''Enchenopa binotata'' (Hemiptera: Membraciade) is a complex of multiple species found mostly in Eastern North America, but have also been reported in Central America. They are commonly referred to as treehoppers and are sap-feeding insects. The species in the complex look similar to each other in morphology, but are identified as different species by the host plant they occupy.

Biology

Morphology

Nymphs (juveniles) of ''E. binotata'' start out to be ≤1mm with gray and black coloration. Nymphs have 5 instars until they molt into adulthood, which can take 3–4 weeks. As adults, they can range from 7-9mm in size. and have two yellow markings on their back. Their species name is derived from these two markings; ''bi-'', meaning "two", ''-notata'', meaning "to mark." They form thorn-like structures on their head called a pronotum. These treehoppers are true bugs, belonging to the order

Hemiptera Hemiptera (; ) is an order (biology), order of insects, commonly called true bugs, comprising over 80,000 species within groups such as the cicadas, aphids, planthoppers, leafhoppers, Reduviidae, assassin bugs, Cimex, bed bugs, and shield bugs. ...

, which all share a common mouth morphology; sucking mouthparts. enchenopa-binotata-nymphs.jpg, Nymph progression of ''E. binotata'' Nymphs of enchenopa binotata closer.jpg, Nymphs (juvenile) ''E. binotata'' treehoppers on ''Ptelea trifoliata''(wafer ash) Older nymphs on ptelea.jpg, Older nymphs on wafer ash Treehoppers credit Kasey Fowler-Finn IMG 2873 WEB.jpg, Adult ''E. binotata'' on wafer ash credit: Dr. Kasey Fowler-Finn

Vibrational communication

Male ''E. binotata'' treehoppers make substrate-borne vibrations on the stems, petioles, and leaves of their host plants that travel throughout the plant. Females detect these vibrational signals with specialized structures on their legs and they also respond through the plant. Male signals are more complex than female responses. Male and female signals are tonal, but females respond with grunt-like sounds that are at a lower frequency than the males. Females have specific species preferences, and prefer signals that are close to these conspecific frequencies, but frequencies can change with temperature fluctuations. Despite these fluctuations, females are able to distinguish their own species. Females duet with the males to help the male locate the females.Cocroft, Reginald B., and Rafael L. Rodríguez. (2005) "The behavioral ecology of insect vibrational communication." Bioscience 55.4: 323-334. Substrate-borne vibrations are not unique to treehoppers, most insects (more than 90%) use substrate-borne vibrations to communicate within species and between species. There is a variety of ways insects can produce vibrations to communicate and even more variation in how they utilize vibrational communication (i.e. mating calls, cooperative foraging, or catching prey).Cocroft, R. B. (2005). Vibrational communication facilitates cooperative foraging in a phloem-feeding insect. Proceedings of the Royal Society of London B: Biological Sciences, 272(1567), 1023-1029.

Mating behavior and reproduction

Males search for mates by flying from one plant to another. As they land, they produce advertisement signals and wait for females to respond.Wood, T.K. & Guttman, S.I., 1982. Ecological and behavioural basis for reproductive isolation in the sympatric Enchenopa binotata complex (Homoptera: Membracidae). Evolution, 36: 233-242. Different species in this

clade A clade (), also known as a monophyletic group or natural group, is a group of organisms that are monophyletic – that is, composed of a common ancestor and all its lineal descendants – on a phylogenetic tree. Rather than the English term, ...

are most divergent in the frequency (Hz) of their mating signals.Mcnett, G.D. and Cocroft, R.B. (2008). Host shifts favor vibrational signal divergence in Enchenopa binotata treehoppers. Behavioral Ecology. 19.3: 650-656. Males fly or hop from plant to plant looking for female aggregations.Fowler-Finn, Kasey D., et al. "Male Enchenopa treehoppers (Hemiptera: Membracidae) vary mate-searching behavior but not signaling behavior in response to spider silk." Naturwissenschaften 101.3 (2014): 211-220. Females only mate once, while males mate multiples times. Soon after a female mates, she would start ovipositing eggs into the stem of the plant. Females have saw-like

ovipositor The ovipositor is a tube-like organ used by some animals, especially insects, for the laying of eggs. In insects, an ovipositor consists of a maximum of three pairs of appendages. The details and morphology of the ovipositor vary, but typical ...

s that allow them to cut a slit into the plant stem and deposit her eggs. When the slits are filled up, she covers them with white secretions called egg froths. The egg froth protects the eggs from the elements, biotic and abiotic.Wood, T. K. "Divergence in the Enchenopa binotata Say complex (Homoptera: Membracidae) effected by host plant adaptation." Evolution 34.1 (1980): 147-160.

