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Oryctes rhinoceros

January 01, 1970

Oryctes rhinoceros is a large beetle (typically 4–5 cm long), belonging to the rhinoceros beetles, subfamily Dynastinae, of the family Scarabaeidae.[1] Its vernacular names include coconut rhinoceros beetle, Asiatic rhinoceros beetle, and coconut palm rhinoceros beetle.[2] O. rhinoceros attacks coconut palms and other palms like the economically important oil palm. It can cause serious damage to the developing fronds (leaves) up to death of the palm. The beetle breeds in decaying palm trunks or other organic matter like sawdust or compost heaps.[3][4]

Oryctes rhinoceros
male Oryctes rhinoceros
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Coleoptera
Family: Scarabaeidae
Subfamily: Dynastinae
Tribe: Oryctini
Genus: Oryctes
Species:
O. rhinoceros
Binomial name
Oryctes rhinoceros
Synonyms[1]
  • Scarabaeus rhinoceros Linnaeus, 1758

Distribution edit

The native distribution of this beetle covers most parts of tropical Asia, from India and the Maldives in the west to the Philippines and southern China in the east. Through human activity, it has been accidentally introduced into a larger number of tropical islands in the Pacific starting with Samoa where larvae arrived in 1909 with the soil of rubber seedlings from Ceylon (Sri Lanka).[5][6] From Samoa, the coconut rhinoceros beetle spread to many others parts of the Pacific, most recently to Guam, Hawaii, the Solomon Islands and Vanuatu.[7][6][8]

Description edit

Oryctes rhinoceros is a large dynastid beetle with a length of 35–50 mm and a dark-brown to black colour. The head has a horn which is more prominently developed in males and in larger specimens. The pronotum has a large central depression with 2 humps at the hind margin and the tibia of the fore leg has 3 large teeth. Male beetles can be reliably separated from females by the tip of the abdomen which is rounded, shiny and hairless in males. In females the tip is more pointed and densely covered with hair.[2]

The eggs are white and about 3 mm in diameter. The larvae are the typical C-shaped white grubs of scarab beetles. The 3 larval stages can be separated by the size of their head capsule which are around 2.5–3 mm (1st instar), 5-6 mm (2nd instar) and 10-11 mm (3rd instar).[9]

Biology and life cycle edit

The coconut rhinoceros beetle is nocturnal and flies only during the night. Its main native host is the coconut palm (Cocos nucifera), but other palms, especially the economically important African oil palm are also hosts. Attacks have been further reported from various other crops like banana plants or screw palms.[3][4][2]

 
Young 3rd instar larva of Oryctes rhinoceros (Hawaii)

The beetle most often breeds in the decaying trunks of coconut or oil palm. These become suitable for breeding after palms are felled for replanting or when the palm dies of old age (dead standing palms). The dead standing palms are the most preferred breeding places. Other breeding sites are sawdust heaps around sawmills, compost heaps in gardens, or other decaying organic matter like heaps of cocoa (cacao) pods. The breeding substrate must have reached a certain degree of decay for the females to accept it.[10][11]

Female beetles typically arrive first at a coconut trunk suitable for breeding and start preparing the trunk for egg laying by breaking up the wood into small particles, suitable for consumption by the freshly hatched first instar larvae. A male beetle often follows the female for mating and for helping the female with the preparation of the breeding site. Females deposits eggs, packing the wood particles tightly around the eggs. Males often stay behind in the trunk, breaking up some more wood.[12]

The eggs hatch after 1.5–2 weeks and the total duration of the 3 larval stages last around 4–6 months. The fully grown larvae construct a protective cell, pupate and the young adults emerge after an additional 3 weeks.[10]

After emerging from the pupae, the young adults remain in the breeding site for an additional 3-4 weeks, until their cuticle is hardened and their flight muscles and reproductive organs are fully developed. They then leave the breeding site and fly to a nearby coconut palm, where they feed and mate. Breeding only starts after the first feeding, more than 2 weeks after the young adults have emerged from the breeding site.[13][12]

 
Oryctes rhinoceros feeding in the heart of a young coconut palm (Indonesia)

