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common name: a weevil
scientific name: Eurhinus magnificus Gyllenhal (Insecta: Coleoptera: Curculionidae)

Introduction - Synonymy - Distribution - Description - Biology - Host Plants and Damages - Management - Selected References

Introduction (Back to Top)

Eurhinus magnificus Gyllenhal was first reported in Florida in 2002 when a single specimen was found in an ornamental nursery in Broward County (Feiber 2002). It was collected again in 2003 near Homestead, Miami-Dade County, and was also intercepted in a shipment of bananas from Costa Rica (Fowler 2004). It is likely that this weevil was inadvertently imported into Florida through trade in live plants or plant products. In 2005, all life stages of Eurhinus magnificus were collected repeatedly in both Broward and Miami-Dade Counties from the host plant Cissus verticillata (L.) Nicolson & Jarvis (Vitaceae).

Adult Eurhinus magnificusGyllenhal, a weevil, (dorsal-lateral view).

Figure 1. Adult Eurhinus magnificus Gyllenhal, a weevil, (dorsal-lateral view). Photograph by Bryan J. Ulmer, University of Florida.

Cissus verticillata, also known by the common names of possum grape vine, princess vine, and season vine, supports the entire life cycle of Eurhinus magnificus. Eggs are laid within the stem where larvae hatch and begin to feed. The larvae complete five instars, within a gall formed at the location of oviposition, before pupating. Adults emerge from the host plant gall to feed on Cissus verticillata, mate and oviposit.

It is still to be determined if this new weevil will cause damage in the grape cultivars (Vitis spp.) in the grape growing regions of Florida.

Synonymy (Back to Top)

Eurhinus magnificus is a member of the Curculionidae-Baridinae. The original spelling of the genus, Eurhin Illiger 1807, was suppressed by the plenary power of the International Commission on Zoological Nomenclature (Melville 1985), thereby following the arguments of Zimmerman and Thompson (1983) for resolving a nomenclatural conflict between two homonymously used family-group names.

Distribution (Back to Top)

The genus includes 23 species that are widely distributed. Eurhinus magnificus occurs in Belize, Costa Rica, Guatemala, Honduras, Mexico, Nicaragua and Panama (Vaurie 1982, Schall 2002). In 2005, Eurhinus magnificus was abundant and successfully reproducing in various habitats where the host plant Cissus verticillata was present across Miami-Dade and Broward Counties. After first being reported in Florida in 2002, it appears to be established and flourishing in the southeast region of the state.

Description (Back to Top)

Adult: This insect is a robust weevil similar in body form to other Eurhinus weevils (Bondar 1948) and, like many of the other species, Eurhinus magnificus adults are brilliantly colored. The entire body is a vibrant, metallic blue-green with areas of metallic red-copper on the humeri and apex of the elytra and on the pronotum, rostrum, and legs. The mean dimensions of the adult are 5.66 mm long by 3.71 mm wide (Ulmer et al. 2007).

Adult Eurhinus magnificus Gyllenhal, a weevil, (dorsal view).

Figure 2. Adult Eurhinus magnificus Gyllenhal, a weevil, (dorsal view). Photograph by Huang Ta-I, University of Florida.

Egg: The egg is milky beige and a mean of 1.24 mm long by 0.72 mm wide (Ulmer et al. 2007).

Cissus stem opened to reveal E. magnificus Gyllenhal egg.

Figure 3. Cissus stem opened to reveal Eurhinus magnificus Gyllenhal egg. Photograph by Bryan J. Ulmer, University of Florida.

Close up of an egg of Eurhinus magnificus Gyllenhal, a weevil.

Figure 4. Close up of an egg of Eurhinus magnificus Gyllenhal, a weevil. Photograph by Bryan J. Ulmer, University of Florida.

Larva: Body stout, curved, greatest width near middle, tapered at both ends. The mean head capsule width of a fifth instar larva is 1.6 mm. A full description of the larva and pupa can be found in Ulmer et al. 2007.

Cissus stem opened to show an early instar larva of E. magnifucus Gyllenhal, a weevil.

Figure 5. Cissus stem opened to show an early instar larva of Eurhinus magnifucus Gyllenhal, a weevil. Photograph by Rita E. Duncan, University of Florida.

Fifth instar larva of Eurhinus magnificus Gyllenhal, a weevil, in a gall.

Figure 6. Fifth instar larva of Eurhinus magnificus Gyllenhal, a weevil, in a gall. Photograph by Rita E. Duncan, University of Florida.

Head capsule and mandibles of the larva of Eurhinus magnificus Gyllenhal, a weevil.

Figure 7. Head capsule and mandibles of the larva of Eurhinus magnificus Gyllenhal, a weevil. Photograph by Rita E. Duncan, University of Florida.

Pupa: Stout in appearance, with a mean length of 5.66 mm by 3.71mm wide.

Ventral view of a pupa of Eurhinus magnificus Gyllenhal, a weevil.

Figure 8. Ventral view of a pupa of Eurhinus magnificus Gyllenhal, a weevil. Photograph by Bryan J. Ulmer, University of Florida.

Lateral view of a pupa of Eurhinus magnificus Gyllenhal, a weevil.

Figure 9. Lateral view of a pupa of Eurhinus magnificus Gyllenhal, a weevil. Photograph by Rita E. Duncan, University of Florida.

Gall with ventral view of newly formed adult Eurhinus magnificus Gyllenhal, a weevil.

Figure 10. Gall with ventral view of newly formed adult Eurhinus magnificus Gyllenhal, a weevil. Photograph by Bryan J. Ulmer, University of Florida.

