User:Saxon Shore/sandbox

Saxon Shore/sandbox
Scientific classification
Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Order:	Coleoptera
Family:	Nitidulidae
Genus:	Carpophilus
Species:	C. lugubris

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Description[edit]

A long lived species, the dusky sap beetle can live as an adult for up to 300 days ^[1]. Measuring 3.3-4.5 mm, this large bodied beetle is primarily brown, but has orange colouration on its elytra ^[2]. Depressions can be see on each side of the pygidium, which is a characteristic of males. ^[2] Additionally, the genital capsule, which is quite distinct, can not be seen from an overhead view. ^[2] Eggs produced by adults are milk coloured white and oval in shape. ^[1] Similarly, the larvae can be white, or yellow in body colour with a brown head. ^[1] This image, taken from Marini, 2013, can provide a better look at the adult morphology and colouration [1]

Habitat[edit]

Like other sap beetles, fruit secretions are the primary food source, but they will also consume fungi, decomposing fruit and even pollen. ^[1] C. lugubris is capable of feeding on undamaged fruits as well, corn being its primary food source. ^[1] The species is long lived, so they will take up shelter in adverse environmental conditions. One such refuge is the bottom of bee creates, which are often closely located to crops. ^[2] Going underground during the pupa and adult stages allows them to survive the winter. ^[1] Larva and adults will often have overlapping niche, with the larva developing on the ears of the corn and eventually feeding on the kernels. ^[2]

Distribution[edit]

Native to North America, C.lugubris can be found throughout southern Canada, the United states, and as far as South America. ^[1] Reports have even indicated its spread to southern European countries, such as, Italy. ^[2] Only very cold climatic regions are free of the Carpophilus genus ^[3].

Life Cycle[edit]

Like the typical beetle life cycle, C. lugubris has four life stages. ^[1] The egg, larva, pupa, and adult.

Egg[edit]

Eggs are often layed on the silk of corn and have a generation time of 2-4 days. 3-5 eggs will be layed at a time and the optimal temperature is 21°C. ^[1]

Larva[edit]

The larval stage begins feeding on corn kernels and undergoes 3-4 instars before entering the pupa stage. This stage will often last for roughly 3 weeks. ^[1]

Pupa[edit]

When ready to pupate, the larva fall to the ground and bury themselves. This may last 9-10 days before reemerging, but it can be longer if overwintering becomes necessary. ^[1]

Adult[edit]

Once exiting from the ground, the adult will use pheromones to locate a new food source and possible mating location. ^[1]

Ecological Impacts[edit]

Being capable of attacking undamaged fruits and vegtables makes the Carpophilus genus a large threat to economic crops. ^[3] C. lugubris, is a common pest of corn in North American, but tomato plants are also at risk. ^[2] Larva present in corn kernels often go undiscovered and this can lead to their rejection and subsequent discarding. ^[1] They can also act as vectors for fungi transfer to crop plants. ^[1] Related species act as vectors for disease, such as Oak Wilt ^[4]. The ability to disperse via flight gives this genus great potential for disease transfer. A related species is known to be parasitic to honey bee hives, in which they burrow into the hive and predate the larva. ^[2] The use of the dusky sap beetle to fight fungi infections is a possibility as well ^[5].

Management[edit]

Insecticides are not often applied in direct response to C.lugubris, but they are still effective when targeting other species. ^[1] A more effect approach is to ensure that crops are not left unharvested, as these plants will provide food for overwintering individuals. ^[1] The use of pheromones by Carpophilus species has influenced traps and lures to protect crops ^[4] In Carpophilus sayi, pheromones from C. lugubris, are used to trick the species into believing a food source is nearby ^[4]. Similarly, traps with fermenting fruit will be placed in crop locations and the capture rates are quite high. However, when crops begin to ripen, the traps are selected against.^[4] Methods involving the use of radio frequencies is a possible way of killing larva hidden in the fruit ^[6]. Early corn planting, in North Carolina, has show to reduce the number of damaged plants, as opposed to later planted crops. ^[1]