Damage edit

The coconut rhinoceros beetle attacks a palm at the base of the fronds (leaves) where they are attached to the growing trunk. They start at one of the middle leaf axils, boring through the base of other fronds into the centre of the crown, the palm heart, where the young, still white fronds develop. The beetle feeds on the undeveloped fronds, causing major damage to the palm. While the damaged fronds still continue to grow, become green and unfold, they typically have parts cut off. Most often the damaged fronds show triangular cuts, or when the fronds unfold, parts break off and wilt. The damage reduces the production of fruits on the palm. In young, newly planted palms the growing point of the palm may be damaged by the attack and the palm dies as a result.[3][4][14][15]

Outbreaks and management edit

Coconut rhinoceros beetle outbreaks are always associated with an abundance of breeding sites. These are usually created during replanting of coconut and oil palm plantations, when large numbers of palms are felled. The trunks decay and become available for breeding over a period of several years. At the same time, the young, replanted coconut or oil palms are particularly vulnerable to attacks by the beetle.

 
Coconut palm in the Maldives showing typical triangular cuts on the fronds caused by Oryctes rhinoceros (click on image to enlarge it)

Apart from how abundant breeding sites are, the severity of an outbreak depends mainly on two factors, on the ground vegetation, as well as the presence/absence of the most important natural control agent, the Oryctes rhinoceros nudivirus (see below). During large scale replanting, like in oil palm plantations in Indonesia, the trunks are often piled up high in large heaps, exposing them to beetles searching for breeding sites. Attempts to burn them is often not successful and creates air pollution. On the other hand, if the trunks lie on the ground and are hidden by vegetation (e.g. overgrown by a cover crop), most beetles will not find them. In addition, dense ground vegetation can also reduce the damage on young palms.[16][17]

In Indonesia, hand-picking of beetles from the axils of palms is often practiced in newly planted oil palm plantations. Pheromone traps have been also used for control, as well as for monitoring and for determining the incidence of virus infections in O. rhinoceros populations.[18]

Natural enemies and biological control edit

Since chemical control of Oryctes rhinoceros is not feasible, research on effective biological control agents has received special attention for many years. This included searching within the native distribution of the beetle for suitable predators, parasitoids and diseases. Many species of predators and parasitoids were identified over the years and a variety of species were introduced into the invaded Pacific islands.[19]

However, there is little evidence that native or introduced predators and parasitoids cause a significant impact on the populations of the coconut rhinoceros beetle. For example, during a field survey of 600 breeding sites in the Philippines, <5% contained elaterid predators and only ~1% a predatory shrew. Parasitoids like Scolia ruficornis can be common in sawdust heaps where the adult wasps can find and reach the larvae relatively easily. However, Scolia wasps rarely reach larvae in coconut trunks.[11][19]

 
Effect of the introduction of the Oryctes rhinoceros nudivirus on the populations of Oryctes rhinoceros in the Maldives over 4 years. The damage on marked coconut palms has been converted into estimates of number of monthly O. rhinoceros attacks per hectare. Data from islands of Hukurudhoo Atoll (no virus release) are shown as blue dots, those from islands of Ari Atoll (virus released) as brown dots.

A virus disease of O.rhinoceros, the Oryctes rhinoceros nudivirus, turned out to be the most effective natural control agent. This virus was discovered by Alois Huger in Malaysia in 1963. It was later found to occur naturally in other countries within the native range of the beetle like the Philippines, Indonesia and India. However, the introduced beetle populations in the Pacific and those in the Maldives were found to be virus-free.[20][17][21][12]

Introduction of the virus into virus-free populations caused a significant decline of the O. rhinoceros population. For example, virus releases in the islands of the Maldives typically reduced the beetle populations to less than one quarter of the level before the release.[21] The virus effects mainly the population of adult O. rhinoceros beetles. It spreads easily among adults, reducing their life span and the fecundity of females.[22][23][11][12]

However, during replanting of palms, when many breeding sites become available, transmission of the virus is often interrupted and outbreaks still occur, even with the presence of the virus. Under such conditions it is recommended to grow a cover crop over the breeding sites and under the palms, as well as to use a few dead standing palms to promote the spread of the virus.[16][17] There is also evidence of resistance to the virus in some O.rhinoceros populations.[24][19]