Host-shifts and sympatric speciation

Assortative mating

Adult females mostly respond to conspecific signals. Females that are from a different host plant than the male rarely responds to the male's signals. If they do respond, there is even a lower chance of mating success. Females have mating windows that conspecific males follow. This sort of reproductive isolation has contributed to the divergence of the clade. Males and females closer in age are more likely to form pre-copulatory and copulatory pairs. Larger time gaps between plant phenologies creates more disruption in the gene flow between sympatrically occurring species.Wood, T. K., & Keese, M. C. (1990). Host-plant-induced assortative mating in Enchenopa treehoppers. Evolution, 619-628. Females tend to stay in their natal plants and prefer to mate and lay their eggs on it, which is called philopatry. Eggs that were laid non-host plants have higher mortality due to different plant nutrition and the absence of native ants that nurture and protect nymphs.

Phenology

Life histories of this species vary according to the phenology of their host plants. These treehoppers lay their eggs on its host plant's branches, as well as spend their juvenile and adult life on one plant.Wood, T.K., 1980. Intraspecific divergence in ''Enchenopa binotata'' Say (Homoptera: Membracidae) effected by host plant adaptation. Evolution, 34: 147-160. Egg hatching of these treehoppers are tied into the sap flow of their host plants. After winter, flow of the plant's sap to their stems is the stimuli the eggs need to start hatching. Once they have hatched from the stems as nymphs, they molt until adulthood (final form). Males start signaling first a week after they reach adulthood. Females become reproductively receptive 1–2 weeks about the males. After reproducing, females stay on one plant and oviposit their eggs continuously until they expire or until the first frost hits. Males live shorter than females and usually die shortly after mating a number of times. Proposed phylogenetic tree for Enchenopa

Proposed phylogenetic tree for Enchenopa

The complex has multiple species under the same name followed by the genus of its host plant (i.e. ''Enchenopa binotata'' 'Ptelea' for species that live in ''Ptelea trifoliata''). The nutritional value of the host plant's sap could delay or boost adult maturation and egg hatching. Sap with more essential nutrients or more sap flow for the species can promote faster maturation and/or egg hatching. Species on different host plants have developed allochronic phenologies. This means that species on different host plants have evolved different timing in their life history. Varying male signals that species of Enchenop binotata make

Varying male signals that species of Enchenop binotata make

Phylogenetics

Phylogenetic data have showed that this species of Eastern North American treehoppers (''E. binotata'') diverged from two closely related species of ''Enchenopa'' from Central and South America.Guttman, Sheldon I., Thomas K. Wood, and Alvan A. Karlin. "Genetic differentiation along host plant lines in the sympatric Enchenopa binotata Say complex (Homoptera: Membracidae)." Evolution (1981): 205-217. These two ''Enchenopa'' species are known to be

polyphagous Feeding is the process by which organisms, typically animals, obtain food. Terminology often uses either the suffixes -vore, -vory, or -vorous from Latin ''vorare'', meaning "to devour", or -phage, -phagy, or -phagous from Greek φαγε ...

(feeds on multiple species of plants) as opposed to ''E. binotata'' that are monophagous (only feeds on one species of plants). Male signal frequency is more heritable than female preference for certain frequencies. This means that there is more selection pressure on male signal frequency than female preference. Female choice might actually be the selection pressure that drove the divergence of male signal frequency in the ''E. binotata'' species complex.

Host plants of species in the complex

* American bittersweet '' Celastrus scandens''Rodriguez, R. L., Ramaswamy, K., and Cocroft, R. B. (2006). Evidence that females preferences have shaped male signal evolution in a clade of specialized plant-feeding insects. ''Proc. R. Soc.'' 273: 2585-2593. * Black haw '' Viburnum prunifolium'' * Black locust '' Robinia pseudoacacia'' * Redbud '' Cercis canadensis'' * Tulip tree '' Liriodendron'' ''tulipifera'' * Shagbark hickory ''

Carya ovata ''Carya ovata'', the shagbark hickory, is a common hickory in the Eastern United States and southeast Canada. It is a large, deciduous tree, growing well over tall, and can live more than 350 years. The tallest measured shagbark, located in Sav ...

'' * Wafer ash/hop tree '' Ptelea trifoliata'' * Black walnut '' Juglans nigra'' * Butternut '' Juglans cinerea''

References

External links

Bug GuideDiscover LifeCocroft LabFowler-Finn LabTreehopper Sounds
{{Taxonbar, from=Q10483630 Membracinae Fauna of North America