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Crimson Saltflat Tiger Beetle - Cicindela fulgida
Native Species
Global Rank:
G5
State Rank:
S4
Agency Status
USFWS:
USFS:
BLM:
External Links
General Description
The following is taken from Wallis (1961), Willis (1966), Kippenhan (1994), Acorn (2001), and Pearson et al (2015). Body length is 10-13 mm. Above is shiny metallic copper to brilliant reddish-brown, some populations with green, blue, dark purple or black individuals, some with contrasting margins of bright green. White maculations are thick and complete, shoulder (humeral) maculation long and touching or nearly touching the middle maculation. In some populations the maculations merge to connect along the outer margin of the elytra. Elytra is deeply punctate (pitted). Below, metallic green to blue. Forehead hairy, labrum short with three teeth.
Phenology
Tiger beetle life cycles fit two general categories based on adult activity periods. “Spring-fall” beetles emerge as adults in late summer and fall, then overwinter in burrows before emerging again in spring when mature and ready to mate and lay egg. The life cycle may take 1-4 years. “Summer” beetles emerge as adults in early summer, then mate and lay eggs before dying. The life cycle may take 1-2 years, possibly longer depending on latitude and elevation (Kippenhan 1994, Knisley and Schultz 1997, and Leonard and Bell 1999). Adult Cicindela fulgida, a spring-fall species, typically April to June and July to October across the range (Ferris 1969, Carter 1989, Kippenhan 1994, Acorn 2001, Larochelle and Larivière 2001, and Pearson et al. 2015). In Montana, adults are present at least mid-May to June and mid-August to early September (Nate Kohler personal communication).
Diagnostic Characteristics
The following comes from Wallis (1961), Kippenhan (1994), Acorn (2001), Pearson et al. (2015). Combination of smaller size, shiny elytra with thick and complete maculations, and occurrence on saline habitats help distinguish this from many other tiger beetles. Most similar to the Dark Saltflat Tiger Beetle (
C. parowana) but it does not occur in Montana nor do the two species overlap in range.
C. parowana has a longer labrum (among other subtle differences). The
Blowout Tiger Beetle (
C. lengi) is larger, less shiny, and tends to occur in sandy habitats, not saline. The
Oblique-lined Tiger Beetle (
C. tranquebarica) is much larger, less polished looking, and the shoulder (humeral) maculation is much narrower at the shoulder.
Species Range
Montana Range
Range Descriptions
Native
Range Comments
Cicindela fulgida is restricted to the Great Plains and intermountain valleys of the southern Rocky Mountains, from southern Alberta, Saskatchewan, and Manitoba to eastern Utah, northeastern Arizona, New Mexico, northern Texas, and western Oklahoma. Reported throughout Montana in the prairie regions east of the Rocky Mountains. Four subspecies are recognized, based largely on body size and extent and shape of the elytra maculations, although subspecies considered weakly supported (Willis 1966, and Pearson et al. 2015). C. fulgida fulgida throughout the eastern Great Plains from extreme southeastern Saskatchewan and southwestern Manitoba to eastern New Mexico, northern Texas, and western Oklahoma; C. f. pseudowillistoni throughout the western Great Plains and intermontane southern Rocky Mountains, from Montana to Arizona and New Mexico. C. f. rumppi is restricted to Torrance County of central New Mexico. C. f. westbournei is confined to the northern Great Plains and southern Alberta, Saskatchewan, and Manitoba (Wallis 1961, Acorn 2001, and Pearson et al. 2015). All but C. f. rumppi are reported from Montana.
Migration
This species is non-migratory but capable of dispersal. When wings fully developed (macropterous) it is a strong flier, fast runner, and very active (Larochelle and Larivière 2001).