 
3rd instar O. rhinoceros larva killed by the fungus Metarhizium majus (click on image to enlarge it)

A second disease agent the fungus Metarhizium majus is also effective in controlling coconut rhinoceros beetles in breeding sites. However, unlike the virus disease, it does not spread very well by itself within an O. rhinoceros population.[25] In the Philippines, only about 10% of the breeding sites naturally contained this fungus, and the effect of the fungus on the population of adult beetles is negligible.[11]

Still, once established in a breeding site, this fungus provides long-term control of larvae in this particular site. Unlike the virus, the fungus survives for some time outside its host (as conidia). It can be an effective control agent if applied manually to each breeding site.[26]

See also edit

References edit

  1. ^ a b c "Oryctes rhinoceros (Linnaeus, 1758)". Global Biodiversity Information Facility. Retrieved 17 February 2024.
  2. ^ a b c "Oryctes rhinoceros (coconut rhinoceros beetle)". CABI Compendium. Retrieved 17 February 2024.
  3. ^ a b c Bedford, G.O. (1980). "Biology, ecology, and control of palm rhinoceros beetles". Annual Review of Entomology. 25: 309–339. doi:10.1146/annurev.en.25.010180.001521.
  4. ^ a b c Bedford, Geoffrey O. (2013). "Biology and management of palm dynastid beetles: Recent advances". Annual Review of Entomology. 58: 353–372. doi:10.1146/annurev-ento-120710-100547.
  5. ^ Friedrichs, K. (1913). "Über den gegenwärtigen Stand der Bekämpfung des Nashornkäfers (Oryctes rhinoceros L.) in Samoa". Tropenpflanzer. 17: 661–675.
  6. ^ a b Paudel, Sulav; Marshall, Sean D.G.; Richards, Nicola K.; Hazelman, George; Tanielu, Pueata; Jackson, Trevor A. (2022). "Coconut rhinoceros beetle in Samoa: Review of a century-old invasion and prospects for control in a changing future". Insects. 13 (5): art. 487. doi:10.3390/insects13050487.
  7. ^ "Early detection pest risk assessment - Coconut rhinoceros beetle" (PDF). Guam Insects. Retrieved 22 February 2024.
  8. ^ Paudel, Sulav; Jackson, Trevor A.; Boulekouran, Sylvie; Tasale, Jeffline; Garae, Bill; Allanson, Patricia; Ero, Mark; Marshall, Sean D.G. (2023). "The coconut rhinoceros beetle (Oryctes rhinoceros) outbreak is well established on Efate, Vanuatu". EPPO Bulletin. 53 (2): 404–410. doi:10.1111/epp.12930.
  9. ^ "Larvae of the Coconut Rhinoceros Beetle Oryctes rhinoceros" (PDF). Guam Insects. Retrieved 23 February 2024.
  10. ^ a b Bedford, G.O. (1976). "Observations on the biology and ecology of Oryctes rhinoceros and Scapanes australis (Coleoptera: Scarabaeidae: Dynastinae): Pests of coconut palms in Melanesia". Australian Journal of Entomology. 15 (3): 241–251. doi:10.1111/j.1440-6055.1976.tb01701.x.
  11. ^ a b c d Zelazny, B.; Alfiler, A.R. (1986). "Oryctes rhinoceros (Coleoptera: Scarabaeidae) larva abundance and mortality factors in the Philippines". Environmental Entomology. 15 (1): 84–87. doi:10.1093/ee/15.1.84.
  12. ^ a b c d Zelazny, B.; Alfiler, A.R. (1991). "Ecology of baculovirus-infected and healthy adults of Oryctes rhinoceros (Coleoptera: Scarabaeidae) on coconut palms in the Philippines". Ecological Entomology. 16 (2): 253–259. doi:10.1111/j.1365-2311.1991.tb00215.x.
  13. ^ Zelazny, B. (1975). "Behaviour of young rhinoceros beetles Oryctes rhinoceros". Entomologia Experimentalis et Applicata. 18 (2): 135–140. doi:10.1111/j.1570-7458.1975.tb02363.x.
