Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Australian Systematic Botany Australian Systematic Botany Society
Taxonomy, biogeography and evolution of plants
RESEARCH ARTICLE

Classification and typification of Australian lycophytes and ferns based on Pteridophyte Phylogeny Group classification PPG I

Ashley Raymond Field https://orcid.org/0000-0002-0139-7914
+ Author Affiliations
- Author Affiliations

A Queensland Herbarium, Department of Environment and Science, Mount Coot-tha Botanic Gardens, Qld 4870, Australia.

B Australian Tropical Herbarium, Sir Robert Norman Building, James Cook University, PO Box 6811, Cairns, Qld 4878, Australia. Email: ashley.field@jcu.edu.au

Australian Systematic Botany 33(1) 1-102 https://doi.org/10.1071/SB18011
Submitted: 9 March 2018  Accepted: 25 October 2019   Published: 2 January 2020

Abstract

The classification and typification of all Australian ferns and lycophytes is updated to reflect the Pteridophyte Phylogeny Group I classification and the International Code of Nomenclature for algae, fungi, and plants, presenting 8 new nomenclatural combinations as well as 85 lectotypifications. The Australian fern and lycophyte flora comprises 2 classes, 14 orders, 32 families, 134 genera and 528 species and subspecies with the addition of 8 newly recorded and 6 newly recognised species since the publication of the Flora of Australia fern volume in 1998. Overall, 208 species are endemic to Australia, with Queensland having the highest species diversity and endemism by state or territory, and Lord Howe Island having the highest concentration of species and endemics per unit area. The Australian fern and lycophyte flora shows diverse links with Africa, Asia and Oceania, with the largest overlaps being shared with Asia and Oceania. More species are endemic to Australia+Oceania than to Australia+Asia. Contrasting with the classification presented in the Flora of Australia, no genera of ferns and lycophytes are now considered to be wholly endemic to Australia.


References

Adjie B, Lestari WS (2014) A phylogenetic placement of dicksonioid fern Calochlaena javanica (Dicksoniaceae). Floribunda 5, 17–20.

Allan HH (1961) ‘Flora of New Zealand. Vol. 1. Indigenous Tracheophyta. Psilopsida, Lycopsida, Filicopsida, Gymnospermae, Dicotyledones.’ (Government Printer: Wellington, New Zealand)

Almeida TE, Hennequin S, Schneider H, Smith AR, Batista JAN, Ramalho AJ, Proite K, Salino A (2016) Towards a phylogenetic generic classification of Thelypteridaceae: additional sampling suggests alterations of neotropical taxa and further study of paleotropical genera. Molecular Phylogenetics and Evolution 94, 688–700.
Towards a phylogenetic generic classification of Thelypteridaceae: additional sampling suggests alterations of neotropical taxa and further study of paleotropical genera.Crossref | GoogleScholarGoogle Scholar | 26400101PubMed |

Almeida TE, Salino A, Dubuisson J-Y, Hennequin S (2017) Adetogramma (Polypodiaceae), a new monotypic fern genus segregated from Polypodium. PhytoKeys 78, 109–131.
Adetogramma (Polypodiaceae), a new monotypic fern genus segregated from Polypodium.Crossref | GoogleScholarGoogle Scholar |

Alston AHG (1934) The genus Selaginella in the Malay Peninsula. The Garden’s Bulletin, Strait Settlement 8, 41–62.

Alston AHG, Holttum RE (1959) Notes on taxonomy and nomenclature in the genus Lygodium. Reinwardtia 5, 11–22.

Anonymous (1872) Foreign correspondence. Gardeners’ Chronicle and Agricultural Gazette 31, 113

Bailey FM (1881) On Queensland ferns. Proceedings of the Linnean Society of New South Wales 5, 32

Baker JG (1872) Ferns of Lord Howe’s Island. Gardeners’ Chronicle and Agricultural Gazette 31, 252

Bauret L, Field AR, Gaudeul M, Rouhan G, Selosse M-A (2018) First insights on the biogeographic history of Phlegmariurus (Lycopodiaceae), with a focus on Madagascar. Molecular Phylogenetics and Evolution 127, 488–501.
First insights on the biogeographic history of Phlegmariurus (Lycopodiaceae), with a focus on Madagascar.Crossref | GoogleScholarGoogle Scholar | 29733977PubMed |