Habitat
Adult and larval tiger beetle habitat is essentially identical. The larvae live in soil burrows (Knisley and Schultz 1997). Across the range Cicindela fulgida is associated with saline flats, alkaline soils (pH up to 8.5), dry mud flats, ditches, saline margins (wet or dry) of lakes, reservoirs, marshes, ponds, rivers, sand flats, in grasslands and prairies, always in presence of sparse short grass or small shrubs at edges of open areas (Vaurie 1950, Ferris 1969, Hooper 1969, Knisley 1984, Carter 1989, Kippenhan 1994, Acorn 2001, Larochelle and Larivière 2001, Kritsky and Smith 2005, and Pearson et al. 2015). In Montana, habitat includes saline areas along roads, lake margins, and reservoirs to at least 3842 ft (1171 m) elevation (Vaurie 1950, Nate Kohler personal communication).
Food Habits
Larval and adult tiger beetles are predaceous. In general, both feed considerably on ants (Wallis 1961, and Knisley and Schultz 1997). Adults can capture prey without the use of antennae or vision (Riggins and Hoback 2005). The diet of adult Cicindela fulgida in the field includes ants, acridid grasshoppers, other insects, and spiders. The diet in captivity includes both live and dead dipterans (fruit flies). Larval foods not described (Vaurie 1950, Larochelle and Larivière 2001, and Riggins and Hoback 2005).
Ecology
Larval tiger beetles live in burrows and molt through three instars to pupation, which also occurs in the larval burrow. Adults make shallow burrows in soil for overnight protection, deeper burrows for overwintering. Adults are sensitive to heat and light and most active during sunny conditions. Excessive heat during midday on sunny days drives adults to seek shelter among vegetation or in burrows (Wallis 1961, and Knisley and Schultz 1997). Most subspecies of
Cicindela fulgida have a narrow range of ecological tolerance (stenotopic) with the exception of
C. fulgida fulgida, which has a broad range of ecological tolerance (eurytopic) and the widest distribution of the subspecies. Larval burrows excavated among vegetation in vicinity of hummocks, along margins of small flats, and along sloping stream banks (Larochelle and Larivière 2001). Adults are diurnal and gregarious, very active beginning in early morning and especially so at midday but may remain motionless or hide in round holes in the ground or under alkaline crusts on rainy and cloudy days. Predators apparently not described but probably include asilid (robber) flies and various birds. Not especially wary, prefers to run rapidly when pursued, escape flights tend to be short and erratic (Vaurie 1950, Ferris 1969, and Larochelle and Larivière 2001). Associated tiger beetle species include
C. (=Eunota) circumpicta,
C. (=Ellipsoptera) marutha,
C. (=Ellipsoptera) nevadica,
C. (=Cicindelida) nigrocoerulea,
C. (=Cicindelida) punctulate,
C. (=Parvindela) terricola,
C. (=Eunota) togata, and
C. tranquebarica (Spomer and Higley 1993, Kippenhan 1994, Larochelle and Larivière 2001, and Pearson et al. 2015).
Reproductive Characteristics
The life cycle of Cicindela fulgida is probably 2-3 years (Acorn 2001, and Pearson et al. 2015). Pairs noted in August (Vaurie 1950). Adult females oviposit while tunneling below the soil surface. The depth of oviposition is not known. Larval burrows (second instar) about 13.0 cm deep, duration of larval stage unknown but probably 2 years in Alberta (Acorn 2001, Larochelle and Larivière 2001, and Brust et al. 2012). No information about reproduction characteristics in Montana.
Management
Not considered rare or in need of special conservation management except for the range-restricted subspecies Cicindela fulgida rumppi (Knisley et al. 2014), which does not occur in Montana. Maintaining areas of open saline soils, which is tied to fluctuations in surface and subsurface water levels, is probably of most importance to Cicindela fulgida. Encroachment of open areas by native or exotic plants that invade saline soils might become a problem locally. Local disturbance could also be a problem for some populations where larval burrows are damaged or destroyed by trampling from livestock drawn to water sources, but grazing at appropriate times and stocking levels could also be beneficial by keeping vegetation cover more open (Knisley 2011).
Stewardship Responsibility
References
- Literature Cited AboveLegend:
View Online Publication
Acorn, J. 2001. Tiger beetles of Alberta: killers on the clay, stalkers on the sand. The University of Alberta Press, Edmonton, Alberta. 120 p.- Brust, M.L., C.B. Knisley, S.M. Spomer, and K. Miwa. 2012b. Observations of oviposition behavior among North American tiger beetle (Coleoptera: Carabidae: Cicindelinae) species and notes on mass rearing. The Coleopterists Bulletin 66(4):309-314.