  14. ^ "Coconut Rhinoceros Beetle" (PDF). Pests and Diseases of American Samoa Number 8. Retrieved 17 February 2024.
  15. ^ Zelazny, B.; Alfiler, A.R. (1987). "Ecological methods for adult populations of Oryctes rhinoceros (Coleoptera, Scarabaeidae)". Ecological Entomology. 12 (2): 227–238. doi:10.1111/j.1365-2311.1987.tb01001.x.
  16. ^ a b Wood, B.J. (1969). "Studies on the effect of ground vegetation on infestations of Oryctes rhinoceros (L.) (Col., Dynastidae) in young oil palm replantings in Malaysia". Bulletin of Entomological Research. 59 (1): 85–96. doi:10.1017/S0007485300003059.
  17. ^ a b c Zelazny, B.; Moezir, Moehafzan (1989). "Pengendalian hama kumbang rhinoceros pada tanaman kelapa
    [Control of the rhinoceros beetle in coconut palms]". Berita Perlindungan Tanaman Perkebunan (in Indonesian). 1 (2): 1–6.
  18. ^ Paudel, Sulav; Jackson, Trevor A.; Mansfield, Sarah; Ero, Mark; Moore, Aubrey; Marshall, Sean D.G. (2023). "Use of pheromones for monitoring and control strategies of coconut rhinoceros beetle (Oryctes rhinoceros): A review". Crop Protection. 174: art. 106400. doi:10.1016/j.cropro.2023.106400.
  19. ^ a b c Paudel, Sulav; Mansfield, Sarah; Villamizar, laura F.; Jackson, Trevor A.; Marshall, Sean D.G. (2021). "Can biological control overcome the threat from newly invasive coconut rhinoceros beetle populations (Coleoptera: Scarabaeidae)? A review". Annals of the Entomological Society of America. 114 (2): 247–256. doi:10.1093/aesa/saaa057.
  20. ^ Huger, Alois M. (2005). "The Oryctes virus: Its detection, identification, and implementation in biological control of the coconut palm rhinoceros beetle, Oryctes rhinoceros (Coleoptera: Scarabaeidae)". Journal of Invertebrate Pathology. 89 (1): 78–84. doi:10.1016/j.jip.2005.02.010.
  21. ^ a b Zelazny, B.; Lolong, A.; Crawford, A.M. (1990). "Introduction and field comparison of Baculovirus strains against Oryctes rhinoceros (Coleoptera: Scarahaeidae) in the Maldives". Environmental Entomology. 19 (4): 1115–1121. doi:10.1093/ee/19.4.1115.
  22. ^ Zelazny, B. (1973). "Studies on Rhabdionvirus oryctes II. Effect on adults of Oryctes rhinoceros". Journal of Invertebrate Pathology. 22 (1): 122–126. doi:10.1016/0022-2011(73)90020-7.
  23. ^ Zelazny, Bernhard (1977). "Oryctes rhinoceros populations and behavior influenced by a baculovirus". Journal of Invertebrate Pathology. 29 (2): 210–215. doi:10.1016/0022-2011(77)90195-1.
  24. ^ Marshall, Sean D.G.; Moore, Aubrey; Vaqalo, Maclean; Noble, Alasdair; Jackson, Trevor A. (2017). "A new haplotype of the coconut rhinoceros beetle, Oryctes rhinoceros, has escaped biological control by Oryctes rhinoceros nudivirus and is invading Pacific Islands". Journal of Invertebrate Pathology. 149: 127–134. doi:10.1016/j.jip.2017.07.006.
  25. ^ Young, E.C. (1974). "The epizootiology of two pathogens of the coconut palm rhinoceros beetle". Journal of Invertebrate Pathology. 24 (1): 82–92. doi:10.1016/0022-2011(74)90167-0.
  26. ^ Moslim, Ramle; Wahid, Mohd. Basri; Kamarudin, Norman; Sharma, Mukesh; Ali, Siti Ramlah Ahmad (1999). "Impact of Metarhizium anisopliae (Deuteromycotina: Hyphomycetes) applied by wet and dry inoculum on oil palm rhinoceros beetles, Oryctes rhinoceros (Coleoptera: Scarabaeidae)" (PDF). Journal of Oil Palm Research. II (2): 25–40.

