Botryosphaeria corticola

Last updated

Botryosphaeria corticola
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Fungi
Division: Ascomycota
Class: Dothideomycetes
Order: Botryosphaeriales
Family: Botryosphaeriaceae
Genus: Botryosphaeria
Species:
B. corticola
Binomial name
Botryosphaeria corticola
(A.J.L. Phillips, A. Alves & J. Luque) (2004)
Synonyms

Diplodia corticola

Bot canker of oak is a disease on stems, branches and twigs of oak trees in Europe and North America. The casual agent of Bot canker of oak is the fungus Botryosphaeria corticola. Bot canker of oak causes lesions and cankers on a wide range of oaks in Europe and most recently live oaks in North America. Some infections were formerly attributed to Botryosphaeria stevensii, but most likely represent infections by Botryosphaeria corticola. [1] Botryosphaeria corticola is distinguishable from Botryosphaeria stevensii via ITS rDNA sequencing.

Contents

Overview

Botryosphaeria corticola has caused infection of oak trees in Spain, [2] Portugal, [3] Morocco, [4] Italy, [5] Greece, [6] Hungary, [7] and the United States. [8] [9] [10] Bot canker of oak kills trees in natural forests as well as in cork plantations. The cork industry in Portugal, Spain, France, Italy, and Morocco has been dealing with declining oaks for several years from biotic and abiotic factors. [11] This disease has been seen in many cork plantations and is the most important contributor to the decline in the cork industry. [1] When cork is harvested from the trees, the cork cambium is exposed creating a wound for the fungus to enter the trunk, and cause disease. Infection of other oaks is most likely through wounds as well. These wounds may be natural wounds, but there is evidence insect damage is involved, especially in coast live oak in California. [9] Botryosphaeria corticola infects the twigs, branches and stems of oaks and degrades the cambial tissues. With the degradation of vascular tissues, the trees display wilting and dieback symptoms.

Hosts

Europe/North Africa

North America

Management

Botryosphaeria corticola can be managed in high value trees, but there is no current management for forest trees. Carbendazim and thiophanate-methyl have shown to prevent infection in cork oak in Europe, where it is applied after cork has been harvested. Sanitation is the most common management technique for this disease. [13] Branches with diseased tissue are pruned off, and heavily infected trees are removed. This prevents future infections by limiting the amount of spores in the area.

Description

Botryosphaeria corticola (Diplodia corticola) is a ascomycete fungus. It has both asexual (Diplodia corticola) and sexual reproduction (Botryosphaeria corticola) stages occurring naturally. [1]

The asexual spores (conidia) occur in pycnidia from conidiogenous cells, without conidiophores. Pycnidia are dark brown to black, circular, immersed, partially erumpent and up to 1 mm diameter.

The sexual spores are eight biseriate ascospores occur inside of asci occur in immersed, partially erumpent, dark brown to black pseudothecia, up to 1 mm in diameter.

Related Research Articles

<span class="mw-page-title-main">Chestnut blight</span> Fungus disease of chestnut trees

The pathogenic fungus Cryphonectria parasitica is a member of the Ascomycota. This necrotrophic fungus is native to East Asia and South East Asia and was introduced into Europe and North America in the early 1900s. Strains of the fungus spread more or less rapidly and caused significant tree loss in both regions. Strains of the fungus can be more or less virulent.

<i>Quercus suber</i> Species of plant

Quercus suber, commonly called the cork oak, is a medium-sized, evergreen oak tree in the section Quercus sect. Cerris. It is the primary source of cork for wine bottle stoppers and other uses, such as cork flooring and as the cores of cricket balls. It is native to southwest Europe and northwest Africa. In the Mediterranean basin the tree is an ancient species with fossil remnants dating back to the Tertiary period. It can survive for as long as two centuries. Typically, once it reaches 25 years old, its thick bark can be harvested for cork every 9 to 12 years without causing harm to the tree.

<span class="mw-page-title-main">Live oak</span> Index of plants with the same common name

Live oak or evergreen oak is any of a number of oaks in several different sections of the genus Quercus that share the characteristic of evergreen foliage. These oaks are generally not more closely related to each other than they are to other oaks. When the term live oak is used in a specific rather than general sense, it most commonly refers to the group of species under Quercus sect. Virentes, which includes the southern live oak, the first species so named, and an icon of the Old South.

<i>Quercus agrifolia</i> Evergreen oak tree native to California

Quercus agrifolia, the California live oak, or coast live oak, is an evergreen live oak native to the California Floristic Province. Live oaks are so-called because they keep living leaves on the tree all year, adding young leaves and shedding dead leaves simultaneously rather than dropping dead leaves en masse in the autumn like a true deciduous tree. Coast live oaks may be shrubby, depending on age and growing location, but is generally a medium-sized tree. It grows west of the Sierra Nevada mountain range from Mendocino County, California, south to northern Baja California in Mexico. It is classified in the red oak section of oaks.

