Cucurbitariaceae

Fungalpedia – Note 2063, Cucurbitariaceae

Citation when using this data: Hongsanan S et al. 2020 – Fungalpedia, Ascomycota.

Index Fungorum, Facesoffungi, MycoBank, GenBank

Classification: Pleosporales, Pleosporomycetidae, Dothideomycetes, Pezizomycotina, Ascomycota, Fungi

Necrotrophic or saprobic on woody plants or parasitic on other fungi. Sexual morph: Ascomata immersed, semi-immersed, becoming erumpent, to nearly superficial, scattered, or clustered on basal hypostroma, base not easy to remove from the substrate, usually containing host particles, globose to subglobose, turbinate, lenticular or pyriform, brown to black, surface verruculose to coarsely tubercular ostiolate. Ostiole black, inconspicuous or papillate to cylindrical, ostiolar canal filled with hyaline cells or sometimes periphysate. Peridium composed of several layers of textura angularis cells, light brown to reddish-brown, smooth to rough, or hairy. Hamathecium comprising dense, filiform, hyaline, filamentous, septate, cellular pseudoparaphyses. Asci 8-spored, bitunicate, fissitunicate, cylindrical to clavate, with furcate pedicel and minute ocular chamber. Ascospores 1-seriate, or partially overlapping, ellipsoidal, golden brown to dark brown, multi-septate, muriform, constricted at the septa, rarely with a gelatinous sheath, sometimes with appendage cells. Asexual morph: Coelomycetous, phoma- or pyrenochaeta-like (Hyde et al. 2013, Wanasinghe et al. 2017d, Jaklitsch et al. 2018a).

Notes – Cucurbitariaceae is a well-supported monophyletic family in Pleosporales (Doilom et al. 2013, Hyde et al. 2013, Wijayawardene et al. 2014b, Li et al. 2016a). The family was introduced by Winter (1885) and typified by Cucurbitaria berberidis. Intergeneric classification based on phenotypes within Cucurbitariaceae has often been controversial. For example, Barr (1987b) considered ‘turbinate or globose or ovoid ascomata, with warted or nearly smooth surfaces, cylindrical or slightly clavate or oblong asci, symmetric and ellipsoid or fusoid or asymmetric and oblong or elongate ascospores’ as general features of Cucurbitariaceae and considered the family to belong in Pleosporales. Considering the above phenotypic features, genera such as Cucurbitaria, Cucurbidothis, Otthia, Rhytidiella and Syncarpella were also included in the family (Wanasinghe et al. 2017d). Later phylogenetic studies have shown that Cucurbitariaceae is a heterogeneous group and recent studies have excluded some genera from this family and referred other genera to the family (Hyde et al. 2013, Doilom et al. 2013, Wanasinghe et al. 2017d, Valenzuela-Lopez et al. 2018).

Doilom et al. (2013) revisited Cucurbitariaceae based on DNA sequence data, examination of type species and links to asexual morphs. They epitypified Cucurbitaria berberidis with molecular data and a pyrenochaeta-like asexual morph, illustrated Curreya, Rhytidiella and Syncarpella from their holotypes and discussed their familial affinities. Hyde et al. (2013) also provided a comprehensive transcript to this family with illustrations. Wijayawardene et al. (2014b) included Cucurbidothis, Cucurbitaria, Curreya, Pyrenochaeta, Pyrenochaetopsis, Rhytidiella and Syncarpella as conventional genera in Cucurbitariaceae. However, Cucurbitariaceae members comprise many epithets in Index Fungorum (Doilom et al. 2013) and only a few species have DNA sequence data in GenBank. Thambugala et al. (2015b) introduced a new genus, Neocurreya for Curreya austroafricana, C. grandicipis and C. proteae in Floricolaceae (Pleosporales) based on evidence from morphology and phylogeny. The placement of the type species of Curreya, C. conorum is unclear as the latter has not been cultured and there is no DNA sequence data in databases to verify its phylogenetic affinities. Fenestella is relatively poorly studied and the type species of the genus could not be located. Therefore, Phookamsak & Hyde (2015) revisited Fenestellaceae and transferred Lojkania to Testudinaceae, maintaining Fenestella in Fenestellaceae. Wanasinghe et al. (2017) introduced two new taxa which are typical of Fenestella viz. F. ostryae and F. mackenziei. Phylogenetically, these strains shared a close phylogenetic affinity to F. fenestrata within Cucurbitariaceae. Thus, with their updated phylogeny where Fenestellaceae was nested in between Cucurbitariaceae and with insufficient morphological grounds to support Fenestellaceae as an independent family, they proposed Fenestella to be transferred to Cucurbitariaceae and Fenestellaceae be synonymized with Cucurbitariaceae.