External links edit

  •   Data related to Oryctes rhinoceros at Wikispecies
  •   Media related to Oryctes rhinoceros at Wikimedia Commons
  • Species Profile - Coconut Rhinoceros Beetle (Oryctes rhinoceros), National Invasive Species Information Center, United States National Agricultural Library.
  • Coconut Rhinoceros Beetle Response Hawaii

January 01, 1970
oryctes, rhinoceros, large, beetle, typically, long, belonging, rhinoceros, beetles, subfamily, dynastinae, family, scarabaeidae, vernacular, names, include, coconut, rhinoceros, beetle, asiatic, rhinoceros, beetle, coconut, palm, rhinoceros, beetle, rhinocero. Oryctes rhinoceros is a large beetle typically 4 5 cm long belonging to the rhinoceros beetles subfamily Dynastinae of the family Scarabaeidae 1 Its vernacular names include coconut rhinoceros beetle Asiatic rhinoceros beetle and coconut palm rhinoceros beetle 2 O rhinoceros attacks coconut palms and other palms like the economically important oil palm It can cause serious damage to the developing fronds leaves up to death of the palm The beetle breeds in decaying palm trunks or other organic matter like sawdust or compost heaps 3 4 Oryctes rhinoceros male Oryctes rhinoceros Scientific classification Domain Eukaryota Kingdom Animalia Phylum Arthropoda Class Insecta Order Coleoptera Family Scarabaeidae Subfamily Dynastinae Tribe Oryctini Genus Oryctes Species O rhinoceros Binomial name Oryctes rhinoceros Linnaeus 1758 1 Synonyms 1 Scarabaeus rhinoceros Linnaeus 1758 Contents 1 Distribution 2 Description 3 Biology and life cycle 4 Damage 5 Outbreaks and management 6 Natural enemies and biological control 7 See also 8 References 9 External linksDistribution editThe native distribution of this beetle covers most parts of tropical Asia from India and the Maldives in the west to the Philippines and southern China in the east Through human activity it has been accidentally introduced into a larger number of tropical islands in the Pacific starting with Samoa where larvae arrived in 1909 with the soil of rubber seedlings from Ceylon Sri Lanka 5 6 From Samoa the coconut rhinoceros beetle spread to many others parts of the Pacific most recently to Guam Hawaii the Solomon Islands and Vanuatu 7 6 8 Description editOryctes rhinoceros is a large dynastid beetle with a length of 35 50 mm and a dark brown to black colour The head has a horn which is more prominently developed in males and in larger specimens The pronotum has a large central depression with 2 humps at the hind margin and the tibia of the fore leg has 3 large teeth Male beetles can be reliably separated from females by the tip of the abdomen which is rounded shiny and hairless in males In females the tip is more pointed and densely covered with hair 2 The eggs are white and about 3 mm in diameter The larvae are the typical C shaped white grubs of scarab beetles The 3 larval stages can be separated by the size of their head capsule which are around 2 5 3 mm 1st instar 5 6 mm 2nd instar and 10 11 mm 3rd instar 9 Biology and life cycle editThe coconut rhinoceros beetle is nocturnal and flies only during the night Its main native host is the coconut palm Cocos nucifera but other palms especially the economically important African oil palm are also hosts Attacks have been further reported from various other crops like banana plants or screw palms 3 4 2 nbsp Young 3rd instar larva of Oryctes rhinoceros Hawaii The beetle most often breeds in the decaying trunks of coconut or oil palm These become suitable for breeding after palms are felled for replanting or when the palm dies of old age dead standing palms The dead standing palms are the most preferred breeding places Other breeding sites are sawdust heaps around sawmills compost heaps in gardens or other decaying organic matter like heaps of cocoa cacao pods The breeding substrate must have reached a certain degree of decay for the females to accept it 10 11 Female beetles typically arrive first at a coconut trunk suitable for breeding and start preparing the trunk for egg laying by breaking up the wood into small particles suitable for consumption by the freshly hatched first