<i>Quercus douglasii</i> Species of oak tree

Quercus douglasii, known as blue oak, is a species of oak endemic to California, common in the Coast Ranges and the foothills of the Sierra Nevada. It is California's most drought-tolerant deciduous oak, and is a dominant species in the blue oak woodland ecosystem. It is occasionally known as mountain oak and iron oak.

<span class="mw-page-title-main">Oak wilt</span> Plant disease

Oak wilt is a fungal disease caused by the organism Bretziella fagacearum that threatens Quercus spp. The disease is limited to the eastern half of the United States, and Southern Ontario. First described in the 1940s in the Upper Mississippi River Valley. The pathogen penetrates xylem tissue, preventing water transport and causing disease symptoms. Symptoms generally consist of leaf discoloration, wilt, defoliation, and death. The disease is dispersed by insect vectors and to adjacent trees through underground root networks. However, human spread is the most consequential dispersal method. Moving firewood long distances can potentially transport diseases and invasive species.

<i>Phytophthora cinnamomi</i> Species of single-celled organism

Phytophthora cinnamomi, also known as cinnamon fungus, is a soil-borne water mould that produces an infection which causes a condition in plants variously called "dieback", "root rot", or, "ink disease".

<span class="mw-page-title-main">California mixed evergreen forest</span> Plant community in California and Oregon, US

California mixed evergreen forest is a plant community found in the mountain ranges of California and southwestern Oregon.

<span class="mw-page-title-main">Diplodia tip blight</span> Fungal disease of conifers

Diplodia tip blight, also known as Sphaeropsis blight, is a widespread disease affecting conifers caused by an opportunistic fungal pathogen, Diplodia sapinea. It is found in “both hemispheres between the latitudes 30° and 50° north and south". The diseases symptoms include: damping off and collar rot of seedlings, stem canker, root disease, and, most commonly, shoot blight. These symptoms have caused significant economic loss to nurseries and pine plantations. In a nursery in the north-central United States, losses of 35% have been reported. Shoot blight and eventual die back can cause a reduction of marketable volume in timber by 63%. Infection of terminal shoots can result in dead-top which significantly limits the usable length of the tree trunk. The presence of the pathogen in concert with severe weather conditions can lead to extreme loss. Following a severe hailstorm in South Africa, nearly 5,000 acres of pine plantation were infected with Diplodia tip blight. It was necessary to prematurely harvest large swaths of the plantations resulting in a loss of 45%. Areas that were not harvested prematurely still suffered an average timber loss of 11%.

<i>Quercus chrysolepis</i> Species of oak tree

Quercus chrysolepis, commonly termed canyon live oak, canyon oak, golden cup oak or maul oak, is a North American species of evergreen oak that is found in Mexico and in the western United States, notably in the California Coast Ranges. This tree is often found near creeks and drainage swales growing in moist cool microhabitats. Its leaves are a glossy dark green on the upper surface with prominent spines; a further identification arises from the leaves of canyon live oak being geometrically flat.

<i>Botryosphaeria dothidea</i> Species of fungus

Botryosphaeria dothidea is a plant pathogen that causes the formation of cankers on a wide variety of tree and shrub species. It has been reported on several hundred plant hosts and on all continents except Antarctica. B. dothidea was redefined in 2004, and some reports of its host range from prior to that time likely include species that have since been placed in another genus. Even so, B. dothidea has since been identified on a number of woody plants—including grape, mango, olive, eucalyptus, maple, and oak, among others—and is still expected to have a broad geographical distribution. While it is best known as a pathogen, the species has also been identified as an endophyte, existing in association with plant tissues on which disease symptoms were not observed. It can colonize some fruits, in addition to woody tissues.

<i>Botryosphaeria obtusa</i> Species of fungus

Botryosphaeria obtusa is a plant pathogen that causes frogeye leaf spot, black rot and cankers on many plant species. On the leaf it is referred to as frogeye leaf spot; this phase typically affects tree and shrubs. In fruit such as the apple, cranberry and quince, it is referred to as black rot, and in twigs and trunks it causes cankers.

<i>Nectria cinnabarina</i> Fungal plant pathogen

Nectria cinnabarina, also known as coral spot, is a plant pathogen that causes cankers on broadleaf trees. This disease is polycyclic and infects trees in the cool temperate regions of the Northern Hemisphere. N. cinnabarina is typically saprophytic, but will act as a weak parasite if presented with an opportunity via wounds in the tree or other stressors that weaken the tree's defense to the disease. A study published in 2011 showed that this complex consists of at least 4 distinct species. There are only a few ways to manage this disease with techniques such as sanitation and pruning away branches that have the cankers. N. cinnabarina is not as significant a problem as other Nectria spp., some of which are the most important pathogens to infect hardwood trees.

<i>Botryosphaeria stevensii</i> Species of fungus

Botryosphaeria stevensii is a fungal plant pathogen that causes cankers on several tree species including apple and juniper as well as causing cankers on grape vines. It causes branch dieback, possibly affecting a large portion of the tree canopy, and if severe it can kill entire plants.

