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Trillium cuneatum

Raf.

Little Sweet Trillium

G4Apparently Secure (G4G5) Found in 18 roadless areas NatureServe Explorer →
G4Apparently SecureGlobal Rank
Least concernIUCN
High - lowThreat Impact
Identity
Unique IDELEMENT_GLOBAL.2.145281
Element CodePMLIL20060
Record TypeSPECIES
ClassificationSpecies
Classification StatusStandard
Name CategoryVascular Plant
IUCNLeast concern
Endemicendemic to a single nation
KingdomPlantae
PhylumAnthophyta
ClassMonocotyledoneae
OrderLiliales
FamilyMelanthiaceae
GenusTrillium
Other Common Names
little sweet Betsy (EN)
Concept Reference
Kartesz, J.T. 1994. A synonymized checklist of the vascular flora of the United States, Canada, and Greenland. 2nd edition. 2 vols. Timber Press, Portland, OR.
Taxonomic Comments
The species may be split out into several different taxa.
Conservation Status
Rank Method Rank calculation - Biotics v2
Review Date2019-10-22
Change Date1988-12-09
Edition Date2019-10-22
Edition AuthorsFrances (2019)
Threat ImpactHigh - low
Range Extent200,000-2,500,000 square km (about 80,000-1,000,000 square miles)
Number of Occurrences> 300
Rank Reasons
Trillium cuneatum is a perennial, herbaceous wildflower that is abundant throughout its range. It is threatened by non-native species and white-tailed deer but the overall impact of these threats is low. In the past, much of its range was converted to pine plantations and cotton plantations but those threats are no longer pervasive at this time.
Range Extent Comments
Trillium cuneatum occurs in the eastern United States from North Carolina west to Kentucky and south to Georgia. There is a planted population in Virginia, and it may have escaped cultivation in Michigan. It may also have been introduced to Illinois, Maryland, and Pennsylvania.
Threat Impact Comments
Trillium cuneatum is threatened by invasive non-native species, especially bush honeysuckles (especially Lonicera mackii). It is also threatened by browsing by white-tailed deer. In the past, threats from conversion to plantations were widespread.
Ecology & Habitat

Reproduction

Trillium seeds have an elaiosome, an oily, lipid-rich attachment that is highly attractive to ants. The ants carry the seeds to their nest, eat the attachment, and leave the seeds in tunnels in their nests (FNA 2002a, Leege et al. 2010). The seeds later germinate en masse (Case and Case 1997). Yellow jackets (Vespula spp.) and other wasps are similarly attracted to the elaiosome. Yellow jackets are documented seed dispersers for three species (T. catesbaei, T. cuneatum, T. undulatum) (Zettler et al. 2001). Ants carry the seeds an average of about 1m whereas yellow jackets disperse seeds an average of 1.4m (Chafin 2010, Zettler et al. 2001). Long distance dispersers include mammals, such as white-tailed deer (Odocoileus virginianus) and woodchucks (Marmota monax) (Chafin 2010, Vellend et al. 2006). Similarly, it is suspected that elk (Cervus canadensis) and mule deer (Odocoileus hemionus) of the western U.S.A. are capable of dispersing seeds over long distances (Bartuszevige and Endress 2008).

All Trillium have rhizomes but the frequency of asexually reproduction varies (Chauhan et al. 2019, FNA 2002a, Ohara 1989).

Trillium seeds exhibit a somewhat unique kind of dormancy called deep simple double morphophysiological dormancy, meaning they require two winters and one summer to complete dormancy break. After dispersal, roots (radicles) emerge in the first spring and leaves (epicotyls) begin growing in the second spring. The result is that Trillium seeds are generally about 1.5-2 years before they are non-dormant. If root emergence does not occur during the first spring, the next opportunity for root emergence would be the third spring and epicotyl emergence would occur during the fourth spring after dispersal (Walck et al. 2005). Age to maturity, or flowering, is variable and has been recorded from 4 to 20 years depending on growing conditions (Case and Case 1997).
Terrestrial Habitats
Forest - Hardwood
Other Nations (1)
United StatesN4
ProvinceRankNative
MississippiSNRYes
PennsylvaniaSNANo
MichiganSNANo
GeorgiaS5Yes
South CarolinaSNRYes
North CarolinaS3Yes
TennesseeSNRYes
AlabamaSNRYes
KentuckyS4Yes
Threat Assessments
ThreatScopeSeverityTiming
1 - Residential & commercial developmentLarge (31-70%)Moderate - slightLow (long-term)
1.1 - Housing & urban areasLarge (31-70%)Moderate - slightLow (long-term)
2 - Agriculture & aquaculturePervasive (71-100%)Serious - moderateInsignificant/negligible or past
2.1 - Annual & perennial non-timber cropsPervasive (71-100%)Serious - moderateInsignificant/negligible or past
2.1.3 - Agro-industry farmingPervasive (71-100%)Serious - moderateInsignificant/negligible or past
8 - Invasive & other problematic species, genes & diseasesPervasive (71-100%)Serious - slightHigh (continuing)
8.1 - Invasive non-native/alien species/diseasesPervasive (71-100%)Serious - slightLow (long-term)
8.1.1 - Unspecified speciesPervasive (71-100%)Serious - slightLow (long-term)
8.2 - Problematic native species/diseasesPervasive (71-100%)Serious - moderateHigh (continuing)
8.2.2 - Named speciesPervasive (71-100%)Serious - moderateHigh (continuing)

