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{{Histmerge|Draft:Chrysochus auratus (Dogbane Beetle)|reason=draft duplicative of this article and due to be G13'd; plenty of good material in there which I have now integrated here.}}

Dogbane beetle
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Order:	Coleoptera
Family:	Chrysomelidae
Subfamily:	Eumolpinae
Tribe:	Eumolpini
Genus:	Chrysochus
Species:	C. auratus
Binomial name
Chrysochus auratus (Fabricius, 1775)
Synonyms
Chrysomela aurata Fabricius, 1775

Chrysochus auratus, the dogbane beetle, of eastern North America, is a member of the leaf beetle subfamily Eumolpinae. It is primarily found east of the Rocky Mountains. Its diet mainly consists of dogbane (Apocynum), specifically Apocynum cannabinum and Apocynum androsaemifolium, and occasionally it eats milkweed. It measures between 8 and 11 mm and has a convex, oval shape.

Description

The species is an iridescent blue-green with a metallic copper, golden or crimson shine. Dogbane beetles range from 8 to 11 mm in size, and they are oblong and convex shaped. The head contains two antennae that are widely set apart and located between the beetle's eyes. They are twelve-jointed with eleven segments, and the basal segment is shorter than that of the second segment.

Distribution and habitat

Because the Dogbane's main source of food is dogbane leaves, they live in areas where this plant is abundant. This includes fields, forests, railroads etc. In turn, Dogbane beetles are also in these areas. However, the beetle cannot withstand all of the varied habitats like that of the Dogbane plant, so instead they are in places that are temperate and terrestrial while also containing the Dogbane plant. Dogbane beetles will live on the plant that they are eating. If the beetle depletes that resource, it may also move to another plant for both food and shelter.

At least two regions of sympatry between C. auratus and Chrysochus cobaltinus have been documented in western North America.

Diet

Dogbane beetles feed on plants in the Apocynum genus. Plants in this genus contain toxins (cardenolides) that, when ingested, are fatal to many organisms, including humans, causing cardiac arrest. However, the Dogbane beetle is able to consume the plant and compartmentalize the cardenolides into glands. If threatened, the beetle can secrete the cardenolides as a defense mechanism. It is believed that they are able to consume this plant without being poisoned because of their amino acid sequence. At position 122 of their amino acid sequence, Chrysochus auratus have a histidine, whereas their counterpart species who have an asparagine in this position are poisoned by it.

Reproduction

Reproduction between adult male and female dogbane beetles usually occurs everyday, about once each day. In this species, males are the picky of the two, and they will search for the most fit females to mate with. The way in which a male chooses which female is the most fit is via chemical signaling systems. Dogbane beetles have notoriously low overall fitness, so the males have evolutionarily become more careful when choosing mates. Dogbane beetles use sex pheromones known as Cuticular Hydrocarbon signals to decipher between which females are the most fit and which are not going to increase their own direct fitness through procreation. They are also known to be polygamous, and procreating often increases fecundity, and in turn fitness. Once the male finds a suitable mate, copulation begins. The copulation process tends to occur earlier in the day and usually takes from an hour to and hour and a half. This is on account of the male perching himself onto the female's back following insemination in order to make sure that she utilizes his sperm in the fertilization of her eggs and to keep other males away from the female. No parental care from either males or females has been reported. The most parental care bestowed upon the female's eggs seems to be the fecal sac that she surrounds them in upon attaching them to the underside of the Dogbane leaf.

Females will lay two or three eggs on the underside of dogbane leaves in the summer months. The eggs will be kept in an adhesive, cylindrical sac of the female's feces that allows them to stay attached to the underside of the leaves. This will also serve as protection to the eggs. Once an egg hatches, a larva will begin to eat through the fecal sac until it makes a hole that is large enough to exit from. Once there is a large enough hole, the larva will fall from the sac to the ground where it will begin to burrow until it finds Dogbane roots, which will serve as its food until pupation. In Dogbane beetles, pupation usually occurs in the spring. The larva will pupate in a cavity underneath the soil until its body is matured and strong enough to dig back up to the surface. After pupation is complete, the organism is an adult. The lifespan of this organism ranges from 40 to 60 days.

References

1. Bartlett, Troy (13 May 2017). "Species Chrysochus auratus - Dogbane Beetle". BugGuide. Retrieved 3 December 2019.
2. Wilson, Sloan Jacob (1934). "The Anatomy of Chrysochus auratus, Fab., Coleoptera: (Chrysomelidae) with an Extended Discussion of the Wing Venation". Journal of the New York Entomological Society. 42 (1): 65–85. ISSN 0028-7199. JSTOR 25004541.
3. Tolchin, Jaclyn. "Chrysochus auratus". Animal Diversity Web. Retrieved 2020-03-03.
4. Peterson, M. A.; Dobler, S.; Holland, J.; T., L.; Locke, S. (2001). "Behavioral, Molecular, and Morphological Evidence for a Hybrid Zone Between Chrysochus auratus and C. cobaltinus (Coleoptera: Chrysomelidae)" (PDF). Annals of the Entomological Society of America. 94 (1): 1–10. doi:10.1603/0013-8746(2001)094[0001:BMAMEF]2.0.CO;2.
5. ^ Labeyrie, Estelle; Dobler, Susanne (February 2004). "Molecular Adaptation of Chrysochus Leaf Beetles to Toxic Compounds in Their Food Plants". Molecular Biology and Evolution. 21 (2): 218–221. doi:10.1093/molbev/msg240. PMID 12949136 – via Oxford Academic.
6. "One gorgeous beetle: Dogbane leaf beetle, Chrysochus auratus". Bug of the Week. Retrieved 2020-03-03.
7. Peterson, Merrill; Honchak, Barbara; Locke, Steranie; Beeman, Timothy; Mendoza, Jessica; Green, Jabin; Buckingham, Kati (May 2007). "Relative Abundance and the Species-Specific Reinforcement of Male Mating in the Chrysochus (Coleoptera: Chrysomelidae) Hybrid Zone". Evolution. 59 (12). doi:10.1111/j.0014-3820.2005.tb00976.x.
8. Kerins, Hallie (2000). "Reproductive Character Displacement and X-linkage of Cuticular Hydrocarbons in Chrysochus beetles". WWU Honors Program Senior Projects. 227 – via CEDAR.
9. Larson, Erica; Brassil, Margaret; Maslan, Jonathan; Juárez, Danielle; Lilagan, Flordeliza (September 2019). "The Effects of Heterospecific Mating Frequency Strength of Cryptic Reproductive Barriers". Journal of Evolutionary Biology. 32 (9): 900–912. doi:10.1111/jeb.13495. PMID 31162735 – via ProQuest.
10. Bartlett, Troy (2004). "Species Chrysochus auratus - Dogbane Beetle". Bug Guide.{{cite web}}: CS1 maint: url-status (link)
11. "Golden Beetle and Dogbane". ed.fnal.gov. Retrieved 2020-03-03.
12. ^ "Chrysochus auratus, dogbane leaf beetle: taxonomy, facts, life cycle, references at GeoChemBio". www.geochembio.com. Retrieved 2020-03-03.

External links

• One gorgeous beetle: Dogbane leaf beetle, Chrysochus auratus Bug of the Week

• Eumolpinae
• Beetles of North America
• Taxa named by Johan Christian Fabricius
• Beetles described in 1775