Chelymorpha alternans | |
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A metallic neotropical tortoise beetle on a leaf | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Class: | Insecta |
Order: | Coleoptera |
Infraorder: | Cucujiformia |
Family: | Chrysomelidae |
Genus: | Chelymorpha |
Species: | C. alternans |
Binomial name | |
Chelymorpha alternans Boheman, 1854 | |
Chelymorpha alternans, the neotropical tortoise beetle, is a species of leaf beetle in the family Chrysomelidae and the Cassidinae subfamily. Its name is derived from its body shape and patterning. The first half of its name, Chelymorpha , means 'turtle/tortoise form' while the second part, alternans, means 'alternating'. [1] [2]
C. alternans is best known for demonstrating color polymorphism on its pronotum and elytra; these polymorphisms can vary from individual to individual. There are five different phenotypes which often leads to misidentification with a close beetle relative, Chelymorpha cribraria . [3]
Female adult neotropical tortoise beetles are usually around 11–12 mm in length and 4–5 mm in width. Males tend to be smaller and more circular than females, usually around 5–8 mm in length and 3–5 mm in width. In terms of larvae, 1st instar larvae are approximately 2 mm in length, growing an average of 1 mm until the 3rd instar. Finally, 4th and 5th larvae develop to their final pupae length of 12–13 mm. [3] These beetles are able to fly short distances (10–20 m), but are rarely seen doing so as their wings are mostly for motor function, such as turning themselves over. [3]
The neotropical tortoise beetle demonstrates five different color polymorphism leading to five different phenotypes. Beetles with the "rufipennis" phenotype have a black pronotum and red elytra. The "veraguensis" phenotype beetles demonstrate a red pronotum and red elytra. The "metallic" phenotype beetles have a metallic yellow and red striped pronotum and elytra. Finally, the "Darien" phenotype is split into "Militaris-a" and "Militaris-b". "Militaris-a" beetles have a black and red striped pronotum and elytra, meanwhile the "militaris-b" beetles demonstrates a black pronotum and a black and red striped elytra. Although 12 phenotypes are theoretically possible, only these 4 ("militaris" phenotypes counted as one) have been demonstrated in both a field and laboratory setting. [4]
Although color polymorphism gives each beetle phenotype distinctly unique color patterns, there is no evidence that shows that this leads to disassortative mating amongst the beetles, or that beetles show any sort of preferential selection towards beetles of a similar color. Mating has been demonstrated to be completely random. [5]
Early studies of Chelymorpha alternans show that the beetle was originally documented to be found throughout Central America, South America and parts of the Caribbean in countries such as Costa Rica, Panama, Colombia, Brazil, Dominican Republic, and Venezuela. [6] More recent studies confirm distribution of the beetle from western Costa Rica to the Darien province of Panama. Due to misidentification of the beetle, often confused with its close relative, Chelymorpha cribaria, the distribution of the Neotropical leaf beetle in South America is unresolved and still being studied. [7]
The Neotropical tortoise beetle has been found to inhabit a range of elevations from sea level to 1000 meters. The beetle prefers light-rich zones and has often been found in forest gaps and edge habitats such as the sides of roads, rivers, and pastures, as this is where its host plants are found in abundance. [3] Different color phenotypes of the neotropical tortoise beetle have also been shown to have different distributions across habitats as well, specifically in Panama. The "veraguensis" phenotype, characterized by red elytra and red pronotum, are more commonly found on the Western side of the Panamanian Isthmus while the "militaris" phenotypes, which are red and black, are often found on the east side of the Panama Canal. Additionally, the "metallic" phenotype is the most widely distributed phenotype of the beetle, as it is the most commonly found phenotypic variant across various sites. [4]
The neotropical tortoise beetle is an oligophagous herbivore, consuming the native host plants that it lives on. The beetle possesses a wider-ranging diet than other closely related beetles in the Cassidinae family as experimentally, the beetle has also been observed consuming several nonnative host plants such as Ipomoea batatas (L.) Lamand, Ipomoea nil (L.) Roth, Ipomoea tricolor Cav., and Convolvulus arvensis L. [3]
