Howea belmoreana explained

Howea belmoreana, the curly palm, kentia palm, or Belmore sentry palm, is a species of flowering plant in the family Arecaceae, endemic to Lord Howe Island, Australia. It and Howea forsteriana probably evolved from a common ancestor through sympatric speciation.[1] The canopy of a mature kentia palm tree spreads 5- in diameter and contains roughly 36 leaves.[2]

Howea belmoreana has gained the Royal Horticultural Society's Award of Garden Merit.[3] [4]

Effects of mycorrhiza on speciation

Howea belmoreana is restricted to the volcanic soils on Lord Howe Island, whereas H. forsteriana is found on both alkaline calcareous and volcanic soils, the two most common soil types found on the island. Howea belmoreana is more common on volcanic soils and has a higher survival rate than H. forsteriana.[5] Osborne et al. (2018) suggest that the speciation of H. forsteriana and Howea belmoreana is partially a result of difference in arbuscular mycorrhiza based on soil types. The levels of arbuscular mycorrhizal fungi were significantly lower in the roots of Howea forsteriana on volcanic soil, compared to the same species on calcareous soil and to Howea belmoreana on the same volcanic soil. The symbiotic relationship between the plant and the fungi exchanges carbons from the plant for essential nutrients such as nitrogen and phosphate that would be otherwise inaccessible to the plant. The decreased fungal relationships in Howea forsteriana in volcanic soil may disadvantage it compared to Howea belmoreana.[6]

Notes and References

  1. http://www.the-scientist.com/news/display/23103/ Evidence for sympatric speciation
  2. Web site: Real Palm Trees . Palm Tree General Description .
  3. Web site: Howea belmoreana AGM. Royal Horticultural Society. 23 July 2013.
  4. Web site: AGM Plants - Ornamental . July 2017 . 50 . Royal Horticultural Society . 7 March 2018.
  5. Hipperson H, Dunning LT, Baker WJ, Butlin RK, Hutton I, Papadopulos AS, Smadja CM, Wilson TC, Devaux C, Savolainen V . 6 . Ecological speciation in sympatric palms: 2. Pre- and post-zygotic isolation . Journal of Evolutionary Biology . 29 . 11 . 2143–2156 . November 2016 . 27374779 . 5096058 . 10.1111/jeb.12933 .
  6. Osborne OG, De-Kayne R, Bidartondo MI, Hutton I, Baker WJ, Turnbull CG, Savolainen V. Vincent Savolainen . Arbuscular mycorrhizal fungi promote coexistence and niche divergence of sympatric palm species on a remote oceanic island . The New Phytologist . 217 . 3 . 1254–1266 . February 2018 . 29034978 . 5813143 . 10.1111/nph.14850 .