Chrysopogon fallax

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Chrysopogon fallax
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Monocots
Clade: Commelinids
Order: Poales
Family: Poaceae
Subfamily: Panicoideae
Genus: Chrysopogon
Species:
C. fallax
Binomial name
Chrysopogon fallax
S.T.Blake, 1944
Synonyms

Chrysopogon benthamianus

Chrysopogon fallax is a perennial tufted grass endemic to Australia found in all mainland states except Victoria. It is commonly known as golden beard grass, ribbon grass, and weeping grass.[1]

Etymology

Chrysopogon is derived from the Greek words chrysos for golden, and pogon meaning beard. fallax comes from the Latin word for 'deceptive' because it is hard to distinguish from similar grass species.[1] The synonym Chrysopogon benthamianus is sometimes used for this taxon.[2]

Distribution and habitat

Distribution map Chrysopogon fallax

Chrysopogon fallax is common in the northern areas of continental Australia in tropical and subtropical climates, most often in open woodland and forest ecosystems.[1] It is highly adaptable to a wide variety of substrates including sand, loam and clay soils.[3]

Description

Tufts of Chrysopogon fallax from Queensland Australia

Chrysopogon fallax is a densely tufted perennial grass spreading by rooting stolons as well as seed.[4] Most leaves are basal and dead sheaths remain attached giving the plant a characteristic 'wooly' appearance.[5] Culms are 30–120 cm (12–47 in) tall with 3–5 glabrous nodes. Ligule is a row of fine hairs.[6] Blades of leaves are up to 45 cm (18 in) long and 2–7 mm (0.079–0.276 in) wide. Inflorescence is an open panicle (7–21 cm (2.8–8.3 in) long) with main branches arranged in whorls.[6][1] Spikelets are in pairs, one sessile and one pedicelled, the latter usually male or sterile. Awn geniculate (strongly bent) with a scabrous column.[6] Callus hairs golden/yellow in colour to 2 mm (0.079 in) long. Flowering is from October to July.[1]

Ecology

In northern Australia the seeds of Chrysopogon fallax are important food for the Gouldian finch, especially during the wet season. The finches grasp multiple grass stems to support their weight while they pick the seeds from the seed heads. Flocks move across areas of dense seeding Chrysopogon fallax in a wave-like motion as birds continuously move from the back of the flock to the front.[7] The roots of Chrysopogon fallax may be dug up and eaten by spectacled hare-wallabies (Lagorchestes conspicillatus) and other small macropods.[8][9]

Native grasslands become less biodiverse when cover of exotic grasses increases.[10] In north-eastern Queensland research has shown that cover of native grasses including Chrysopogon fallax declines as the introduced grass Bothriochloa pertusa increases in abundance. This likely due to a mixture of direct competition, selective grazing of more palatable natives (such as Chrysopogon fallax) and a reduction in the number of seed dispersing ant species present due to exotic grass cover.[11]

A large number of different Ustilaginomycetes (smut fungi) have been described from Chrysopogon fallax inflorescences.[12]

Seed dispersal

Chrysopogon fallax is slow to expand into available ground and to recolonise areas where it has been lost.[13] Studies with similar Chrysopogon species suggest that wind as well as ants are major methods of seed dispersal.[14]

Both seeding and the production of reproductive tillers is increased following fire.[7][4]

Economic importance

Chrysopogon fallax is important as a cattle feed in arid areas of northern Australia.[15] It can survive heavy defoliation and thus is able to persist under moderate to heavy grazing regimes.[13] Its palatability to stock is likely to vary widely depending on local growing conditions and soil substrates.[13][16][17]

