Studies in Mycology (2021) 98, 1-184

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P.W. Crous, L. Lombard, M. Sandoval-Denis, K.A. Seifert, H.-J. Schroers, P. Chaverri, J. Gen, J. Guarro, Y. Hirooka, K. Bensch, G.H.J. Kema, S.C. Lamprecht, L. Cai, A.Y. Rossman, M. Stadler, R.C. Summerbell, J.W. Taylor, S. Ploch, C.M. Visagie, N. Yilmaz, J.C. Frisvad, A.M. Abdel-Azeem, J. Abdollahzadeh, A. Abdolrasouli, A. Akulov, J.F. Alberts, J.P.M. Araújo, H.A. Ariyawansa, M. Bakhshi, M. Bendiksby, A. Ben Hadj Amor, J.D.P. Bezerra, T. Boekhout, M.P.S. Camara, M. Carbia, G. Cardinali, R.F. Castaneda-Ruiz, A. Celis, V. Chaturvedi, J. Collemare, D. Croll, U. Damm, C.A. Decock, R.P. de Vries, C.N. Ezekiel, X.L. Fan, N.B. Fernandez, E. Gaya, C.D. Gonzalez, D. Gramaje, J.Z. Groenewald, M. Grube, M. Guevara-Suarez, V.K. Gupta, V. Guarnaccia, A. Haddaji, F. Hagen, D. Haelewaters, K. Hansen, A. Hashimoto, M. Hernandez-Restrepo, J. Houbraken, V. Hubka, K.D. Hyde, T. Iturriaga, R. Jeewon, P.R. Johnston, Z. Jurjevic, I. Karalti, L. Korsten, E.E. Kuramae, I. Kusan, R. Labuda, D.P. Lawrence, H.B. Lee, C. Lechat, H.Y. Li, Y.A. Litovka, S.S.N. Maharachchikumbura, Y. Marin-Felix, B. Matio Kemkuignou, N. Matocec, A.R. McTaggart, P. Mlcoch, L. Mugnai, C. Nakashima, R.H. Nilsson, S.R. Noumeur, I.N. Pavlov, M.P. Peralta, A.J.L. Phillips, J.I. Pitt, G. Polizzi, W. Quaedvlieg, K.C. Rajeshkumar, S. Restrepo, A. Rhaiem, J. Robert, V. Robert, A.M. Rodrigues, C. Salgado-Salazar, R.A. Samson, A.C.S. Santos, R.G. Shivas, C.M. Souza-Motta, G.Y. Sun, W.J. Swart, S. Szoke, Y.P. Tan, J.E. Taylor, P.W.J. Taylor, P.V. Tiago, K.Z. Vaczy, N. van de Wiele, N.A. van der Merwe, G.J.M. Verkley, W.A.S. Vieira, A. Vizzini, B.S. Weir, N.N. Wijayawardene, J.W. Xia, M.J. Yanez-Morales, A. Yurkov, J.C. Zamora, R. Zare, C.L. Zhang and M. Thines (2021)
Fusarium: more than a node or a foot-shaped basal cell
Studies in Mycology 98 (1), 1-184
Abstract: Recent publications have argued that there are potentially serious consequences for researchers in recognising distinct genera in the terminal fusarioid clade of the family Nectriaceae. Thus, an alternate hypothesis, namely a very broad concept of the genus Fusarium was proposed. In doing so, however, a significant body of data that supports distinct genera in Nectriaceae based on morphology, biology, and phylogeny is disregarded. A DNA phylogeny based on 19 orthologous protein-coding genes was presented to support a very broad concept of Fusarium at the F1 node in Nectriaceae. Here, we demonstrate that re-analyses of this dataset show that all 19 genes support the F3 node that represents Fusarium sensu stricto as defined by F. sambucinum (sexual morph synonym Gibberella pulicaris). The backbone of the phylogeny is resolved by the concatenated alignment, but only six of the 19 genes fully support the F1 node, representing the broad circumscription of Fusarium. Furthermore, a re-analysis of the concatenated dataset revealed alternate topologies in different phylogenetic algorithms, highlighting the deep divergence and unresolved placement of various Nectriaceae lineages proposed as members of Fusarium. Species of Fusarium s. str. are characterised by Gibberella sexual morphs, asexual morphs with thin- or thick-walled macroconidia that have variously shaped apical and basal cells, and trichothecene mycotoxin production, which separates them from other fusarioid genera. Here we show that the Wollenweber