Beccariophoenix alfredii

Beccariophoenix alfredii
In habitat, Madagascar
Scientific classification
Kingdom: Plantae
(unranked): Angiosperms
(unranked): Monocots
(unranked): Commelinids
Order: Arecales
Family: Arecaceae
Genus: Beccariophoenix
Species: B. alfredii
Binomial name
Beccariophoenix alfredii
Rakotoarinivo, Ranarivelo & J.Dransf.

Beccariophoenix alfredii, also known as the High Plateau Coconut Palm, is a recently discovered species of Arecaceae (palms), endemic to Madagascar. It is in the genus Beccariophoenix, and is closely related to the genus Cocos. Beccariophoenix alfredii is very similar in appearance to the coconut palm, although somewhat cold hardy, making it a good look-alike for the coconut in cooler climates.

Description

Beccariophoenix alfredii grows up to 50 ft (15 m) in height with a trunk up to 1 ft (30 cm) in diameter. The trunk is unarmed and bare, with closely ringed leaf scars. The crown holds 30–36 pinnate leaves, which reach lengths of 4.5 m (15 ft). Each leaf holds approximately 120 pairs of leaflets. The leaflets are very slender and crowded at the base, and are either rigid or somewhat pendulous. Towards the base of the leaf, leaflets are about 47 cm (19 in) long and 1 cm wide. Mid leaf, leaflets are at their largest, being about 112 cm (44 in) long and 4 cm (2 in) wide. At the tip of the leaf, leaflets become smaller again, being 65 cm (26 in) long and 1.8 cm (1 in) wide. Dead leaves are marcescent in juvenile palms, but abscise neatly in adults.[2]

The inflorescence is infrafoliar and surrounded by a 90 cm (35 in) long, leathery spathe, which curls up on itself after abscission (due to drying out). The inflorescence stalk is 8–13 cm (3.1–5.1 in) long and elliptic in cross-section. The rachis is very short, 8–9 cm (3.1–3.5 in) long and bearing about 30–50 crowded, spirally arranged rachillae. The fruit is oblate, 1.6 cm × 2.4 cm (0.6 in × 0.9 in) and dark purplish-black at maturity.[2]

Systematics and botanical history

Inflorescence seen from below
Seed of Beccariophoenix alfredii

Beccariophoenix is placed in the subfamily Arecoideae and the tribe Cocoeae.[3] The species was first noted in 2002, when Alfred Razafindratsira noticed a picture of a Beccariophoenix species in photographs taken of the vegetation surrounding Andrembesoa (originally taken in search of a species of Pachypodium in the rocky escarpments to the southwest of Antsirabe). Alfred found this odd, considering this area of Madagascar is far from the other localities of Beccariophoenix and is, furthermore, ecologically totally different from the east coast and littoral forests where the other Beccariophoenix species are known to occur. In May 2004, an expedition was set off into the High Plateau of Madagascar, to confirm the existence of this species. On the fourth day of the expedition, the new population of Beccariophoenix was found.

This species is noted for having oblate (flattened spheroid) rather than ovoid fruit, infrafoliar inflorescence (rather than interfoliar), a peduncle not exceeding 13 cm long (rather than one up to 120 cm long), a 3–5 mm thick leathery peduncular bract which rolls up on when itself when abscised (rather than a heavily lignified peduncular bract 30–40 mm thick, which does not deform when abscised) and 15 stamens (rather than 18–21). For these differences, Beccariophoenix alfredii was classified as a new species.[2] Beccariophoenix alfredii is accepted by Kew.[4]

Habitat and distribution

Beccariophoenix alfredii occurs in the High Plateau of Madagascar at approximately 20° S. The palm is found at an elevation of 1050 m (3440 ft) growing along the sandy riverbeds. The surrounding vegetation is mainly composed of various grasses, and the area sees occasional fires.[2] Due to the environment that B. alfredii is subjected to, it is hardy against frost and cold, fire, drought, and full sun.[2] The seeds of Beccariophoenix alfredii are an important food source for Lemurs, notably the Black lemur, as the seeds ripen between the months of March and June, a time of relative scarcity of food in the area. Lemurs therefore play an important role in the seed dispersal in Madagascar. Indeed, germination trials found that seeds which passed through the gut of lemurs sprouted faster and in greater numbers than seeds not eaten by lemurs. Thus, it seems highly likely that lemurs are the main seed dispersers of B. madagascariensis and B. alfredii.[5]

Cultivation

Due to its overall hardiness, B. alfredii is a good candidate for cultivation in central and southern Florida, California, south Texas, southern Arizona and also locations such as Sydney Australia, Northern island New Zealand. It is best grown in sandy loam soils, but is suitable to many other soil types.[2] It can be expected that after it is less new to cultivation, it may become extremely popular worldwide due to its coconut look-alike status, good growth rate, and cold hardiness.

Seedlings

References

  1. Rakotoarinivo, M. & Dransfield, J. (2012). "Beccariophoenix alfredii". IUCN Red List of Threatened Species. Version 2013.1. International Union for Conservation of Nature. Retrieved 22 January 2014.
  2. 1 2 3 4 5 6 Rakotoarinivo, Mijoro; Ranarivelo, Tianjanahary; Dransfield, John (2007). "A new species of Beccariophoenix from the High Plateau of Madagascar" (PDF). Palms Journal 51 (2): 63–75.
  3. Dransfield, John (1992). "Voanioala, the Forest Coconut" (PDF). Principes 36 (3): 124–127.
  4. "Beccariophoenix alfredii". Royal Botanic Gardens, Kew: World Checklist of Selected Plant Families. Retrieved 2010-03-09.
  5. Shapcott, A., Rakotoarinivo, M., Smith, R. J., Lysakova, G., Fay, M. F., & Dransfield, J. (2007). Can we bring Madagascar's critically endangered palms back from the brink? Genetics, ecology and conservation of the critically endangered palm Beccariophoenix madagascariensis. Botanical Journal of the Linnean Society 154 (4): 589-608 full text.

External links

Media related to Becarriophoenix alfredii at Wikimedia Commons

This article is issued from Wikipedia - version of the Tuesday, September 15, 2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.