instar larvae A male beetle often follows the female for mating and for helping the female with the preparation of the breeding site Females deposits eggs packing the wood particles tightly around the eggs Males often stay behind in the trunk breaking up some more wood 12 The eggs hatch after 1 5 2 weeks and the total duration of the 3 larval stages last around 4 6 months The fully grown larvae construct a protective cell pupate and the young adults emerge after an additional 3 weeks 10 After emerging from the pupae the young adults remain in the breeding site for an additional 3 4 weeks until their cuticle is hardened and their flight muscles and reproductive organs are fully developed They then leave the breeding site and fly to a nearby coconut palm where they feed and mate Breeding only starts after the first feeding more than 2 weeks after the young adults have emerged from the breeding site 13 12 nbsp Oryctes rhinoceros feeding in the heart of a young coconut palm Indonesia Damage editThe coconut rhinoceros beetle attacks a palm at the base of the fronds leaves where they are attached to the growing trunk They start at one of the middle leaf axils boring through the base of other fronds into the centre of the crown the palm heart where the young still white fronds develop The beetle feeds on the undeveloped fronds causing major damage to the palm While the damaged fronds still continue to grow become green and unfold they typically have parts cut off Most often the damaged fronds show triangular cuts or when the fronds unfold parts break off and wilt The damage reduces the production of fruits on the palm In young newly planted palms the growing point of the palm may be damaged by the attack and the palm dies as a result 3 4 14 15 Outbreaks and management editCoconut rhinoceros beetle outbreaks are always associated with an abundance of breeding sites These are usually created during replanting of coconut and oil palm plantations when large numbers of palms are felled The trunks decay and become available for breeding over a period of several years At the same time the young replanted coconut or oil palms are particularly vulnerable to attacks by the beetle nbsp Coconut palm in the Maldives showing typical triangular cuts on the fronds caused by Oryctes rhinoceros click on image to enlarge it Apart from how abundant breeding sites are the severity of an outbreak depends mainly on two factors on the ground vegetation as well as the presence absence of the most important natural control agent the Oryctes rhinoceros nudivirus see below During large scale replanting like in oil palm plantations in Indonesia the trunks are often piled up high in large heaps exposing them to beetles searching for breeding sites Attempts to burn them is often not successful and creates air pollution On the other hand if the trunks lie on the ground and are hidden by vegetation e g overgrown by a cover crop most beetles will not find them In addition dense ground vegetation can also reduce the damage on young palms 16 17 In Indonesia hand picking of beetles from the axils of palms is often practiced in newly planted oil palm plantations Pheromone traps have been also used for control as well as for monitoring and for determining the incidence of virus infections in O rhinoceros populations 18 Natural enemies and biological control editSince chemical control of Oryctes rhinoceros is not feasible research on effective biological control agents has received special attention for many years This included searching within the native distribution of the beetle for suitable predators parasitoids and diseases Many species of predators and parasitoids were identified over the years and a variety of species were introduced into the invaded Pacific islands 19 However there is little evidence that native or introduced predators and parasitoids cause a significant impact on the populations of the coconut rhinoceros beetle For example during a field survey of 600 breeding sites in the Philippines lt 5 contained elaterid predators and only 1 a predatory shrew Parasitoids like Scolia ruficornis can be common in sawdust