concept of Fusarium presently accounts for 20 segregate genera with clear-cut synapomorphic traits, and that fusarioid macroconidia represent a character that has been gained or lost multiple times throughout Nectriaceae. Thus, the very broad circumscription of Fusarium is blurry and without apparent synapomorphies, and does not include all genera with fusarium-like macroconidia, which are spread throughout Nectriaceae (e.g., Cosmosporella, Macroconia, Microcera). In this study four new genera are introduced, along with 18 new species and 16 new combinations. These names convey information about relationships, morphology, and ecological preference that would otherwise be lost in a broader definition of Fusarium. To assist users to correctly identify fusarioid genera and species, we introduce a new online identification database, Fusarioid-ID. The database comprises partial sequences from multiple genes commonly used to identify fusarioid taxa (act1, CaM, his3, rpb1, rpb2, tef1, tub2, ITS, and LSU). In this paper, we also present a nomenclator of names that have been introduced in Fusarium up to January 2021 as well as their current status, types, and diagnostic DNA barcode data. In this study, researchers from 46 countries, representing taxonomists, plant pathologists, medical mycologists, quarantine officials, regulatory agencies, and students, strongly support the application and use of a more precisely delimited Fusarium (= Gibberella) concept to accommodate taxa from the robust monophyletic node F3 on the basis of a well-defined and unique combination of morphological and biochemical features. This F3 node includes, among others, species of the F. fujikuroi, F. incarnatum-equiseti, F. oxysporum, and F. sambucinum species complexes, but not species of Bisifusarium [F. dimerum species complex (SC)], Cyanonectria (F. buxicola SC), Geejayessia (F. staphyleae SC), Neocosmospora (F. solani SC) or Rectifusarium (F. ventricosum SC). The present study represents the first step to generating a new online monograph of Fusarium and allied fusarioid genera.
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Database assignments for author(s): Pedro W. Crous, Lorenzo Lombard, Marcelo Sandoval-Denis, Keith A. Seifert, Priscila Chaverri, Yuuri Hirooka, Gert H.J. Kema, Sandra C. Lamprecht, Amy Y. Rossman, Jens C. Frisvad, Jafar Abdollahzadeh, Daniel Croll, Ulrike Damm, Cony Decock, Celedonio Gonzalez, David Gramaje, Johannes Z. Groenewald, Vladimiro Guarnaccia, Rajesh Jeewon, Lise Korsten, Eiko E. Kuramae, Hyang Burm Lee, Alistair R. McTaggart, Laura Mugnai, Alan J.L. Phillips, Giancarlo Polizzi, William Quaedvlieg, Guangyu Sun, Paul W.J. Taylor, Bevan S. Weir, Marco Thines

Research topic(s) for pests/diseases/weeds:
identification/taxonomy

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Pest and/or beneficial records:

Beneficial	Pest/Disease/Weed	Crop/Product	Country	Quarant.
	Fusarium poae	Poa (crop)	U.S.A. (NE)
	Fusarium avenaceum	Barley (Hordeum vulgare)	Denmark
	Fusarium graminearum	Wheat (Triticum)	Germany
	Fusarium verticillioides	Maize/corn (Zea mays)	Germany
	Fusarium sambucinum	Potato (Solanum tuberosum)	United Kingdom
	Fusarium sambucinum	Elderberry (Sambucus)	Germany
	Fusarium equiseti		Czech Republic
	Fusarium brachygibbosum	Sorghum (crop)	India
	Fusarium stilboides	Citrus (genus)	Philippines
	Fusarium xylarioides	Coffee (Coffea)	Central African Republic
