Cryphalus mangiferae

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Cryphalus mangiferae
Cryphalus mangiferae (10.3897-zookeys.995.55981) Figure 12.jpg
Cryphalus mangiferae A, C, E, G, H female, B, D, F, H, I male
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Coleoptera
Infraorder: Cucujiformia
Family: Curculionidae
Genus: Cryphalus
Species:
C. mangiferae
Binomial name
Cryphalus mangiferae
Stebbing, 1914 [1] [2]
Synonyms
  • Hypocryphalus mangiferae [1]

Cryphalus mangiferae, the mango bark beetle, is a tiny tropical bark beetle which attacks mango trees (Mangifera indica). The species belongs to the family Curculionidae, subfamily Scolytinae. It is often cited as a vector of plant pathogenic fungi infecting mango trees and in some countries like Pakistan it is regarded as a serious threat to mango cultivation. [3]

Contents

Distribution

C. mangiferae has been first described from India and is widely distributed in tropical regions, that is southern Asia, Oceania, Australia, Africa and Central/South America, including the Caribbean. [2] [4] It is believed to be native to southern Asia and introduced into agricultural areas in other tropical regions. See the Bark and Ambrosia Beetles of North and Central America for a complete list of distribution records.

Biology

Like other members of the genus Cryphalus, the adults of C. mangiferae are tiny, only 1.6–2.2 mm long and about 2.2x longer than wide. C. mangiferae can be distinguished from other species of this genus "by the frons with a finely aciculate texture, the pronotal disc which is long, and has coarse hair-like setae, the elytral striae which are barely impressed but apparent by the rows without ground vestiture, and by the shape of ground vestiture which have tapered tips." [2] While mango is the most important host tree, infestations have been also recorded from other tree hosts in the family Anacardiaceae like Choerospondias axillaris . [2] [4]

On mango, mainly stressed or diseased trees are attacked, less often healthy trees. The females lay eggs under the bark and these hatch after 4–5 days. The larvae feed under the inner bark, forming irregular galleries. There are 5 larval stages and the whole development from egg to adult is completed in about 4 weeks. After emerging from the pupae, the adults still spend about 2 weeks under the bark, during which time they mature, feed and complete the sclerotization of their cuticle. There are 3–4 overlapping generations per year. [5]

Disease transmission

Cryphalus mangiferae is often associated with wilting mango trees infected by species of plant-pathogenic fungi from the genus Ceratocystis . [6] [5] [3] [7] [8] [9] [10] Bark beetles are often vectors of plant diseases and have special structures for carrying symbiotic fungi called mycangia. The associated fungal disease has been called 'mango wilt' or 'mango sudden decline' and is found in Pakistan, Oman and Brazil. [8]

The symptoms of mango wilt have been described as branch death, wilting foliage and bark discoloration. [8] Mango trees may die from the disease within a few months. [9] The disease has been most frequently attributed to infections by the fungus Ceratocystis fimbriata , a common plant pathogen involved in diseases of various crops and trees. However, in Pakistan and Oman a new but closely related Ceratocystis species, Ceratocystis manginecans, has been described in 2007 as being associated with Cryphalus mangiferae and as the causal agent of mango wilt. [6] The phylogenetic relationship between Ceratocystis fimbriata, Ceratocystis manginecans and 3 other closely related species of Ceratocystis associated with mango diseases has been subsequently studied on more than 200 isolates. These studies suggested that mango wilt is caused by different genotypes of Ceratocystis fimbriata rather than a complex of closely related species. [8]

Related Research Articles

Ambrosia beetles are beetles of the weevil subfamilies Scolytinae and Platypodinae, which live in nutritional symbiosis with ambrosia fungi. The beetles excavate tunnels in dead or stressed trees into which they introduce fungal gardens, their sole source of nutrition. After landing on a suitable tree, an ambrosia beetle excavates a tunnel in which it releases its fungal symbiont. The fungus penetrates the plant's xylem tissue, extracts nutrients from it, and concentrates the nutrients on and near the surface of the beetle gallery. Ambrosia fungi are typically poor wood degraders, and instead utilize less demanding nutrients. Symbiotic fungi produce and detoxify ethanol, which is an attractant for ambrosia beetles and likely prevents growth of antagonistic pathogens and selects for other beneficial symbionts. The majority of ambrosia beetles colonize xylem of recently dead trees, but some colonize stressed trees that are still alive, and a few species attack healthy trees. Species differ in their preference for different parts of trees, different stages of deterioration, and in the shape of their tunnels ("galleries"). However, the majority of ambrosia beetles are not specialized to any taxonomic group of hosts, unlike most phytophagous organisms including the closely related bark beetles. One species of ambrosia beetle, Austroplatypus incompertus exhibits eusociality, one of the few organisms outside of Hymenoptera and Isoptera to do so.

<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.

<i>Cryphalus</i> Genus of beetles

Cryphalus is a large genus of tiny bark beetles, subfamily Scolytinae, tribe Cryphalini in the family Curculionidae. The genus is widely distributed. The species feed and breed under the inner bark of trees. They infest mainly recently dead, dying or stressed trees. Some species are regarded as invasive pests, harmful to agriculture or forestry.