heaps where the adult wasps can find and reach the larvae relatively easily However Scolia wasps rarely reach larvae in coconut trunks 11 19 nbsp Effect of the introduction of the Oryctes rhinoceros nudivirus on the populations of Oryctes rhinoceros in the Maldives over 4 years The damage on marked coconut palms has been converted into estimates of number of monthly O rhinoceros attacks per hectare Data from islands of Hukurudhoo Atoll no virus release are shown as blue dots those from islands of Ari Atoll virus released as brown dots A virus disease of O rhinoceros the Oryctes rhinoceros nudivirus turned out to be the most effective natural control agent This virus was discovered by Alois Huger in Malaysia in 1963 It was later found to occur naturally in other countries within the native range of the beetle like the Philippines Indonesia and India However the introduced beetle populations in the Pacific and those in the Maldives were found to be virus free 20 17 21 12 Introduction of the virus into virus free populations caused a significant decline of the O rhinoceros population For example virus releases in the islands of the Maldives typically reduced the beetle populations to less than one quarter of the level before the release 21 The virus effects mainly the population of adult O rhinoceros beetles It spreads easily among adults reducing their life span and the fecundity of females 22 23 11 12 However during replanting of palms when many breeding sites become available transmission of the virus is often interrupted and outbreaks still occur even with the presence of the virus Under such conditions it is recommended to grow a cover crop over the breeding sites and under the palms as well as to use a few dead standing palms to promote the spread of the virus 16 17 There is also evidence of resistance to the virus in some O rhinoceros populations 24 19 nbsp 3rd instar O rhinoceros larva killed by the fungus Metarhizium majus click on image to enlarge it A second disease agent the fungus Metarhizium majus is also effective in controlling coconut rhinoceros beetles in breeding sites However unlike the virus disease it does not spread very well by itself within an O rhinoceros population 25 In the Philippines only about 10 of the breeding sites naturally contained this fungus and the effect of the fungus on the population of adult beetles is negligible 11 Still once established in a breeding site this fungus provides long term control of larvae in this particular site Unlike the virus the fungus survives for some time outside its host as conidia It can be an effective control agent if applied manually to each breeding site 26 See also editEuropean rhinoceros beetleReferences edit a b c Oryctes rhinoceros Linnaeus 1758 Global Biodiversity Information Facility Retrieved 17 February 2024 a b c Oryctes rhinoceros coconut rhinoceros beetle CABI Compendium Retrieved 17 February 2024 a b c Bedford G O 1980 Biology ecology and control of palm rhinoceros beetles Annual Review of Entomology 25 309 339 doi 10 1146 annurev en 25 010180 001521 a b c Bedford Geoffrey O 2013 Biology and management of palm dynastid beetles Recent advances Annual Review of Entomology 58 353 372 doi 10 1146 annurev ento 120710 100547 Friedrichs K 1913 Uber den gegenwartigen Stand der Bekampfung des Nashornkafers Oryctes rhinoceros L in Samoa Tropenpflanzer 17 661 675 a b Paudel Sulav Marshall Sean D G Richards Nicola K Hazelman George Tanielu Pueata Jackson Trevor A 2022 Coconut rhinoceros beetle in Samoa Review of a century old invasion and prospects for control in a changing future Insects 13 5 art 487 doi 10 3390 insects13050487 Early detection pest risk assessment Coconut rhinoceros beetle PDF Guam Insects Retrieved 22 February 2024 Paudel Sulav Jackson Trevor A Boulekouran Sylvie Tasale Jeffline Garae Bill Allanson Patricia Ero Mark Marshall Sean D G 2023 The coconut rhinoceros beetle Oryctes rhinoceros outbreak is well established on Efate Vanuatu EPPO Bulletin 53 2 404 410 doi 10 1111 epp 12930 Larvae of the Coconut Rhinoceros Beetle Oryctes rhinoceros PDF Guam Insects Retrieved 23 February 2024 a b Bedford G O 1976 