References

  1. ^ a b c d e Sharp, D; Simon, BK (2002). AusGrass: Grasses of Australia. ISBN 9780643068612.
  2. ^ Veldkamp, J. F. (1999). "A revision of Chrysopogon Trin. including Vetiveria Bory (Poaceae) in Thailand and Malesia with notes on some other species from Africa and Australia". Austrobaileya: A Journal of Plant Systematics. 5 (3): 503–533. doi:10.5962/p.299625. JSTOR 41738927.
  3. ^ Silcock, R. G.; Hall, T. J.; Filet, P. G.; Kelly, A. M.; Osten, D.; Graham, T. W. G. (2015). "Floristic composition and pasture condition of Aristida/Bothriochloa pastures in central Queensland. II. Soil and pasture condition interactions". The Rangeland Journal. 37 (2): 217–226. doi:10.1071/rj14107.
  4. ^ a b Lazarides, M.; Norman, M. J. T.; Perry, R. A. (1965). "Wet-season development pattern of some native grasses at Katherine, NT". Division of Land Research & Regional Survey Technical Paper No. 26.
  5. ^ Jacobs, S. W.; Whalley, R. D. B.; Wheeler, D. J. (2008). Grasses of New South Wales (4 ed.). Armidale: University of New England. ISBN 9781921208225.
  6. ^ a b c PlantNET (The NSW Plant Information Network System). Royal Botanic Gardens and Domain Trust, Sydney. "Chrysopogon fallax S.T.Blake". Retrieved 14 June 2024.
  7. ^ a b Dostine, P. L.; Johnson, G. C.; Franklin, D. C.; Zhang, Y.; Hempel, C. (2001). "Seasonal use of savanna landscapes by the Gouldian finch, Erythrura gouldiae, in the Yinberrie Hills area, Northern Territory". Wildlife Research. 28 (4): 445–458. doi:10.1071/WR00049.
  8. ^ Lazarides, M. (2002). "Economic attributes of Australian grasses". Flora of Australia. 43: 213–244. ISBN 978-0-643-06802-5.
  9. ^ Ingleby, S.; Westoby, M. (1992). "Habitat requirements of the spectacled hare-wallaby (Lagorchestes conspicillatus) in the Northern Territory and Western Australia". Wildlife Research. 19 (6): 721–741. doi:10.1071/WR9920721.
  10. ^ Kutt, A. S.; Kemp, J. E. (2012). "Native plant diversity in tropical savannas decreases when exotic pasture grass cover increases". The Rangeland Journal. 34 (2): 183–189. doi:10.1071/RJ11048.
  11. ^ Kutt, A. S.; Fisher, A. (2010). "Ant assemblages change with increasing dominance of an exotic pasture grass in a tropical savanna woodland". Ecological Management & Restoration. 11 (1): 67–69. Bibcode:2010EcoMR..11...67K. doi:10.1111/j.1442-8903.2010.00517.x.
  12. ^ Shivas, R. G.; Cunnington, J. H.; Vánky, K. (2004). "Two new species of Ustilaginomycetes on Chrysopogon fallax from Australia". Fungal Diversity. 16: 147–156.
  13. ^ a b c McIvor, J. G. (2007). "Pasture management in semi-arid tropical woodlands: dynamics of perennial grasses". The Rangeland Journal. 29 (1): 87–100. doi:10.1071/RJ06031.
  14. ^ Ahmad, S.; Call, C. A.; Schupp, E. W. (2000). "Regeneration ecology of Chrysopogon aucheri and Cymbopogon jwarancusa in upland Balochistan: I. Morphology, viability and movement of seeds (spikelets)". Pakistan Journal of Biological Sciences. 3 (10): 1583–1587. doi:10.3923/pjbs.2000.1583.1587.
  15. ^ O'Reagain, P. J.; Bushell, J. J. (2011). The Wambiana grazing trial: key learnings for sustainable and profitable management in a variable environment. State of Queensland (Department of Employment, Economic Development and Innovation).
  16. ^ Ash, A. J.; McIvor, J. G. (1998). "How season of grazing and herbivore selectivity influence monsoon tall-grass communities of northern Australia". Journal of Vegetation Science. 9 (1): 123–132. Bibcode:1998JVegS...9..123A. doi:10.2307/3237230. JSTOR 3237230.
  17. ^ Andrew, M. H. (1986). "Selection of plant species by cattle grazing native monsoon tallgrass pasture at Katherine, N.T." Tropical Grasslands. 20: 120–127.
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