at Cradle Mtn NP
Cyttaria gunnii, commonly known as the myrtle orange or beech orange, is an orange-white coloured and edible ascomycete fungus native to Australasia. It is a specific parasite of myrtle beech (Nothofagus cunninghamii) trees.
English botanist Miles Joseph Berkeley described the beech orange in 1848. In 1886, a New Zealand fungus similar to the beech orange was described as Cyttaria purdiei; later, however, the two species were assumed to be the same. A molecular study has now found the Australian and New Zealand fungi known as C. gunnii to be two distinct species. New Zealand populations are restricted to Nothofagus menziesii while the Australian ones are only found on Nothofagus cunninghamii and are hence found in southern Victoria and Tasmania. The evolution of the genus parallels that of the host genus Nothofagus; hence C. septentrionalis, the closest relative, parasitises Antarctic beech (Nothofagus moorei), the closest relative of myrtle beech. Ancestors of the two species are thought to have diverged from the South American and New Zealand Cyttaria species between 28 and 44 million years ago.
Appearance and Uses
The fungi form globose woody galls on their host trees, though they do not appear to spread through them. They are perennial and produce crops of fruit bodies annually. Said to resemble bunches of grapes, the fruit bodies appear in clusters in late spring and summer (November to January). Globular or pear-shaped, these can reach 2.5 cm (1 in) in diameter. They are covered by a membrane that bursts, uncovering a network of concavities. The spore print is black and the spores measure 12 by 7–12 μm. Aborigines have used the fruit bodies as food. The fruits have a consistency akin to jelly and are reportedly pleasant-tasting.
^ Berkeley, Miles Joseph (1848). “Decades of fungi. Dec. X. Tasmanian fungi”. London Journal of Botany. 7: 572–79 (see p. 576).
^ Peterson, Kristin R.; Pfister, Donald H. (2010). “Phylogeny of Cyttaria inferred from nuclear and mitochondrial sequence and morphological data”. Mycologia. 102 (6): 1398–1416. doi:10.3852/10-046. PMID 20943539.