<i>Ceratocystis fimbriata</i> Species of fungus

Ceratocystis fimbriata is a fungus and a plant pathogen, attacking such diverse plants as the sweet potato and the tapping panels of the Para rubber tree. It is a diverse species that attacks a wide variety of annual and perennial plants. There are several host-specialized strains, some of which, such as Ceratocystis platani that attacks plane trees, are now described as distinct species.

<i>Xyleborus glabratus</i> Species of beetle

Xyleborus glabratus, the redbay ambrosia beetle, is a type of ambrosia beetle invasive in the United States. It has been documented as the primary vector of Raffaelea lauricola, the fungus that causes laurel wilt, a disease that can kill several North American tree species in the family Lauraceae, including redbay, sassafras, and avocado.

<i>Scolytus</i> Genus of beetles

Scolytus is a genus of bark beetles. It includes several species notorious for destroying trees in the forests. The Dutch elm disease is spread in North America by two species : the native elm bark beetle, Hylurgopinus rufipes, and the European elm bark beetle, Scolytus multistriatus. In Europe, while the aforementioned Scolytus multistriatus again acts as vector for infection, it is much less effective than the large elm bark beetle Scolytus scolytus.

<span class="mw-page-title-main">European spruce bark beetle</span> Species of beetle

The European spruce bark beetle, is a species of beetle in the weevil subfamily Scolytinae, the bark beetles, and is found from Europe to Asia Minor and some parts of Africa.

<i>Hylastes ater</i> Species of beetle

Hylastes ater is a species of beetle in the family Curculionidae, the true weevils. It is a bark beetle, a member of the subfamily Scolytinae. Its common name is the black pine bark beetle. It is native to Europe and parts of Asia, including China and Korea. It is known as an introduced species in many other regions, including Australia, New Zealand, the Americas, and South Africa. It is a pest of pines and other trees, and it is widespread in areas where pine trees are cultivated. The species "is an important threat to the biosecurity of all forested countries."

<i>Ips</i> (beetle) Genus of beetles

Ips is a genus of beetles in the family Curculionidae, the true weevils. They are bark beetles, members of the subfamily Scolytinae. Species are distributed throughout the Northern Hemisphere. Some are known as introduced species in Australia and Africa. Many species are pests of forest trees, especially pines and spruces. They are known commonly as engraver beetles, ips engraver beetles, and pine engravers.

<i>Euwallacea fornicatus</i> Species of beetle

Euwallacea fornicatus, also known as tea shot-hole borer, or polyphagous shot-hole borer (PSHB) is a species complex consisting of multiple cryptic species of ambrosia beetles known as an invasive species in California, Israel, South Africa, and Australia. The species has also been unintentionally introduced into exotic greenhouses in several European countries.

Euplatypus parallelus, previously known as Platypus parallelus, is a species of ambrosia beetle in the weevil family Curculionidae. The adults and larvae form galleries in various species of tree and logs. It is native to Central and South America but has spread globally, is present in Africa and is well established in tropical Asia.

<i>Dryocoetes</i> Genus of beetles

Dryocoetes is a genus of beetles belonging to the family Curculionidae, in the subfamily Scolytinae.

<i>Euwallacea interjectus</i> Species of beetle

Euwallacea interjectus is a species of Euwallacea fornicatus beetle native to Asia but has been introduced to the Western hemisphere over the last century.

Euwallacea perbrevis, commonly known as tea shot-hole borer, is a species of weevil native to South and South-East Asia through to Australia, but introduced to Western countries.

Ambrosiella roeperi is the fungal symbiont of the granulate ambrosia beetle, Xylosandrus crassiusculus, facilitating this insect’s capacity to accumulate on and damage a diverse array of woody plants from around the world. It is one of several important nutritional partners derived from order Microascales that sustain and are transported by xylomycetophagous scolytine beetles.

<i>Cryphalus dilutus</i> Species of beetle

Cryphalus dilutus, the spurred bark beetle, is a tropical and subtropical bark beetle which attacks fig and mango trees causing dieback. It belongs to the family Curculionidae, subfamily Scolytinae.

<i>Cryphalus piceae</i> Species of beetle

Cryphalus piceae, the small fir bark beetle, is a tiny bark beetle, about 1.7 mm long that is found in central and southern Europe. It infests mainly fir (Abies) and spruce trees (Picea) and occasionally can cause damage to branches and young trees, including tree death.

<i>Cryphalus saltuarius</i> Species of beetle

Cryphalus saltuarius - Cryphalus asperatus is a small bark beetle, around 1.8 mm long, that infests mainly spruce trees (Picea), less often other conifers. It has been recorded mainly from northern Europe and is occasionally regarded as a secondary pest. However, it attacks primarily weakened and freshly dead branches of its host trees.