<i>Lasiodiplodia theobromae</i> Species of fungus

Lasiodiplodia theobromae is a plant pathogen with a very wide host range. It causes rotting and dieback in most species it infects. It is a common post harvest fungus disease of citrus known as stem-end rot. It is a cause of bot canker of grapevine. It also infects Biancaea sappan, a species of flowering tree also known as Sappanwood.

<i>Botryosphaeria ribis</i> Species of fungus

Botryosphaeria ribis is a fungal plant pathogen that infects many trees causing cankers, dieback and death.

<i>Phytophthora kernoviae</i> Species of oomycete

Phytophthora kernoviae is a plant pathogen that mainly infects European beech and Rhododendron ponticum. It was first identified in 2003 in Cornwall, UK when scientists were surveying for the presence of Phytophthora ramorum. This made it the third new Phytophthora species to be found in the UK in a decade. It was named Phytophthora kernoviae after the ancient name for Cornwall, Kernow. It causes large stem lesions on beech and necrosis of stems and leaves of Rhododendron ponticum. It is self-fertile. It has also been isolated from Quercus robur and Liriodendron tulipifera. The original paper describing the species, stated it can infect Magnolia and Camellia species, Pieris formosa, Gevuina avellana, Michelia doltsopa and Quercus ilex. Since then many other plants have been identified as natural hosts of the pathogen. Molecular analysis has revealed that an infection on Pinus radiata, recorded in New Zealand in 1950, was caused by P. kernoviae. The pathogen was also noted on Drimys winteri, Gevuina avellana, Ilex aquifolium, Quercus ilex, Vaccinium myrtillus, Hedera helix, Podocarpus salignas.

Grapevine trunk diseases (GTD) are the most destructive diseases of vineyards worldwide. Fungicides with the potential to control GTD have been banned in Europe and there are no highly effective treatments available. Action to develop new strategies to fight these diseases are needed.

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.

Diplodia corticolaa is a species of anamorphic fungus in the family Botryosphaeriaceae.

References

  1. 1 2 3 Alves, A., Correia, A., Luque, J. and Phillips, A., 2004. Botryosphaeria corticola, sp. nov. on Quercus species, with notes and description of Botryosphaeria stevensii and its anamorph, Diplodia mutila. Mycologia 96: 598–613.
  2. 1 2 Luque J and Girbal, J. 1989. Dieback of cork oak (Quercus suber) in Catalonia (NE Spain) caused by Botryosphaeria stevensii. European Journal of Forest Pathology 19:7–13.
  3. 1 2 Santos, M. N. S. 1995. Phytopathological situation of cork oak (Quercus suber L.) in Portugal.IOBC⁄WPRS Bull. 18: 38–42.
  4. El-Badri, N. and Abadie, M. 2000 and in Algeria (Smahi et al., 2017). Observations on the dynamic of Diplodia mutila Fr. apud Mont. development on the cork-oak, Quercus suber L., in Morocco. Cryptogamic Mycology 21: 235–248.
  5. Franceschini, A., Corda, P., addau, L. and Marras, F. 1999. Observations sur Diplodia mutila, pathoge`ne du cheˆne-lie`ge en Sardaigne. IOBC⁄WPRS Bull. 22, 5–12.
  6. 1 2 Tsopelas, P., Slippers, B., Gonou-Zagou, Z. and Wingfield, M.J. 2009. First report of Diplodia corticola in Greece on kermes oak (Quercus coccifera). New Disease Reporter 20: 11.
  7. 1 2 Vajna L. 1986. Branch canker and dieback of sessile oak (Quercus petraea) in Hungary caused by Diplodia mutila I. Identification of the pathogen. European Journal of Forest Pathology 16:223–229.
  8. 1 2 3 Urbez-Torres, Peduto, F., Rooney-Lantham, S. and Gubler, W.D. 2010. First report of Diplodia corticola causing grapevine (Vitis vinifera) cankers and trunk cankers and dieback of canyon live oak (Quercus chrysolepis) in California. Plant Disease 94(6): 785.
  9. 1 2 3 Lynch, S.C., Eskalen, A., Zambino, P.J. and Scott, T. 2010. First report of Bot canker disease caused by Diplodia corticola on coast live oak (Quercus agrifolia) in California. Plant Disease Posted online on 13 Oct 2010, First Look.
  10. 1 2 3 Smith, J.A., personal communication, Feb. 2010.
  11. Brasier, C.M. 1996. Phytophthora cinnamomi and oak decline in southern Europe. Environmental constraints including climate change. Ann Sci For 53:347–358.
  12. First Report of Diplodia corticola Causing Dieback of White Oak (Quercus alba) in Tennessee. A. J. Onufrak, M. A. Ony, M. E. Odoi, C. J. Dugger, G. M. Pietsch, E. F. Phillips, J. F. Grant, W. E. Klingeman III, and D. Hadziabdic. Plant Disease 2022 106:12, 3203
  13. Luque, J., Pera, J. and Parlade, J. 2007. Evaluation of fungicides for the control of Botryosphaeria corticola on cork oak in Catalonia (NE Spain). Forest Pathology 38: 147-155.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.