Rumicastrum balonense

Rumicastrum balonense, synonym Calandrinia balonensis, is a succulent plant native to arid and semi-arid regions of Australia.^[2]

Rumicastrum balonense
Scientific classification
Kingdom:	Plantae
Clade:	Tracheophytes
Clade:	Angiosperms
Clade:	Eudicots
Order:	Caryophyllales
Family:	Montiaceae
Genus:	Rumicastrum
Species:	R. balonense
Binomial name
Rumicastrum balonense (Lindl.) Carolin (2020)
Occurrence data from AVH
Synonyms[1]
Calandrinia balonensis Lindl. (1848) Claytonia balonensis (Lindl.) Tate (1880) Parakeelya balonensis (Lindl.) Hershk. (1998 publ. 1999)

The scientific name for the species comes from the Balonne River in Queensland, where the first specimen was found. Calandrinia, its former genus, is named for Jean Louis Calandrini, a 19th-century Genevan professor and botanical author,^[3] Common names for R. balonense include parakeelya, broad-leaf parakeelya, broad-leaved parakeelya and Balonne parakeelya.^[3][4][5] The word “parakeelya” derives from one of the many Aboriginal Australian names for the plant.^[6] R. balonense is marketed as a garden plant under the name Calandrinia ‘Mystique’.^[7]

Description

R. balonense is a succulent annual herb with bright green foliage that grows in a spreading form up to 60 cm across, with erect leafy flower-stems to 30 cm high.^[2][8] The leaves are fleshy, approximately 5 to 20 mm wide and 20 to 100 mm long, with a groove running lengthwise along the middle of the upper surface.^[2] Although leaves appear almost flat when viewed from above, if the leaf is turned over to display the underside, its succulence is apparent.^[8] Leaves form a rosette at the base of the plant and extend up the flower-stems.^[2]

 

R. balonense foliage

 

R. balonense flower

There are three to four flowers at the top of each stem or on short leafy branches.^[2] Flowers are vivid dark pink or purple with five petals 11 to 15 mm long and bright yellow stamens in the center.^[3] The flowers open during the day and close just before sunset. The fruit is a small capsule that contains numerous dark-red seeds. The capsule is 5 to 9 mm long and 4 to 7 mm wide, and the seeds are at least 1 mm in diameter.^[2]

Taxonomy

R. balonense is one of 66 Rumicastrum species, which are native to Australia, New Guinea, and Tasmania.^[9] Along with the pigweeds (Portulaca species), Rumicastrum are the most prominent succulent species in Australia.^[10] The Rumicastrum species were formerly classified in genus Calandrinia and considered to be monophyletic (share the same ancestry) with the 14 Calandrinia species from the Americas.^[11] However, in 1987 Australian taxonomist Roger Carolin proposed that the American and Australian Calandrinia are not closely related to each other based on morphological analyses. Follow-up studies also supported two different lineages, based in part on the absence of Calandrinia on islands along possible dispersal pathways between South America and Australia and in part on genomic data.^[12][13]

Although the need for a nomenclature change was widely agreed, a debate arose over the appropriate naming of the Australasian Calandrinia, and the new genus name is not universally agreed to.^[14] A proposal was made to rename the genus as Parakeelya on the grounds that it is used as a common name for the whole genus, derives from South Australian and Central Desert Indigenous names, and is already accepted as a synonym for some Australian species.^[15] In 2020 Mark Hershkovitz, the author of Parakeelya, published a paper arguing that the Australasian species should be reclassified into genus Rumicastrum according to established nomenclatural rules.^[14] Plants of the World Online also accepts Rumicastrum.^[1][14] Other sources are undecided.^[11]

Distribution and habitat

R. balonense is widely distributed in the arid and semi-arid zones of New South Wales, the Northern Territory, Queensland, South Australia, and Western Australia.^[3][16] It is most common on sandplains, sand dunes and rises and along sandy intermittent watercourses. It is less frequently found on gravelly hills of neutral or acidic rocks.^[2][6] The plant occurs in association with mulga and poplar box woodlands and in spinifex communities.^[2][6]