Bell GH (1998) Davalliaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 434–450. (ABRS and CSIRO: Melbourne, Vic., Australia)

Bishop LE (1977) The American species of Grammitis sect. Grammitis. American Fern Journal 67, 101–106.
The American species of Grammitis sect. Grammitis.Crossref | GoogleScholarGoogle Scholar |

Bizzarri MP (1975) Adumbratio florae aethiopicae. 27. Selaginellaceae. Webbia 29, 545–593.
Adumbratio florae aethiopicae. 27. Selaginellaceae.Crossref | GoogleScholarGoogle Scholar |

Bobrov AE (1984) Conspectus filicarum Asiae Mediae et Kazakhstaniae. Novosti Sistematiki Vysshikh Rastenii 21, 5–21.

Bomfleur B, Grimm GW, McLoughlin S (2015) Osmunda pulchella sp. nov. from the Jurassic of Sweden: reconciling molecular and fossil evidence in the phylogeny of modern royal ferns (Osmundaceae). BMC Evolutionary Biology 15, 126
Osmunda pulchella sp. nov. from the Jurassic of Sweden: reconciling molecular and fossil evidence in the phylogeny of modern royal ferns (Osmundaceae).Crossref | GoogleScholarGoogle Scholar | 26123220PubMed |

Bostock PD (1987) Rediscovery and status of Adiantum whitei Bailey. Austrobaileya 2, 360–364.

Bostock PD (1998a) Dipteridaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 164–165. (ABRS and CSIRO: Melbourne, Vic., Australia)

Bostock PD (1998b) Cyatheaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 193–214. (ABRS and CSIRO: Melbourne, Vic., Australia)

Bostock PD (1998c) Parkeriaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 287–288. (ABRS and CSIRO: Melbourne, Vic., Australia)

Bostock PD (1998d) Thelypteridaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 327–359. (ABRS and CSIRO: Melbourne, Vic., Australia)

Bostock PD, Spokes TM (1998a) Hymenophyllaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 116–147. (ABRS and CSIRO: Melbourne, Vic., Australia)

Bostock PD, Spokes TM (1998b) Polypodiaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 468–495. (ABRS and CSIRO: Melbourne, Vic., Australia)

Bostock PD, Chambers TC, Farrant PA (1998) Adiantaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 248–287. (ABRS and CSIRO: Melbourne, Vic., Australia)

Brackenridge WD (1854) ‘Botany. Cryptogamia. Filices, including Lycopodiaceae and Hydropterides. United States Exploring Expedition 16 [Botany Text].’ (C. Sherman: Philadelphia, PA, USA)

Brackenridge WD (1855) ‘Botany. Cryptogamia. Filices, including Lycopodiaceae and Hydropterides. United States Exploring Expedition 16 [Botany Atlas].’ (C. Sherman: Philadelphia, PA, USA)

Braun A (1853) Marsileaceae. Linnaea 25, 721

Braun A (1870) Neuere Untersuchungen über die Gattungen Marsilia und Pilularia. Monatsbericht der Königlich-Preussischen Akademie der Wissenschaften zu Berlin 1871, 653–754.

Brown R (1810) ‘Prodromus Florae Novae Hollandiae et Insulae Van Diemen.’ (Richard Taylor & Son: London, UK)

Brownsey PJ (1977) A taxonomic revision of the New Zealand species of Asplenium. New Zealand Journal of Botany 15, 39–86.
A taxonomic revision of the New Zealand species of Asplenium.Crossref | GoogleScholarGoogle Scholar |

Brownsey PJ (1989) The taxonomy of bracken (Pteridium: Dennstaedtiaceae) in Australia. Australian Systematic Botany 2, 113–128.
The taxonomy of bracken (Pteridium: Dennstaedtiaceae) in Australia.Crossref | GoogleScholarGoogle Scholar |

Brownsey PJ (1998a) Dennstaedtiaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 214–228. (ABRS and CSIRO: Melbourne, Vic., Australia)

Brownsey PJ (1998b) Aspleniaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 295–327. (ABRS and CSIRO: Melbourne, Vic., Australia)