- Carter, M. R. 1989. The biology and ecology of the tiger beetles (Coleoptera: Cicindelidae) of Nebraska. Transactions of the Nebraska Academy of Sciences XVII: 1-18.
- Ferris, C.D. 1969. Notes on collecting early Cicindela in eastern Wyoming. Cicindela 1:9-13.
- Hooper, R.R. 1969. A review of Saskatchewan tiger beetles. Cicindela 1(4):1-5.
- J.J. Riggins and W.W. Hoback. 2005. Diurnal tiger beetles (Coleoptera: Cicindelidae) capture prey without sight. Journal of Insect Behavior 18(3):305-312.
- Kippenhan, Michael G. 1994. The Tiger Beetles (Coleoptera: Cicindelidae) of Colorado. 1994. Transactions of the American Entomological Society 120(1):1-86.
- Knisley, C.B. 1984. Ecological distribution of tiger beetles (Coleoptera: Cicindelidae) in Colfax County, New Mexico. The Southwestern Naturalist 29(1):93-104.
- Knisley, C.B. 2011. Anthropogenic disturbances and rare tiger beetle habitats: benefits, risks, and implications for conservation. Terrestrial Arthropod Reviews 4:41-61.
- Knisley, C.B., and T.D. Schultz. 1997. The biology of tiger beetles and a guide to the species of the south Atlantic states. Virginia Museum of Natural History Special Publication Number 5. 210 p.
- Knisley, C.B., M. Kippenhan, and D. Brzoska. 2014. Conservation status of United States tiger beetles. Terrestrial Arthropod Reviews 7:93-145.
- Kohler, Nathan S. Excel spreadsheets of tiger beetle observations. 6 August 2022.
- Kritsky, G. and J. Smith. 2005. Teddy's tigers: the Cicindelidae (Coleoptera) of Theodore Roosevelt National Park, North Dakota. Cicindela 37(1-2):1-16
- Larochelle, A and M Lariviere. 2001. Natural history of the tiger beetles of North America north of Mexico. Cicindela. 33:41-162.
- Leonard, Jonathan G. and Ross T. Bell, 1999. Northeastern Tiger Beetles: a field guide to tiger beetles of New England and eastern Canada. Boca Raton, FL: CRC Press. 176 p.
- Pearson, D.L., C.B. Knisley, D.P. Duran, and C.J. Kazilek. 2015. A field guide to the tiger beetles of the United States and Canada, second edition. New York, NY: Oxford University Press. 251 p.
- Spomer, S.M and L.G. Higley. 1993. Population status and distribution of the Salt Creek tiger beetle, Cicindela nevadica lincolniana Casey (Coleoptera: Cicindelidae). Journal of the Kansas Entomological Society 66(4):392-398.
- Vaurie, P. 1950. Notes on the habitats of some North American tiger beetles. Journal of the New York Entomological Society 58(3):143-153.
- Wallis, J.B. 1961. The Cicindelidae of Canada. Toronto, Ontario, Canada: University of Toronto Press. 74 p.
- Willis, H.L. 1966. Bionomics and zoogeography of the tiger beetles of saline habitats in the central United States (Coleoptera: Cicindelidae). Ph.D. Dissertation. Lawrence, KS: University of Kansas. 312 p.
- Additional ReferencesLegend: View Online Publication
Do you know of a citation we're missing?- Bousquet, Yves. 2012. Catalogue of Geadephaga (Coleoptera; Adephaga) of America north of Mexico. ZooKeys. 245:1-1722.
- Brosius, T.R. and L.G. Higley. 2013. Behavioral niche partitioning in a sympatric tiger beetle assemblage and implications for the endangered Salt Creek tiger beetle. PeerJ 1(1):e169. 18p.
- Pearson, D.L., C.B. Knisley, and C.J. Kazilek. 2006. A field guide to the tiger beetles of the United States and Canada: identification, natural history, and distribution of the Cicindelidae. Oxford University Press, New York, New York. 227 pp.
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