Ecology

The distinctive features and life history of R. balonense reflect the requirements of its distribution in dry regions. The most noticeable of these features is succulence, an evolutionary strategy in which plants’ leaves or roots are thickened, fleshy, and engorged to retain water in arid climates or soil conditions.^[10] Although succulence is rare among Australian plants when compared to arid regions in the Americas and Africa, it is a defining characteristic of Rumicastrum and Calandrinia.^[10] R. balonense has “leaf succulence,” in which the majority of its water reserves are stored in the leaves.^[8] R. balonense utilises crassulean acid metabolism (CAM) at a low level.^[17] In CAM photosynthesis, plants can obtain carbon dioxide by opening their stomata at night when water loss is reduced. Carbon dioxide absorbed at night is stored in dilute form in the succulent tissues until daylight, when photosynthesis is completed.^[10] Like other Rumicastrum with CAM, R. balonense obtains most of its carbon through daytime photosynthesis, unlike some other well-known succulents such as cacti that may obtain most or all required carbon at night.^[17]

R. balonense has been classified as a “drought evader,” a short-lived plant that spends most of its life as a dormant seed or a small plant, until a large rainfall event triggers germination or growth, in contrast to “drought tolerators” which are perennial plants that can survive long periods without rainfall.^[18] In drier periods R. balonense can grow as a small single rosette. After significant rainfall it rapidly develops from this single rosette to a large green mass of leaves and stems that can carpet the sandplains and dunes with massed, colourful displays.^[8] It tends to last longer than most arid or semi-arid zone annuals because of its ability to store water in its succulent leaves.^[19] R. balonense may flower any month but is most commonly reported to do so in spring.^[6][2]

Uses

R. balonense was an important food for Aboriginal people in Central Australia.^[20] Pitjantjatjara people steam the leaves, roots and stems before eating, and would eat the succulent leaves raw for their moisture content in an emergency.^[19] The small black seeds can be ground into a paste that is rich in protein (14.6 percent) and fat (17 percent), but gathering the seeds in useful quantities is labour-intensive.^[20]

The widespread use of R. balonense is reflected in numerous terms for it in Aboriginal languages:

• Alyawarr: alyemp-alyemp, lywemp-lywemp
• Anmatyerr: arrwelty-arrwelty, lywemp
• Eastern Arrernte: lyempe-lyempe, parrkelye
• Western Arrernte: ilkngwalye
• Pintupi: kumuḻ-kumuḻpa
• Pitjanjatjara: nurngi, parkilypa, tjuṉngi
• Warlpiri: parrkilyi, patanjarnngi^[19]

R. balonense leaves were also a food source for European settlers and explorers. Alice Duncan-Kemp, an author and Indigenous culture recorder, described R. balonense as palatable when cooked and dressed with seasoning or white sauce.^[20]

R. balonense is considered a palatable and useful forage species for sheep and cattle. Some Rumicastrum species have been reported to contain high levels of oxalic acid, but it is considered that none of the species, including R. balonense, occur at such abundance as to cause problems for stock.^[2] R. balonense has been classified as a preferred food source of feral camels in Central Australia.

Cultivation

A selection of this species, cv 'Mystique', has been registered and propagated as a clone.^[21] Like other Rumicastrum species, it is self-incompatible, and therefore does not set seed unless grown with other clones.^[22] It can be propagated by cuttings and the resulting plants flower prolifically, but they may be difficult to maintain for more than one year.^[23] Wild-type plants also make attractive garden plants, and if several clones are grown together, they interpollinate and set abundant seed, and if several clones are grown together, they interpollinate and set abundant seed.^[23] The seed germinates only sparsely without some form of scarification of the seed coat, but ~80% germination has been reported when the coat of the tiny seed is nicked with a scalpel, using a dissecting microscope.^[24][25]