Brownsey PJ (1998c) Incertae sedis: ‘Oenotrichia’. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 496. (ABRS and CSIRO: Melbourne, Vic., Australia)

Brownsey PJ, Chinnock RJ (1984) A taxonomic revision of the New Zealand species of Hypolepis. New Zealand Journal of Botany 22, 43–80.
A taxonomic revision of the New Zealand species of Hypolepis.Crossref | GoogleScholarGoogle Scholar |

Brownsey PJ, Chinnock RJ (1987) A taxonomic revision of the Australian species of Hypolepis Journal of the Adelaide Botanic Gardens 10, 1–30.

Brownsey PJ, Parris BS (2012) Taxonomic notes on the New Zealand flora: selection of a lectotype for Acrostichum barbarum L. (Osmundaceae) New Zealand Journal of Botany 50, 389–390.
Taxonomic notes on the New Zealand flora: selection of a lectotype for Acrostichum barbarum L. (Osmundaceae)Crossref | GoogleScholarGoogle Scholar |

Brownsey PJ, Perrie LR (2013a) Taxonomic notes on the New Zealand flora: the status of Schizaea australis and S. fistulosa, and lectotypes in Lygodiaceae and Schizaeaceae. New Zealand Journal of Botany 51, 79–87.
Taxonomic notes on the New Zealand flora: the status of Schizaea australis and S. fistulosa, and lectotypes in Lygodiaceae and Schizaeaceae.Crossref | GoogleScholarGoogle Scholar |

Brownsey PJ, Perrie LR (2013b) Azolla rubra revisited. New Zealand Botanical Society Newsletter 111, 6

Brownsey PJ, Perrie LR (2014a) Taxonomic notes on the New Zealand flora: lectotypes in Marsileaceae and Salviniaceae (water ferns). New Zealand Journal of Botany 52, 270–271.
Taxonomic notes on the New Zealand flora: lectotypes in Marsileaceae and Salviniaceae (water ferns).Crossref | GoogleScholarGoogle Scholar |

Brownsey PJ, Perrie LR (2014b) Schizaeaceae. In ‘Flora of New Zealand: Ferns and Lycophytes. Fascicle 5’. (Eds I Breitwieser, PB Heenan, AD Wilton) pp. 1–17. (Manaaki Whenua Press: Lincoln, New Zealand) 10.7931/J2G44N6J

Brownsey P, Perrie L (2016a) Taxonomic notes on the New Zealand flora: lectotypes in the fern family Hymenophyllaceae. New Zealand Journal of Botany 54, 48–62.
Taxonomic notes on the New Zealand flora: lectotypes in the fern family Hymenophyllaceae.Crossref | GoogleScholarGoogle Scholar |

Brownsey PJ, Perrie LR (2016b) Hymenophyllaceae. In ‘Flora of New Zealand: Ferns and Lycophytes. Fascicle 15’. (Eds I Breitwieser, PB Heenan, AD Wilton) pp. 1–86 (Manaaki Whenua Press: Lincoln, New Zealand) 10.7931/B1QP4Z

Brownsey PJ, Perrie LR (2016c) Taxonomic notes on the New Zealand flora: lectotypes in the fern families Dennstaedtiaceae and Lindsaeaceae New Zealand Journal of Botany 54, 511–514.
Taxonomic notes on the New Zealand flora: lectotypes in the fern families Dennstaedtiaceae and LindsaeaceaeCrossref | GoogleScholarGoogle Scholar |

Brownsey PJ, Perrie LR (2016d) Asplenium decurrens Willd., an earlier name for A. northlandicum (Brownsey) Ogle New Zealand Journal of Botany 54, 515–519.
Asplenium decurrens Willd., an earlier name for A. northlandicum (Brownsey) OgleCrossref | GoogleScholarGoogle Scholar |

Brownsey PJ, Perrie LR (2017) Taxonomic notes on the New Zealand flora: lectotypes in the fern family Aspleniaceae New Zealand Journal of Botany 55, 249–257.
Taxonomic notes on the New Zealand flora: lectotypes in the fern family AspleniaceaeCrossref | GoogleScholarGoogle Scholar |