Young larvae do not consume leaf veins and instead consume leaf mesophyll close to the egg mass. Larvae also tend to consume leaves in a group early in their development, systematically eating leafs one at a time, but this behavior seems to dissipate as the larvae matures past the 3rd instar stage. Once the larvae pass the 3rd instar stage, they will begin to also consume leaf veins. As they prepare for metamorphosis, host plant consumption will reduce until it completely stops one day prior to pupation, as the larvae position themselves in preparation for the next stage of their life cycle. [3]
Neotropical tortoise beetles reach sexual maturation after 2 to 3 weeks. Females tend to mate once in their lifetime but are able to produce egg masses after their first copulation until their death. [3]
During copulation, 4 major movements are observed in the beetle including: soft pumping of the aedagus, swaying of the female's elytra, body jerking and vibration of the head. These movements are performed at various intervals throughout copulation. Sperm transfer from the male to the female occur during the soft pumping of the aedagus. Copulation in the beetles can occur for approximately 45 minutes to 3 hours. Although neotropical tortoise beetles do demonstrate pre-copulatory courtship, they do not exhibit any postcopulatory courtship and, upon retracting the aedagus, dismount the female and walk away. [8] After copulation, females can expel a droplet from their genitals that contains spermatozoa. This behavior is seen much more in virgin females and is related to female sexual selection. [3]
Neotropical tortoise beetles demonstrate sexual selection, as there tends to be a sexually selected advantage for flagellum length in males. Females tend to have a rigid, curvy spermathecal duct that is difficult to reach. Additionally, contraction and relaxation of the duct can inhibit the uptake of sperm by the female. Due to the length of the spermathecal duct in female neotropical tortoise beetles, male beetles have developed extensive flagellum that can be up to three times the body length of the male. This can be attributed to the fact that male flagellum length is directly correlated with male reproductive success. Therefore, females tend to select for those males that have longer flagella and these longer flagella are also naturally selected for due to them increasing the success of mating for males. Flagella length is not selected against as when it reaches the ampulla, it becomes trapped and the flagellum coils on itself to maintain proper location to ensure mating success, allowing runaway selection for flagellum length. [9]
Neotropical tortoise beetle pupae face the dangers of predation by other insects including ants, such as weaver ants (Camponotus senex) and Azteca ants. During metamorphosis, F.oxysporum fungus coats the beetles thoroughly, protecting them against predators. Research has shown that larvae without this coating were much less likely to survive against predators than those who were coated by the fungus. In exchange for this protection, beetles serve as a vessel for spreading the fungus to its host plants. As they oftentimes carry the fungus on their legs, the fungus follows them to their host plants ultimately infecting the plant. This infection leads to wilt disease in the plant, inducing the death of the host plant. Overall, this life-long symbiotic relationship is beneficial for the beetle as it protects the survivability of their offspring, but it is also important to the spread of the fungus, as without the beetle, the fungus exhibits great difficulty in infecting plants. [10]
The Colorado potato beetle is also known as the Colorado beetle, the ten-striped spearman, the ten-lined potato beetle, or the potato bug. It is a major pest of potato crops. It is about 10 mm long, with a bright yellow/orange body and five bold brown stripes along the length of each of its elytra. Native to the Rocky Mountains, it spread rapidly in potato crops across America and then Europe from 1859 onwards.
The insects of the beetle family Chrysomelidae are commonly known as leaf beetles, and include over 37,000 species in more than 2,500 genera, making up one of the largest and most commonly encountered of all beetle families. Numerous subfamilies are recognized, but the precise taxonomy and systematics are likely to change with ongoing research.