References

1. Rumicastrum balonense (Lindl.) Carolin. Plants of the World Online. Retrieved 26 November 2023.
2. Cunningham, G. M., Mulham, W. E., Milthorpe, P. L., & Leigh, J. H. (1992). Plants of western New South Wales. Melbourne & Sydney, Australia: Inkata Press. pp. 297–298.
3. Australian National Botanic Gardens, Parks Australia. "Calandrinia balonensis - Growing Native Plants". www.anbg.gov.au. Retrieved 18 October 2020.
4. "Fact sheet for Calandrinia balonensis". www.flora.sa.gov.au. Retrieved 18 October 2020.
5. "PlantNET - FloraOnline". plantnet.rbgsyd.nsw.gov.au. Retrieved 18 October 2020.
6. "NT Flora". eflora.nt.gov.au. Retrieved 18 October 2020.
7. "Calandrinia 'Mystique'". www.anbg.gov.au. Retrieved 18 October 2020.
8. Kapitany, A. The Australian Calandrinia. Boronia, Victoria: Kapitany Concepts. p. 6.
9. Rumicastrum Ulbr. Plants of the World Online. Retrieved 13 January 2024.
10. Low, T. (2016). "Where are all the succulents?". Wildlife Australia. 53: 12–14.
11. Thiele, Kevin (29 December 2018). "On the Horizon: Calandrinia changing to Parakeelya". Taxonomy Australia. Retrieved 18 October 2020.
12. Tahir, S.S. and Carolin, R.C. (1990). "Phylogeny and origin of Australian Calandrinia (Portulacaceae)". Pakistan Journal of Botany. 22: 1–4.
13. Hancock, L.P, Obbens, F., Moore, A.J., Thiele, K., de Vos, J.M, West, J., and Edwards, E.J. (2018). "Phylogeny, evolution, and biogeographic history of Calandrinia (Montiaceae)". American Journal of Botany. 105 (6): 1021–1034. doi:10.1002/ajb2.1110. PMID 29995314. S2CID 51612043.
14. Hershkovitz, M.A. (2020). "Rumicastrum Ulbrich (Montiaceae): a beautiful name for the Australian calandrinias". Phytologia. 102: 116–123.
15. Thiele, K.R., Obbens, L., Hancock, E., Edwards, E. and West, J.G. (2018). "Proposal to conserve the name Parakeelya against Rumicastrum". Taxon. 67: 214–215. doi:10.12705/671.25.
16. AVH (2020). "The Australasian Virtual Herbarium, Council of Heads of Australasian Herbaria". Retrieved 22 October 2020.
17. Hancock, L.G., Holtum, J.A.M., and Edwards, E.J. (2019). "The Evolution of CAM Photosynthesis in Australian Calandrinia Reveals Lability in C3+CAM Phenotypes and a Possible Constraint to the Evolution of Strong CAM". Integrative and Comparative Biology. 59 (3): 517–534. doi:10.1093/icb/icz089. PMID 31161205.
18. Keith, D. (2004). Ocean shores to desert dunes – The native vegetation of New South Wales and the ACT. Hurstville, NSW: Department of Environment and Conservation (NSW). p. 279.
19. Latz, P. (1995). Bushfires and Bushtucker: Aboriginal Plant Use in Central Australia. Alice Springs, Northern Territory, Australia: IAD Press. pp. 134–135.
20. Low, T. (1988). Wild Food Plants of Australia. Sydney, Australia: Harpers Collings Publishers. p. 157.
21. "Calandrinia 'Mystique'". www.anbg.gov.au. Retrieved 22 October 2020.
22. Wickramasinghe Priyanka, Harrison Dion K., Johnston Margaret E. (2010). "Reproductive biology and intergeneric breeding compatibility of ornamental Portulaca and Calandrinia (Portulacaceae)". Australian Journal of Botany. 57 (8): 697–707. doi:10.1071/BT09107.
23. "Parakeelya habitat - Vertical gardens on walls, trees and water tanks". sites.google.com. Retrieved 22 October 2020.
24. "Seeds of South Australia - Home Page". spapps.environment.sa.gov.au. Retrieved 22 October 2020.
25. "Seed Information Database: Search Results". data.kew.org. Retrieved 22 October 2020.