Jaklitsch et al. (2018a) provided a comprehensive account for Cucurbitariaceae including multi-gene (ITS, LSU, rpb-2, SSU, tef1 and tub2) phylogenetic analyses. They recognised two new species in Cucurbitaria and 19 in Neocucurbitaria (which was introduced by Wanasinghe et al. 2017d). Astragalicola, Cucitella, Parafenestella, Protofenestella, and Seltsamia were described as new genera. Also, they reported that Fenestella should be restricted to the type species F. fenestrata. In addition, they have transferred F. mackenziei and F. ostryae to Parafenestella based on their lack of molecular support with Fenestella and the absence of a well-delimited pseudostromata and ascospore septation. Jaklitsch & Voglmayr (2020) re-evaluated the boundaries and species composition of Fenestella and related genera of the Cucurbitariaceae. They recognised eight species, of which five are new, in Fenestella, 13 in Parafenestella with eight new species and two in the new genus Synfenestella with one new specie.

Type genus: Cucurbitaria Gray

Other accepted species: Species Fungorum – search Cucurbitariaceae.

References

Barr ME. 1987b – Prodromus to class Loculoascomycetes. Amherst, Massachusetts, University of Massachusetts, USA

Doilom M, Liu JK, Jaklitsch WM, Ariyawansa HA et al. 2013 – An outline of the family Cucurbitariaceae. Sydowia 65, 167–192.

Hyde KD, Jones EBG, Liu J-K, Ariyawansa H et al. 2013 – Families of Dothideomycetes. Fungal Diversity 63, 1–313.

Jaklitsch WM, Checa J, Blanco MN, Olariaga I et al. 2018a – A preliminary account of the Cucurbitariaceae. Studies in Mycology 90, 71–118.

Jaklitsch WM, Voglmayr H. 2020 – Fenestelloid clades of the Cucurbitariaceae. Persoonia 44, 1–40.

Li GJ, Hyde KD, Zhao RL, Hongsanan S et al. 2016a – Fungal diversity notes 253–366: taxonomic and phylogenetic contributions to fungal taxa. Fungal Diversity 78:1–237

Phookamsak R, Hyde KD. 2015 – Fenestellaceae. Mycosphere 6, 402–413.

Thambugala KM, Hyde KD, Tanaka K, Tian Q et al. 2015b – Towards a natural classification and backbone tree for Lophiostomataceae, Floricolaceae, and Amorosiaceae fam.nov. Fungal Diversity 74, 199–266.

Valenzuela-Lopez N, Cano-Lira JF, Guarro J, Sutton DA et al. 2018 – Coelomycetous Dothideomycetes with emphasis on the families Cucurbitariaceae and Didymellaceae. Studies in Mycology 90, 1–69.

Wanasinghe DN, Phookamsak R, Jeewon R, Wen Jing Li et al. 2017d – Fenestellaceae with descriptions of new Fenestella species and Neocucurbitaria gen. nov. Mycosphere 8, 397–414.

Wijayawardene NN, Crous PW, Kirk PM, Hawksworth DL et al. 2014b – Naming and outline of Dothideomycetes–2014 including proposals for the protection or suppression of generic names. Fungal Diversity 69, 1–55.

Winter G. 1885 – Pilze-Ascomyceten. In GL Rabenhorst’s Kryptogamen-Flora von Deutschland, Oesterreich und der Schweiz 1, 65–528.

Entry by

Sinang Hongsanan, Guangdong Provincial Key Laboratory for Plant Epigenetics, Shenzhen Key Laboratory of Microbial Genetic Engineering, College of Life Science and Oceanography, Shenzhen University, Shenzhen 518060, People’s Republic of China, Center of Excellence in Fungal Research, Mae Fah Luang University, Chiang Rai 57100, Thailand, Department of Entomology and Plant Pathology, Faculty of Agriculture, Chiang Mai University, Chiang Mai 50002, Thailand

Published online 23 March 2026

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