Brownsey PJ, Perrie LR, Field AR (2018) Taxonomic notes on the New Zealand flora: lectotypes in Isoetaceae and Lycopodiaceae New Zealand Journal of Botany 56, 396–405.
Taxonomic notes on the New Zealand flora: lectotypes in Isoetaceae and LycopodiaceaeCrossref | GoogleScholarGoogle Scholar |

Brownsey PJ, Perrie LR, Field AR (2019) Taxonomic notes on the New Zealand flora: lectotypes in Dryopteridaceae and Nephrolepidaceae New Zealand Journal of Botany 57, 32–38.
Taxonomic notes on the New Zealand flora: lectotypes in Dryopteridaceae and NephrolepidaceaeCrossref | GoogleScholarGoogle Scholar |

Burman NL (1768) ‘Flora Indica: cui accedit series zoophytorum indicorum, nec non Prodromus Florae Capensis.’ (Apud Cornelium Haek: Lugduni Batavorum; and Apud Johannem Schreuderum: Amsterdam, Netherlands)

Camus JM (1998) Marattiaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 109–112. (ABRS and CSIRO: Melbourne, Vic., Australia)

Cavanilles AJ (1802) ‘Descripción de las plantas.’ (Imprenta Real: Madrid, Spain).

Chambers TC (2013) A review of the genus Stenochlaena (Blechnaceae, subfamily Stenochlaenoideae) Telopea 15, 13–36.
A review of the genus Stenochlaena (Blechnaceae, subfamily Stenochlaenoideae)Crossref | GoogleScholarGoogle Scholar |

Chambers TC, Farrant PA (1991) A re-examination of the genus Cheilanthes (Adiantaceae) in Australia. Telopea 4, 509–557.
A re-examination of the genus Cheilanthes (Adiantaceae) in Australia.Crossref | GoogleScholarGoogle Scholar |

Chambers TC, Farrant PA (1998) Blechnaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 359–393. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chambers TC, Farrant PA (2012) Blechnum in Blechnaceae. In ‘Flora Malesiana, Series II, Vol. 4’. (Ed. HP Nooteboom) pp. 1–84. (National Herbarium of the Netherlands: Leiden, Netherlands)

Chao YS, Rouhan G, Amoroso VB, Chiou W-L (2014) Molecular phylogeny and biogeography of the fern genus Pteris (Pteridaceae). Annals of Botany 114, 109–124.
Molecular phylogeny and biogeography of the fern genus Pteris (Pteridaceae).Crossref | GoogleScholarGoogle Scholar | 24908681PubMed |

Chase MW, Reveal JL (2009) A phylogenetic classification of the land plants to accompany APG III. Botanical Journal of the Linnean Society 161, 122–127.
A phylogenetic classification of the land plants to accompany APG III.Crossref | GoogleScholarGoogle Scholar |

Chen CW, Schuettpelz E, Lindsay S, Middleton DJ (2016) Proposal to conserve the name Haplopteris against Monogramma (Pteridaceae). Taxon 65, 884–885.
Proposal to conserve the name Haplopteris against Monogramma (Pteridaceae).Crossref | GoogleScholarGoogle Scholar |

Chinnock RJ (1975) The New Zealand Species of Tmesipteris (Psilotaceae) New Zealand Journal of Botany 13, 743–768.
The New Zealand Species of Tmesipteris (Psilotaceae)Crossref | GoogleScholarGoogle Scholar |

Chinnock RJ (1998a) Psilotaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 47–54. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ (1998b) Isoetaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 55–65. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ (1998c) Lycopodiaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 66–84. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ (1998d) Equisetaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 97–98. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ (1998e) Ophioglossaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 99–108. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ (1998f) Osmundaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 112–115. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ (1998g) Platyzomataceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 162–163. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ (1998h) Azollaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 174–177. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ (1998i) Schizaeaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 48: 177–183. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ (1998j) Lygodiaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 183–187. (ABRS and CSIRO: Melbourne, Vic., Australia)

Chinnock RJ, Bell GH (1998) Gleicheniaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 148–161. (ABRS and CSIRO: Melbourne, Vic., Australia)

Christ H (1905) Über die australen Polystichum-arten Arkiv fur Botanik 4, 1–5.