The tansy beetle is a species of leaf beetle. The common name derives from its main foodplant, Tansy, but it can also use other wetland plants such as Gypsywort and Water Mint. It measures 7.7–10.5 mm in length and has a characteristic bright metallic green colouration, with pitted elytra and a coppery tinge. In addition to the nominotypical subspecies, which repeats the specific name, C. graminis graminis, there are five further distinct subspecies of Tansy beetle, which, collectively, have a Palearctic distribution, although in the majority of countries where it is found the species is declining. In the United Kingdom it is designated as 'Nationally Rare'. The stronghold population here is located along the banks of the river Ouse in York, North Yorkshire. Other, small, fenland populations exist at Woodwalton Fen and at Welney Wildfowl and Wetlands Trust (WWT) reserve.
The Cassidinae are a subfamily of the leaf beetles, or Chrysomelidae. The antennae arise close to each other and some members have the pronotal and elytral edges extended to the side and covering the legs so as to give them the common name of tortoise beetles. Some members, such as in the tribe Hispini, are notable for the spiny outgrowths to the pronotum and elytra.
Charidotella sexpunctata, the golden tortoise beetle, is a species of beetle in the leaf beetle family, Chrysomelidae. It is native to the Americas, and very broadly distributed.
The thistle tortoise beetle is a species of beetle in the subfamily Cassidinae and the genus Cassida. The thistle tortoise beetle can be recognized by its green, rounded back and it can be found on thistle plants in many regions of North America and Europe. The thistle tortioise beetle was first discovered in 1902 in Lévis, Quebec. In 1931, Nellie F. Paterson was the first to document the mature larva. Later, the instar larva of this species was first recorded in 2004 by Jolanta Świętojańska. The thistle tortoise beetle exhibits multiple defense behaviors, such as a flexible shield, providing a barrier against the mandibles of predators, and an excretion that protects the eggs as well.
Galeruca tanaceti is a species of leaf beetle found in the Palearctic realm, and is the type species of the genus Galeruca. It feeds on various plants in both its adult and larval stages. The species was first described by Carl Linnaeus in his 1758 10th edition of Systema Naturae.
Chrysomela populi is a species of broad-shouldered leaf beetle belonging to the family Chrysomelidae, subfamily Chrysomelinae.
Acromis spinifex is a species of tortoise beetle from South America. The males have enlarged elytra which are probably used in male–male combat, while females are among the few tortoise beetles to show maternal care of their offspring.
Chelymorpha is a genus of tortoise beetles and hispines in the family Chrysomelidae. There are more than 70 described species in Chelymorpha.
Chelymorpha cribraria is a species of leaf beetle in the family Chrysomelidae. It is found in the Caribbean Sea, Central America, North America, and South America. This beetle is often mistaken for the neotropical tortoise beetle due to their similar color and shape.
Cassida malaysiana is a species of leaf beetle, situated in the subfamily Cassidinae and the genus Cassida. It was described as a new species in 2010 from specimens collected in Malaysia in 2005.
Xenicomorpha is a genus of beetle belonging to the leaf beetle family, Chrysomelidae, containing a single species, X. scapularis. Both the larvae and the adults (imago) are herbivores.
Platypria (Platypria) hystrix, is a species of leaf beetle found in India, China, Indonesia, Myanmar, Nepal, Sri Lanka, Thailand and Vietnam.
Laccoptera (Laccopteroidea) quatuordecimnotata, is a species of leaf beetle native to India, and Sri Lanka.
Notosacantha vicaria is a species of leaf beetle native to India, and Sri Lanka.
Silana farinosa, commonly known as curry-leaf tortoise beetle, is a species of leaf beetle native to Indo-China, India, Sri Lanka, Thailand and introduced to Peninsular Malaysia.
The Neotropical tortoise beetle tribe Spilophorini comprises two genera, Calyptocephala Chevrolat, 1836 and Spilophora Boheman, 1850. Biological information is limited but the life cycle includes six larval instars and the larvae construct a shield of their cast skins.