<i>Cryphalus abietis</i> Species of beetle

Cryphalus abietis is a small bark beetle, around 1.6 mm long, that is widely distributed in Europe. It infests mainly spruce trees (Picea), but also other conifers. Like closely related species, e.g. Cryphalus saltuarius, C. abietis attacks primarily weakened and freshly dead branches of its host trees, and usually does not kill trees.

<i>Cryphalus dorsalis</i> Species of beetle

Cryphalus dorsalis is a small bark beetle, 1.60–1.90 mm long and found in southern parts of Asia with a distribution range from India in the west to Java (Indonesia), the Philippines and southern China in the east. Little information is available on its biology, even on its host plants. In a detailed re-description of the species based on light trap material and specimens without host plant records, Johnson et al. (2020) mentioned that fir (Abies) has been cited as a host plant in one publication which recorded it from Hainan Island (China) where Abies does not grow.

References

  1. 1 2 Johnson, Andrew J.; Knížek, Miloš; Atkinson, Thomas H.; Jordal, Bjarte H.; Ploetz, Randy C.; Hulcr, Jiri (2017). "Resolution of a global mango and fig pest identity crisis". Insect Systematics and Diversity. 1 (2). doi:10.1093/isd/ixx010.
  2. 1 2 3 4 Johnson, Andrew J.; Li, You; Mandelshtam, Michail Yu.; Park, Sangwook; Lin, Ching-Shan; Gao, Lei; Hulcr, Jiri (2020). "East Asian Cryphalus Erichson (Curculionidae, Scolytinae): new species, new synonymy and redescriptions of species". ZooKeys (995 (art. 55981)). doi: 10.3897/zookeys.995.55981 .
  3. 1 2 Masood, Asad; Saeed, Shafqat; Erbilgin, Nadir; Kwon, Yong Jung (2010). "Role of stressed mango host conditions in attraction of and colonization by the mango bark beetle Hypocryphalus mangiferae Stebbing (Coleoptera: Curculionidae: Scolytinae) and in the symptom development of quick decline of mango trees in Pakistan". Entomological Research. 40 (6): 316–327. doi:10.1111/j.1748-5967.2010.00304.x.
  4. 1 2 "Cryphalus mangiferae Stebbing 1914 (introduced)". Bark and Ambrosia Beetles of North and Central America. Retrieved 5 January 2024.
  5. 1 2 Masood, Asad; Saeed, Shafqat; Sajjad, Asif; Ali, Mudssar (2009). "Life cycle and biology of mango bark beetle, Hypocryphalus mangiferae (Stebbing), a possible vector of mango sudden death disease in Pakistan" (PDF). Pakistan Journal of Zoology. 41 (4): 281–288.
  6. 1 2 van Wyk, Marelize; Al Adawi, Ali O.; Khan, Iqrar A.; Deadman, Michael L.; Al Jahwari, Abdullah. A.; Wingfield, Brenda D.; Ploetz, Randy; Wingfield, Michael J. (2007). "Ceratocystis manginecans sp. nov., causal agent of a destructive mango wilt disease in Oman and Pakistan" (PDF). Fungal Diversity. 27: 213–230.
  7. Al Adawi, A.O.; Al Jabri, R.M.; Deadman, M.L.; Barnes, I.; Wingfield, B.; Wingfield, M.J. (2013). "The mango sudden decline pathogen, Ceratocystis manginecans, is vectored by Hypocryphalus mangiferae (Coleoptera: Scolytinae) in Oman". European Journal of Plant Pathology. 135 (2): 243–251. doi:10.1007/s10658-012-0081-7. hdl: 2263/19760 .
  8. 1 2 3 4 Oliveira, Leonardo S.S.; Harrington, Thomas C.; Ferreira, Maria A.; Damacena, Michelle B.; Al-Sadi, Abdullah M.; Al-Mahmooli, Issa H.S.; Alfenas, Acelino C. (2015). "Species or genotypes? Reassessment of four recently described species of the Ceratocystis wilt pathogen, Ceratocystis fimbriata, on Mangifera indica". Phytopathology. 105 (9): 1229–1244. doi: 10.1094/PHYTO-03-15-0065-R .
  9. 1 2 da Silva Galdino, Tarcísio Visintin; Kumar, Sunil; Oliveira, Leonardo S.S.; Alfenas, Acelino C.; Neven, Lisa G.; Al-Sadi, Abdullah M.; Picanço, Marcelo C. (2016). "Mapping global potential risk of mango sudden decline disease caused by Ceratocystis fimbriata". PLoS ONE. 11 (7). doi: 10.1371/journal.pone.0159450 . e0159450.
  10. da Silva Galdino, Tarcísio Visintin; de Oliveira Ferreira, Dalton; Santana Júnior, Paulo Antônio; de Paulo Arcanjo, Lucas; Aparecida Queiroz, Elenir; Almeida Sarmento, Renato; Coutinho Picanço, Marcelo (2017). "The role of the beetle Hypocryphalus mangiferae (Coleoptera: Curculionidae) in the spatiotemporal dynamics of mango wilt". Journal of Economic Entomology. 110 (3): 865–874. doi:10.1093/jee/tox063.