Triodia scintillans

Triodia scintillans, the sparkling spinifex, or salt and vinegar chips spinifex^[2] is a species of grass in the genus Triodia. It tastes like salt and vinegar potato chips.^[1][3]

Triodia scintillans
Scientific classification
Kingdom:	Plantae
Clade:	Tracheophytes
Clade:	Angiosperms
Clade:	Monocots
Clade:	Commelinids
Order:	Poales
Family:	Poaceae
Genus:	Triodia
Species group:	Triodia basedowii species complex
Species:	T. scintillans
Binomial name
Triodia scintillans B.M.Anderson [wikidata; species] & M.D.Barrett 2017[1]
Distribution of taxa in the Triodia basedowii complex, with a superimposed phylogenetic tree. T. scintillans is in purple and labeled "S".

Names

The specific epithet scintillans was chosen with help from Alex George and derives from the Latin word scintillo which means "to sparkle".^[1] This refers to the distinct sparkly droplets on young leaves which is especially apparent in direct sun.^[1] The common name "sparkling spinifex" is a calque of that Latin binomial.^[2] Although this plant is not in the genus Spinifex, members of the genus Triodia are commonly called "spinifex".^[4] T. vanleeuwenii is also called sparking spinifex.^[5]

Triodia scintillans is referred to as salt and vinegar chips spinifex because the little leaf droplets have a similar taste to the chips.^[3][2] The plant was not tasted intentionally, and eating it is not recommended.^[2]

The species was informally called "Triodia sp. Warrawagine" initially, referencing a cattle station in the region.^[6][1][7]

Taxonomy

Triodia scintillans is in the T. basedowii species complex along with eight other species, T. basedowii, T. birriliburu, T. chichesterensis, T. glabra, T. lanigera, T. mallota, T. nana, and T. vanleeuwenii.^[8][9] Within the complex, it is in an informal clade called the eastern group, along with T. basedowii, T. birriliburu, T. nana, and T. vanleeuwenii.^[10][8] Analysis of internal transcribed spacer^[9] and external transcribed spacer^[10] sequences show a close relative of T. scintillans is T. vanleeuwenii,^[10] which shares the leaf droplets.^[1] The two species possibly hybridize where the ranges overlap near Roy Hill Station.^[1] A more recent study on chloroplast DNA indicated that the closest relative of T. scinitillans is T. basedowii instead of T. vanleeuwenii.^[11]

Distribution

Triodia scintillans is endemic to Western Australia and found north of the Fortescue River valley in the Mackay subregion of the Great Sandy Desert and the Chichester and Fortescue subregions of the Pilbara shrublands.^[1][7] The type was collected by M. D. Barrett in Western Australia on Woodie Woodie Road, 19 kilometers south of the turn-off to Telfer.^[1]

The plant grows on slopes and plains, on primarily gravelly soils.^[1][8]

The conservation status for the species has been described as "least concern"^[1] and "not threatened".^[7]

Description

Individual plants grow in 20–50 cm tall hummocks.^[1]

The leaf sheaths are glabrous with scintillating droplets, which tend to become crystalline when dried.^[1] The purpose of the droplets is unknown, but possibly to deter herbivores.^[5]

The sheath opening is villous or woolly with 1.5–2.5 mm trichomes (hairs) that sometimes wear off on older leaves.^[1] Plants have ligules that are 0.5–1 mm long.^[1] The leaf blades are short for the genus, typically 40–100 mm long.^[1] They are glabrous or rarely with a few trichomes spreading onto the 1–3 mm long pseudopetiole.^[1]

Flowers appear on 0.7–1 m tall culms in February, March, and July–August after heavy rainfall.^[1] The inflorescences are highly-branched and 40–98 mm long racemose panicle with seven to nineteen spikelets.^[1] The pedicels are 1–18 mm long. Spikelets are 3.5–8 mm by 7–13 mm with four to ten florets.^[1] The florets are restricted by the glumes for a portion of the length.^[1] The lower glume is 2.5–4 by 4–7.8 mm and slightly scabrous to glabrous with an acuminate to acute apex.^[1] The lowest lemma is 5–9 mm long with three deep lobes.^[1] The palea ~3 by ~1 mm, with few to no trichomes underneath.^[1] The keels (main ridge) of the palea are puberulent.^[1] The keel has a thickened surface, the body less so, with the thickness becoming weaker towards the somewhat truncate and sometimes ciliate apex.^[1] The rhachilla segment is 0.5–1 mm long and the lodicules are 0.2–0.5 mm long.^[1] The anthers in the flower are 2.2–3.5 mm long.^[1] The caryopsis (seed) is unseen.^[1]

Triodia scintillans is diploid.^[10] The plastome is 135,301 bp, and its GC-content is 38.4%.^[11]