Plant Characteristics
DurationPERENNIAL, Long-lived
Economic Value (Genus)Yes
Roadless Areas (18)
Georgia (8)
AreaForestAcres
Boggs CreekChattahoochee National Forest2,073
Cedar MountainChattahoochee National Forest1,083
Helton CreekChattahoochee National Forest2,348
Kelly RidgeChattahoochee National Forest8,325
Lance CreekChattahoochee National Forest9,025
Pink KnobChattahoochee National Forest12,127
Sarah's CreekChattahoochee National Forest6,888
Tate BranchChattahoochee National Forest1,069
North Carolina (5)
AreaForestAcres
Cheoah BaldNantahala National Forest7,795
Jarrett CreekPisgah National Forest7,485
Overflow CreekNantahala National Forest3,379
Tusquitee BaldNantahala National Forest13,670
Yellowhammer Branch (add.)Nantahala National Forest1,255
South Carolina (1)
AreaForestAcres
Big MountainSumter National Forest2,337
Tennessee (3)
AreaForestAcres
Brushy RidgeCherokee National Forest7,469
Sycamore CreekCherokee National Forest6,984
Upper Bald RiverCherokee National Forest9,202
Virginia (1)
AreaForestAcres
Southern MassanuttenGeorge Washington National Forest11,985
References (18)
  1. Bartuszevige, A.M., and B.A. Endress. 2008. Do ungulates facilitate native and exotic plant spread? Seed dispersal by cattle, elk and deer in northeastern Oregon. Journal of Arid Environments 72: 904-913.
  2. Case, F.W. and R.B. Case. 1997. Trilliums. Timber Press, Portland Oregon.
  3. Chafin, L. G. 2010d. Species account for <i>Trillium persistens </i>for Georgia Department of Natural Resources. Online. Available: georgiawildlife.com/sites/default/files/uploads/wildlife/nongame/pdf/accounts/plants/trillium_persistens.pdf.
  4. Chauhan, H., A. Bisht, I. Bhatt, A. Bhatt, and D. Gallacher. 2019. <i>Trillium </i>- toward sustainable utilization of a biologically distinct genus valued for traditional medicine. The Botanical Review 85(3): 252-272.
  5. Fernald, M.L., and A.C. Kinsey. 1943. Edible Wild Plants of Eastern North America. Idlewild Press, Cornwall-on-Hudson, NY. xiv+452 pp.
  6. Flora of North America Editorial Committee (FNA). 2002a. Flora of North America north of Mexico. Vol. 26. Magnoliophyta: Liliidae: Liliales and Orchidales. Oxford Univ. Press, New York. xxvi + 723 pp.
  7. Kartesz, J.T. 1994. A synonymized checklist of the vascular flora of the United States, Canada, and Greenland. 2nd edition. 2 vols. Timber Press, Portland, OR.
  8. Klest, S.M. 2002. Propagation Protocol for Western Trilliums. Native Plants Journal 3(1):22-23.
  9. Leege, L. M., J. S. Thompson, D.J. Parris. 2010. The Responses of Rare and Common Trilliums (<i>Trillium reliquum</i>, <i>T. cuneatum</i>, and <i>T. maculatum</i>) to Deer Herbivory and Invasive Honeysuckle Removal. Castanea 75(4): 433-443.
  10. Lewis, Walter H., and Memory P.F. Elvin-Lewis. 1977. Medical Botany: Plants Affecting Man's Health. John Wiley and Sons, New York, New York. 515 p.
  11. Miller, C. N., S. R. Whitehead and C. Kwit. 2020. Effects of seed morphology and elaiosome chemical composition on attractiveness of five <i>Trillium </i>species to seed-dispersing ants. Ecology and Evolution 10: 2860-2873. DOI: 10.1002/ece3.6101
  12. Ohara, M. 1989. Life history evolution in the genus Trillium. Plant Species Biology 4:1-28.
  13. Rahman, S., M. Ismail, M. Khurram, I. Ullah, F. Rabbi, and M. Iriti. 2017. Bioactive steroids and saponins of the genus <i>Trillium. </i> Molecules 22(12): 2156.
  14. Trillium workshop group. 2019. , L. L. Gaddy, A. Floden, A. Frances, A. Highland, D. Leaman, T. Littlefield, C. Meredith, S. O'Bryan, L. Oliver, E. Schilling, A. Schotz, A. Walker, K. Wayman. Status assessment workshop at Mt. Cuba Center, Oct. 21-23, 2019.
  15. Vellend, M., J. Myers, S. Gardescu, and P. Marks. 2003. Dispersal of <i>Trillium</i> seeds by deer: Implications for long-distance migration of forest herbs. Ecology 84(4):1067-1072.
  16. Walck, J.L., J.M. Baskin, C.C. Baskin, and S.N. Hidayati. Defining transient and persistent seed banks in species with pronounced seasonal dormancy and germination patterns. Seed Science Research 15: 189-196. DOI: 10.1079/SSR2005209
  17. Wallace, L. and C. Doffitt. 2013. Genetic structure of the mesic forest-adapted herbs <i>Trillium cuneatum </i>and <i>Trillium stamineum</i> (Melanthiaceae) in the south-central United States. Castanea 78(2): 154-162.
  18. Zettler, J. A., T. P. Spira, and A. A. Craig. 2001. Yellow Jackets (<i>Vespula</i> spp.) Disperse <i>Trillium</i> (spp.) Seeds in Eastern North America. American Midland Naturalist 146(2):444-446.