Sclerotized adult Eurhinus magnificus Gyllenhal, a weevil, emerging from Cissus gall.

Figure 11. Sclerotized adult Eurhinus magnificus Gyllenhal, a weevil, emerging from Cissus gall. Photograph by Rita E. Duncan, University of Florida.

Biology (Back to Top)

Adults feed on the outer layers of host plant stems and also within cavities created in the stems and the leaf petioles. Some feeding also occurs on leaf blades at the portion of the leaf directly around the attachment point of the petiole. Females oviposit in young parts of the stem (mean diameter = 2.3 mm) by creating a cavity with their rostrum and depositing a single egg. One or two eggs are laid within a single host plant internode. Gall formation becomes detectable by the first to third instar larva. The largest diameter of the gall is at the pupal stage, at this stage the mean stem size is 4.2 mm and the mean gall size was 9.2 mm.

Adult Eurhinus magnificus Gyllenhal weevils and feeding damage.

Figure 12. Adult Eurhinus magnificus Gyllenhal weevils and feeding damage. Photograph by Rita E. Duncan, University of Florida.

Oviposition cavity of Eurhinus magnificus Gyllenhal, a weevil.

Figure 13. Oviposition cavity of Eurhinus magnificus Gyllenhal, a weevil. Photograph by Bryan J. Ulmer, University of Florida.

Gall caused by larval growth of Eurhinus magnificus Gyllenhal, a weevil.

Figure 14. Gall caused by larval growth of Eurhinus magnificus Gyllenhal, a weevil. Photograph by Rita E. Duncan, University of Florida.

A single specimen of Eurhinus magnificus, reared in a greenhouse in Homestead, Florida, required approximately 83 days to develop from egg to adult during the coldest part of the year. It is likely that the development time of Eurhinus magnificus would be greatly reduced during the summer months. The presence of adults in the field and larval development observed during winter indicate that Eurhinus magnificus is capable of reproducing throughout the year in south Florida. Adults emerging from field collected galls survived nine to 47 days (mean 32 days) from the time of emergence under laboratory conditions (Ulmer et al. 2007).

Host Plants and Damage (Back to Top)

Like other members of the genus, Eurhinus magnificus larvae induce galls on the stems of Cissus spp. (Vitaceae) (Bondar 1948). Vernonia, Andira and Mikania spp. have also been suggested as host plants (Silva et al. 1968, Vaurie 1982). However, the only verified host plant of Eurhinus magnificus in Florida is Cissus verticillata.

Florida contains native species of all four genera which are also represented by species occurring over a wide range in the United States (Fowler 2004, USDA 2006). Cissus verticillata is widely distributed in the Caribbean, Central and South America, and Mexico (Lombardi 2000). It also is considered native to Florida in the United States (USDA 2005). Though Cissus verticillata is sometimes planted as an ornamental, it is a prolific perennial vine that is generally considered a weedy species when occurring with various ornamental and fruit crops in south Florida (Futch and Hall 2003).

In Trinidad and Tobago, Cissus verticillata is used for medicinal purposes against urinary problems (Lans 2006). A single adult was also found on pigmy palm, Phoenix robelenii O'Brien (Arecaceae), and one was collected from avocado, Persea americana Mill. (Lauraceae), foliage. However, no evidence of feeding or oviposition was observed on these two plants and it is likely that the collections were incidental and they are not true host plants.

In general, Cissus verticillata appear healthy and actively growing beyond the point of gall formation. However, the development of Eurhinus magnificus within the stem causes a significant malformation and often has an obvious negative impact on the host plant. Occasionally the gall and resulting damage coupled with environmental conditions results in severing the stem.

Cissus verticillata Nicolson & C.E. Jarvis vine with flowers and fruit.

Figure 15. Cissus verticillata Nicolson & C.E. Jarvis vine with flowers and fruit. Photograph by Rita E. Duncan, University of Florida.

Damage to Cissus vine caused by gall formed by Eurhinus magnificus Gyllenhal, a weevil.

Figure 16. Damage to Cissus vine caused by gall formed by Eurhinus magnificus Gyllenhal, a weevil. Photograph by Rita E. Duncan, University of Florida.

Eurhinus magnificus is not known to be a pest of commercial grapes and is not considered a threat to attack Vitis spp. (Fowler 2004). However, in a preliminary study Ulmer et al (2007) showed three of four cultivars tested were attacked by adult weevils in a no-choice situation resulting in feeding damage and galls; no larval development was apparent on any of the grape species tested. It is conceivable that this weevil could develop on other grape cultivars under different conditions. Additional studies to investigate a wide range of grape cultivars varying in physical and chemical characteristics should be undertaken before eliminating Vitis spp. as suitable host plants.

The impact of the weevil on Cissus verticillata and on other potential hosts, such as Vernonia spp. and Vitis spp., is not discernible at this early stage of colonization but necessitates future research. Further work is also required to better understand the population biology of Eurhinus magnificus and to establish its potential for range expansion in the United States.

Management (Back to Top)

Successful development of Eurhinus magnificus in the field appears to be significantly reduced by predation and fungal agents. However, an examination of approximately 200 specimens of Eurhinus magnificus revealed no evidence of parasitism for any life stage. There are no records of parasitism for Eurhinus magnificus in its native range. Capitonius tricolorvalvus Ent (Hymenoptera: Braconidae) was reared from stem galls of Cissus verticillata in Costa Rica, the host was not identified but presumed to be a beetle (Ent and Shaw 1999). Further sampling is needed to establish the parasitoid fauna, or lack of, associated with this weevil in Florida and its native range.

Selected References (Back to Top)