	Fusarium udum	Pigeonpea (Cajanus cajan)	India
	Fusarium acuminatum	Potato (Solanum tuberosum)	U.S.A. (NE)
	Fusarium subglutinans	Maize/corn (Zea mays)	U.S.A. (mid N)
	Fusarium fujikuroi	Rice (Oryza)	Taiwan
	Fusarium napiforme	Pearl millet (Cenchrus americanus)	Namibia
	Fusarium incarnatum	Tagetes (crop)	France
	Fusarium sacchari	Sugarcane (Saccharum officinarum)	India
	Fusarium sporotrichioides	Potato (Solanum tuberosum)	U.S.A. (NE)
	Fusarium chlamydosporum	Banana/plantain (Musa)	Honduras
	Fusarium callistephi	Callistephus chinensis	Netherlands
	Fusarium pseudograminearum	Barley (Hordeum vulgare)	Australia (South+SE)
	Fusarium circinatum	Pine (Pinus)	U.S.A. (SW)
	Fusarium hostae	Hosta (crop)	U.S.A. (SE)
	Fusarium mangiferae	Mango (Mangifera indica)	Israel
	Fusarium sterilihyphosum	Mango (Mangifera indica)	South Africa
	Fusarium denticulatum	Sweet potato (Ipomoea batatas)	U.S.A. (mid S)
	Fusarium thapsinum	Sorghum (crop)	U.S.A. (mid S)
	Fusarium anguioides	Potato (Solanum tuberosum)	U.S.A. (NE)
	Gliomastix cerealis	Maize/corn (Zea mays)	U.S.A. (SW)
	Fusarium armeniacum	Wheat (Triticum)	Australia (South+SE)
	Fusarium fractiflexum	Cymbidium (crop)	Japan
	Fusarium konzum	Sorghastrum (crop)	U.S.A. (mid S)
	Rectifusarium ventricosum	Potato (Solanum tuberosum)	Germany
	Fusarium pseudoanthophilum	Maize/corn (Zea mays)	Zimbabwe
	Fusarium foetens	Begonia (crop)	Netherlands
	Fusarium pseudonygamai	Pearl millet (Cenchrus americanus)	Nigeria
	Fusarium cortaderiae	Cortaderia (crop)	New Zealand
	Fusarium reticulatum	Watermelon/colocynth (Citrullus)	France
	Fusarium asiaticum	Barley (Hordeum vulgare)	Japan
	Fusarium boothii	Maize/corn (Zea mays)	South Africa
	Fusarium meridionale	Citrus (genus)	New Caledonia
	Fusarium nygamai	Sorghum (crop)	Australia (South+SE)
	Fusarium langsethiae	Oat (Avena sativa)	Norway
	Fusarium vorosii	Wheat (Triticum)	Hungary
	Fusarium gerlachii	Wheat (Triticum)	U.S.A. (mid N)
	Fusarium kyushuense	Wheat (Triticum)	Japan
	Bisifusarium dimerum		Netherlands
	Fusarium sinense	Wheat (Triticum)	China (NE)
	Fusarium phyllophilum	Dracaena (crop)	Italy
	Fusarium ananatum	Pineapple (Ananas comosus)	South Africa
	Fusarium globosum	Maize/corn (Zea mays)	South Africa
	Fusarium mexicanum	Mango (Mangifera indica)	Mexico
	Fusarium musae	Banana/plantain (Musa)	Honduras
	Fusarium temperatum	Maize/corn (Zea mays)	Belgium
	Bisifusarium delphinoides	Hoodia (genus)	South Africa
	Fusarium concentricum	Banana/plantain (Musa)	Costa Rica
	Fusarium nepalense	Rice (Oryza)	Nepal
	Fusarium louisianense	Wheat (Triticum)	U.S.A. (mid S)
	Fusarium tupiense	Mango (Mangifera indica)	Brazil (south)
	Fusarium miscanthi	Miscanthus (crop)	Denmark
	Fusarium agapanthi	Agapanthus (crop)	Australia (South+SE)
	Fusarium secorum	Beet/sugarbeet (Beta vulgaris)	U.S.A. (mid N)
	Fusarium algeriense	Wheat (Triticum)	Algeria
	Fusarium citricola	Citrus (genus)	Italy
	Fusarium salinense	Citrus (genus)	Italy
	Fusarium zanthoxyli	Zanthoxylum (genus)	China (NE)
	Fusarium continuum	Zanthoxylum (genus)	China (NE)
	Fusarium subtropicale	Barley (Hordeum vulgare)	Brazil (south)
	Neocosmospora floridana	Maple (Acer)	U.S.A. (SE)
	Fusarium carminascens	Maize/corn (Zea mays)	South Africa
	Fusarium nelsonii	Wheat (Triticum)	South Africa
	Fusarium venenatum	Wheat (Triticum)	Austria
Luteonectria nematophila (antagonist)
Microcera diploa (entomopathogen)
Fusicolla merismoides (entomopathogen)
Fusarium incarnatum (entomopathogen)
Fusarium incarnatum (weed pathogen)