References[edit]

^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q Capinera, J. (2001) Dusky sap Beetle. In Handbook of vegetable pests. Oxford, UK: Elsevier Science & Technology. Retrieved from http://ezproxy.macewan.ca/login?url=http://search.credoreference.com/content/entry/estvegpest/dusky_sap_beetle/0?institutionId=2632
^ ^a ^b ^c ^d ^e ^f ^g ^h Marini, F. Audisio, P. Mutinelli, F. Montarsi, F Cline, A,R. Gatti, E. (2013) First report in Italy of the dusky sap beetle, Carpophilus lugubris, a new potential pest for Europe. Journal of Pest Science 86 (2). Pp 157-160.DOI: 10.1007/s10340-013-0479-9
^ ^a ^b Bartelt, R, J. Hossain, M, S. (2010) Chemical ecology of Carpophilus sap beetles (Coleoptera: Nitidulidae) and development of an environmentally friendly method of crop protection. Terrestrial Arthropod Reviews. 3 (1). Pp 29-61.
^ ^a ^b ^c ^d Bartelt, Robert J; Kyhl, John F; Ambourn, Angie K; Juzwik, Jennifer; Seybold, Steven J. (2004). Male-produced aggregation pheromone of Carpophilus sayi, a nitidulid vector of oak wilt disease, and pheromone comparison with Carpophilus lugubris. Agricultural & Forest Entomology. 6 (1). Pp 39-46
^ Cooke, L. (1994) Insect drafted to fight fungus it spreads. Agricultural Research 42 (7). Pp 13.
^ Pengna, F. Sacchetti, P. Canuti, U. Trapani, S. Bergesio, C. Belcari, A. Meggiolaro, F. (2017) Radio frequency irradiation treatment of dates in a single layer to control Carpophilus hemipterus. Biosystems Engineering Volume 155, Pages 1-11. https://doi.org/10.1016/j.biosystemseng.2016.11.011

[Capinera2001-1] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q Capinera, J. (2001) Dusky sap Beetle. In Handbook of vegetable pests. Oxford, UK: Elsevier Science & Technology. Retrieved from http://ezproxy.macewan.ca/login?url=http://search.credoreference.com/content/entry/estvegpest/dusky_sap_beetle/0?institutionId=2632

[Marini2013-2] ^ ^a ^b ^c ^d ^e ^f ^g ^h Marini, F. Audisio, P. Mutinelli, F. Montarsi, F Cline, A,R. Gatti, E. (2013) First report in Italy of the dusky sap beetle, Carpophilus lugubris, a new potential pest for Europe. Journal of Pest Science 86 (2). Pp 157-160.DOI: 10.1007/s10340-013-0479-9

[BarteltHossain2010-3] Bartelt, R, J. Hossain, M, S. (2010) Chemical ecology of Carpophilus sap beetles (Coleoptera: Nitidulidae) and development of an environmentally friendly method of crop protection. Terrestrial Arthropod Reviews. 3 (1). Pp 29-61.

[BareltRobert2004-4] Bartelt, Robert J; Kyhl, John F; Ambourn, Angie K; Juzwik, Jennifer; Seybold, Steven J. (2004). Male-produced aggregation pheromone of Carpophilus sayi, a nitidulid vector of oak wilt disease, and pheromone comparison with Carpophilus lugubris. Agricultural & Forest Entomology. 6 (1). Pp 39-46

[5] Cooke, L. (1994) Insect drafted to fight fungus it spreads. Agricultural Research 42 (7). Pp 13.

[6] Pengna, F. Sacchetti, P. Canuti, U. Trapani, S. Bergesio, C. Belcari, A. Meggiolaro, F. (2017) Radio frequency irradiation treatment of dates in a single layer to control Carpophilus hemipterus. Biosystems Engineering Volume 155, Pages 1-11. https://doi.org/10.1016/j.biosystemseng.2016.11.011

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