Cyttaria Berk., Trans. Linn. Soc. London 19:40 (1842)

This genus is geographically restricted to South America (Argentina and Chile) and Southeastern Australasia (including Tasmania, and New Zealand) (Peterson and Pfister 2010). Cyttaria species are found in the secondary phloem and xylem, cambium and cortex of the hosts. They produce trunk and branch cankers that arise due to localized, stimulated cambial activity attributed to the presence of hyphae of Cyttaria (Wilson 1937; Gutierrez de Sanguinetti 1988). Cyttaria species are considered as weak parasites (Gamundı´ and Lederkremer 1989). 

Classification Leotiomycetes, Leotiomycetidae, Cyttariales, Cyttariaceae

Type speciesCyttaria darwinii Berk., Trans. Linn. Soc. London 19:40 (1842)

Distribution – Argentina, Australia, Chile, New Zealand, Tasmania.

Disease symptoms – Canker, galls

     These species are known to cause two types of cankers: globose and longitudinal. Globose cankers arise from growth mainly in the transverse axis of the branch while longitudinal cankers arise from growth mainly along the long axis (Rawlings 1956; Gamundi 1971). The development of perennial galls on branches and stems may lead to malformation and occasional death of branches (Gadgil 1985).

HostsNothofagus spp.

 

Morphological based identification and diversity

Ascomata of Cyttaria species are orange, pitted apothecia similar to deeply dimpled golf balls. Each fruiting body is composed of 1–200 apothecia immersed in a sterile fleshy-gelatinous stroma. Asci are 8-spored, inoperculate and amyloid. Ascospores are uninucleate, subglobose to ovoid, smooth to rugulose, at first hyaline to yellowish but later becoming pigmented (Mengoni 1986; Peterson et al 2010). There are 21 epithets listed in Index Fungorum (2019).

 

Molecular based identification and diversity

The first phylogenetic analysis which included Cyttaria was done by Gargas and Taylor (1995) showing its relationship with other discomycetes. Ekanayaka et al. (2017) Wang et al. (2006) showed its placement within Leotiomycetes using combined analysis of SSU, LSU, and 5.8S rDNA gene sequence data and then confirmed by Ekanayaka et al. (2017). Peterson and Pfister (2010) did large scale phylogeny for Cyttaria including all accepted 12 species in the genus using sequence data of partial nucSSU, nucLSU, and mitSSU rRNA, as well as TEF1. They found Cyttaria to be a strongly supported clade and suggested a close relationship between Cyttaria and some members of the Helotiales (Cordierites, Encoelia, Ionomidotis, and Chlorociboria) (Peterson and Pfister 2010). The present study reconstructs the phylogeny of Cyttaria based on analyses of a combined LSU, SSU and mtSSU sequence data (Table 5, Fig. 10). The phylogenetic tree is updated with recently introduced Cyttaria species and corresponds to previous studies (Feng et al. 2014; Gao et al. 2015).

 

Recommended genetic markers (genus level) – ITS, LSU

Recommended genetic markers (species level) – nucSSU, nucLSU, mitSSU rRNA, and tef1

Combined nucSSU, nucLSU, mitSSU rRNA, and tef1 can resolve almost all species of Cyttaria currently known from sequence data (Peterson et al 2010).

 

The accepted number of species: There are 21 epithets in Index Fungorum (2019). However, 12 species have molecular data and are treated as accepted.

References: Mengoni 1986, Peterson et al 2010 (morphology); Peterson and Pfister (2010), Ekanayaka et al. 2017 (morphology, phylogeny).