Ecology

Nothing is known to eat the grass, and cows refuse to graze on it.^[5]

References

1. Anderson, Benjamin M.; Thiele, Kevin R.; Barrett, Matthew D. (20 October 2017). "A revision of the Triodia basedowii species complex and close relatives (Poaceae: Chloridoideae)". Australian Systematic Botany. 30 (3): 197–229. doi:10.1071/SB17011.
2. Morrison, Lisa (13 November 2017). "'Salt and vinegar chips' spinifex one of eight new plant species discovered by finger-licking scientists". ABC News. Archived from the original on 4 September 2023. Retrieved 6 September 2023.
3. Dean, Signe (14 November 2017). "Scientists Have Discovered a Grass That Tastes Like Salt And Vinegar Chips". ScienceAlert. Archived from the original on 18 January 2018. Retrieved 19 January 2019.
4. Lazarides, M. (29 August 1997). "A Revision of Triodia including Plectrachne (Poaceae, Eragrostideae, Triodiinae)". Australian Systematic Botany. 10 (3): 381–489. doi:10.1071/SB96012. ISSN 1446-5701. Archived from the original on 16 December 2019. Retrieved 6 September 2023. Spinifex, the long-established popular name for species of Triodia and Plectrachne, sometimes confused with the maritime genus, Spinifex L., comprises Australian endemics that are as characteristically Australian as Eucalyptus and Acacia
5. Chen, Angus (8 December 2017). "Scientists Discover Grass Species With Intriguing 'Salt And Vinegar' Chip Flavor". NPR. Archived from the original on 7 September 2023. Retrieved 7 September 2023.
6. "Occurrence record: PERTH 5634490". The Australasian Virtual Herbarium. Atlas of Living Australia. Archived from the original on 11 September 2023. Retrieved 11 September 2023.
7. "Triodia scintillans B.M.Anderson & M.D.Barrett". Florabase—the Western Australian Flora. Western Australian Herbarium. Archived from the original on 5 September 2023. Retrieved 5 September 2023. Distribution IBRA Regions Great Sandy Desert, Pilbara. IBRA Subregions Chichester, Fortescue, Mackay.
8. Anderson, Benjamin M.; Thiele, Kevin R.; Grierson, Pauline F.; Krauss, Siegfried L.; Nevill, Paul G.; Small, Ian D.; Zhong, Xiao; Barrett, Matthew D. (April 2019). "Recent range expansion in Australian hummock grasses (Triodia) inferred using genotyping-by-sequencing". AoB Plants. 11 (2): plz017. doi:10.1093/aobpla/plz017. ISSN 2041-2851. PMC 6481909. PMID 31037212. Archived from the original on 7 September 2023. Retrieved 7 September 2023.
9. Anderson, Benjamin M.; Barrett, Matthew D.; Krauss, Siegfried L.; Thiele, Kevin (17 May 2016). "Untangling a species complex of arid zone grasses (Triodia) reveals patterns congruent with co-occurring animals". Molecular Phylogenetics and Evolution. 101: 142–162. doi:10.1016/j.ympev.2016.05.014. PMID 27179699. Archived from the original on 6 September 2023. Retrieved 6 September 2023. The T. basedowii species complex comprises T. basedowii and T. lanigera along with four informally named taxa (Western Australian Herbarium, 1998): T. sp. Shovelanna Hill (S. van Leeuwen 3835), T. sp. Little Sandy Desert (S. van Leeuwen 4935), T. sp. Peedamulla (A.A. Mitchell PRP1636) and T. sp. Warrawagine (A.L. Payne PRP 1859).... T. sp. Warrawagine is morphologically similar to T. sp. Shovelanna Hill, but has a branched inflorescence with a greater number of spikelets.
10. Anderson, Benjamin M.; Thiele, Kevin R.; Krauss, Siegfried L.; Barrett, Matthew D. (30 January 2017). "Genotyping-by-Sequencing in a Species Complex of Australian Hummock Grasses (Triodia): Methodological Insights and Phylogenetic Resolution". PLOS ONE. 12 (1). San Francisco, CA: e0171053. Bibcode:2017PLoSO..1271053A. doi:10.1371/journal.pone.0171053. PMC 5279811. PMID 28135342.
11. Wang, Rong; Liu, Kuan; Zhang, Xue-Jie; Chen, Wen-Li; Qu, Xiao-Jian; Fan, Shou-Jin (25 March 2021). Vieira, Leila D. (ed.). "Comparative Plastomes and Phylogenetic Analysis of Cleistogenes and Closely Related Genera (Poaceae)". Frontiers in Plant Science. 12: 638597. doi:10.3389/fpls.2021.638597. PMC 8030268. PMID 33841465.