/b580607 .
1 2 Hulcr Vol. 55, No. 1, pp. 65-80, January 2008., J.; Kolařík M.; Kubátová A.; Pažoutová S. (January 2008). "Geosmithia Fungi Are Highly Diverse and Consistent Bark Beetle Associates: Evidence from Their Community Structure in Temperate Europe". Microbial Ecology. 55 (1): 65–80. Bibcode:2008MicEc..55...65K. doi:10.1007/s00248-007-9251-0. PMID 17940820. S2CID 32667783.{{cite journal}}: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)
↑ Eshenaur, B.; Hartman J. "Dutch Elm Disease" (PDF). Dept. of Agriculture, Kentucky State University. Archived from the original (PDF) on 1970-01-01. Retrieved October 3, 2013.
↑ Westen, L. (July–September 2005). "History and Current Trends in the Use of Allelopathy for Weed Management". HortTechnology. Department of Horticulture, Cornell University. 15 (3): 529–534. doi: 10.21273/HORTTECH.15.3.0529 .
1 2 3 4 Simmons, M. "Thousand Cankers Disease Hits ET". Knoxville News Sentinel. Archived from the original on 1970-01-01. Retrieved October 1, 2013.

Data related to Pityophthorus juglandis at Wikispecies

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[freeland-1] 1 2 3 4 5 6 7 8 Freeland, E.; Kolarik, M.; Utley, C.; et al. (March 2011). "Geosmithia morbida sp. nov., a new phytopathogenic species living in symbiosis with the walnut twig beetle (Pityophthorus juglandis) on Juglans in USA". Mycologia. 103 (2): 325–332. doi:10.3852/10-124. PMID 20943528. S2CID 35496500.

[utley-2] 1 2 3 Utley, C (Spring 2013). "The Biology of Geosmithia morbida and Susceptibility of Walnut and Hickory Species to Thousand Cankers Disease" (PDF). Colorado State University, Department of Bioagricultural Sciences and Pest Management. Retrieved October 16, 2013.

[Alexander-3] 1 2 3 4 Alexander, K.; Cranshaw, W.; Leatherman, D.; Tisserat, N; Utley, C. (2009). "Black walnut mortality in Colorado caused by the walnut twig beetle and thousand cankers disease". Plant Health Progress.

[Aukema-4] Aukema, B.; Bentz B.; Carroll A.; Hicke J.; Raffa K.; Romme W.; Turner M (2008). "Cross-scale Drivers of Natural Disturbances Prone to Anthropogenic Amplification: The Dynamics of Bark Beetle Eruptions". BioScience. 58 (6): 501–507. doi: 10.1641/b580607 .

[hulcr-5] 1 2 Hulcr Vol. 55, No. 1, pp. 65-80, January 2008., J.; Kolařík M.; Kubátová A.; Pažoutová S. (January 2008). "Geosmithia Fungi Are Highly Diverse and Consistent Bark Beetle Associates: Evidence from Their Community Structure in Temperate Europe". Microbial Ecology. 55 (1): 65–80. Bibcode:2008MicEc..55...65K. doi:10.1007/s00248-007-9251-0. PMID 17940820. S2CID 32667783.{{cite journal}}: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)

[Eshenaur-6] Eshenaur, B.; Hartman J. "Dutch Elm Disease" (PDF). Dept. of Agriculture, Kentucky State University. Archived from the original (PDF) on 1970-01-01. Retrieved October 3, 2013.

[westen-7] Westen, L. (July–September 2005). "History and Current Trends in the Use of Allelopathy for Weed Management". HortTechnology. Department of Horticulture, Cornell University. 15 (3): 529–534. doi: 10.21273/HORTTECH.15.3.0529 .

[simmons-8] 1 2 3 4 Simmons, M. "Thousand Cankers Disease Hits ET". Knoxville News Sentinel. Archived from the original on 1970-01-01. Retrieved October 1, 2013.

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