Observations on the biology and ecology of Oryctes rhinoceros and Scapanes australis Coleoptera Scarabaeidae Dynastinae Pests of coconut palms in Melanesia Australian Journal of Entomology 15 3 241 251 doi 10 1111 j 1440 6055 1976 tb01701 x a b c d Zelazny B Alfiler A R 1986 Oryctes rhinoceros Coleoptera Scarabaeidae larva abundance and mortality factors in the Philippines Environmental Entomology 15 1 84 87 doi 10 1093 ee 15 1 84 a b c d Zelazny B Alfiler A R 1991 Ecology of baculovirus infected and healthy adults of Oryctes rhinoceros Coleoptera Scarabaeidae on coconut palms in the Philippines Ecological Entomology 16 2 253 259 doi 10 1111 j 1365 2311 1991 tb00215 x Zelazny B 1975 Behaviour of young rhinoceros beetles Oryctes rhinoceros Entomologia Experimentalis et Applicata 18 2 135 140 doi 10 1111 j 1570 7458 1975 tb02363 x Coconut Rhinoceros Beetle PDF Pests and Diseases of American Samoa Number 8 Retrieved 17 February 2024 Zelazny B Alfiler A R 1987 Ecological methods for adult populations of Oryctes rhinoceros Coleoptera Scarabaeidae Ecological Entomology 12 2 227 238 doi 10 1111 j 1365 2311 1987 tb01001 x a b Wood B J 1969 Studies on the effect of ground vegetation on infestations of Oryctes rhinoceros L Col Dynastidae in young oil palm replantings in Malaysia Bulletin of Entomological Research 59 1 85 96 doi 10 1017 S0007485300003059 a b c Zelazny B Moezir Moehafzan 1989 Pengendalian hama kumbang rhinoceros pada tanaman kelapa Control of the rhinoceros beetle in coconut palms Berita Perlindungan Tanaman Perkebunan in Indonesian 1 2 1 6 Paudel Sulav Jackson Trevor A Mansfield Sarah Ero Mark Moore Aubrey Marshall Sean D G 2023 Use of pheromones for monitoring and control strategies of coconut rhinoceros beetle Oryctes rhinoceros A review Crop Protection 174 art 106400 doi 10 1016 j cropro 2023 106400 a b c Paudel Sulav Mansfield Sarah Villamizar laura F Jackson Trevor A Marshall Sean D G 2021 Can biological control overcome the threat from newly invasive coconut rhinoceros beetle populations Coleoptera Scarabaeidae A review Annals of the Entomological Society of America 114 2 247 256 doi 10 1093 aesa saaa057 Huger Alois M 2005 The Oryctes virus Its detection identification and implementation in biological control of the coconut palm rhinoceros beetle Oryctes rhinoceros Coleoptera Scarabaeidae Journal of Invertebrate Pathology 89 1 78 84 doi 10 1016 j jip 2005 02 010 a b Zelazny B Lolong A Crawford A M 1990 Introduction and field comparison of Baculovirus strains against Oryctes rhinoceros Coleoptera Scarahaeidae in the Maldives Environmental Entomology 19 4 1115 1121 doi 10 1093 ee 19 4 1115 Zelazny B 1973 Studies on Rhabdionvirus oryctes II Effect on adults of Oryctes rhinoceros Journal of Invertebrate Pathology 22 1 122 126 doi 10 1016 0022 2011 73 90020 7 Zelazny Bernhard 1977 Oryctes rhinoceros populations and behavior influenced by a baculovirus Journal of Invertebrate Pathology 29 2 210 215 doi 10 1016 0022 2011 77 90195 1 Marshall Sean D G Moore Aubrey Vaqalo Maclean Noble Alasdair Jackson Trevor A 2017 A new haplotype of the coconut rhinoceros beetle Oryctes rhinoceros has escaped biological control by Oryctes rhinoceros nudivirus and is invading Pacific Islands Journal of Invertebrate Pathology 149 127 134 doi 10 1016 j jip 2017 07 006 Young E C 1974 The epizootiology of two pathogens of the coconut palm rhinoceros beetle Journal of Invertebrate Pathology 24 1 82 92 doi 10 1016 0022 2011 74 90167 0 Moslim Ramle Wahid Mohd Basri Kamarudin Norman Sharma Mukesh Ali Siti Ramlah Ahmad 1999 Impact of Metarhizium anisopliae Deuteromycotina Hyphomycetes applied by wet and dry inoculum on oil palm rhinoceros beetles Oryctes rhinoceros Coleoptera Scarabaeidae PDF Journal of Oil Palm Research II 2 25 40 External links edit nbsp Data related to Oryctes rhinoceros at Wikispecies nbsp Media related to Oryctes rhinoceros at Wikimedia Commons Species Profile Coconut Rhinoceros Beetle Oryctes rhinoceros National Invasive Species Information Center United States National Agricultural Library Coconut Rhinoceros Beetle Response Hawaii 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