Christenhusz MJM (2015) New combinations in Drynaria (Polypodiaceae subfam. Polypodioideae). Phytotaxa 230, 299
New combinations in Drynaria (Polypodiaceae subfam. Polypodioideae).Crossref | GoogleScholarGoogle Scholar |

Christenhusz MJM, Schneider H (2012) (2054) Proposal to conserve the name Drynaria against Aglaomorpha (Polypodiaceae). Taxon 61, 465–466.
(2054) Proposal to conserve the name Drynaria against Aglaomorpha (Polypodiaceae).Crossref | GoogleScholarGoogle Scholar |

Christenhusz MJM, Zhang X-C, Schneider H (2011) A linear sequence of extant families and genera of lycophytes and ferns. Phytotaxa 19, 7–54.
A linear sequence of extant families and genera of lycophytes and ferns.Crossref | GoogleScholarGoogle Scholar |

Christenhusz MJM, Fay MF, Byng JW (Eds) (2018) GLOVAP Nomenclature part 1. In ‘The Global Flora’, Special Edition 4. pp. 1–155. (Plant Gateway Ltd)

Christensen CFA (1929) Taxonomic fern studies. I. Dansk Botanisk Arkiv Udgivet af Dansk Botanisk Forening 6, 54–73.

Christensen CFA (1937) New and noteworthy Papuan ferns. Brittonia 2, 265–317.
New and noteworthy Papuan ferns.Crossref | GoogleScholarGoogle Scholar |

Clausen RT (1938) A monograph of the Ophioglossaceae. Memoirs of the Torrey Botanical Club 19, 1–177.

Conant DS (1983) A revision of the genus Alsophila (Cyatheaceae) in the Americas. Journal of the Arnold Arboretum 64, 333–382.
A revision of the genus Alsophila (Cyatheaceae) in the Americas.Crossref | GoogleScholarGoogle Scholar |

Copeland EB (1947) Genera filicum, the genera of ferns. Annales Cryptogamici et Phytopathologici 5, 1–247.

Cranfill R, Kato M (2003) Phylogenetics, biogeography, and classification of the woodwardioid ferns (Blechnaceae). In ‘Pteridology in the New Millennium’. pp. 25–48. (Springer Netherlands)

Croxall JP (1975) The Hymenophyllaceae of Queensland Australian Journal of Botany 23, 509–547.
The Hymenophyllaceae of QueenslandCrossref | GoogleScholarGoogle Scholar |

Dauphin B, Vieu J, Grant JR (2014) Molecular phylogenetics supports widespread cryptic species in moonworts (Botrychium sens. strict., Ophioglossaceae). American Journal of Botany 101, 128–140.
Molecular phylogenetics supports widespread cryptic species in moonworts (Botrychium sens. strict., Ophioglossaceae).Crossref | GoogleScholarGoogle Scholar | 24401328PubMed |

Dauphin B, Farrar DR, Maccagni A, Grant JR (2017) A worldwide molecular phylogeny provides new insight on cryptic diversity within the moonworts (Botrychium s. s., Ophioglossaceae). Systematic Botany 42, 620–639.
A worldwide molecular phylogeny provides new insight on cryptic diversity within the moonworts (Botrychium s. s., Ophioglossaceae).Crossref | GoogleScholarGoogle Scholar |

de Freycinet LCD (1828) ‘Voyage autour du Monde, entrepris par Ordre du Roi. Execute sur les Corvettes de S.M. l’Uranie et la Physicienne par M. Louis de Freycinet. Botanique t. 3.’ (Imprimerie de Langlois, Imprimerie royale: Paris, France)

de Gasper AL, Dittrich VAO, Smith AR, Salino A (2016) A classification for Blechnaceae (Polypodiales: Polypodiopsida): new genera, resurrected names, and combinations. Phytotaxa 275, 191–227.
A classification for Blechnaceae (Polypodiales: Polypodiopsida): new genera, resurrected names, and combinations.Crossref | GoogleScholarGoogle Scholar |

de Gasper AL, Almeida TE, Dittrich VAO, Smith AR, Salino A (2017) Molecular phylogeny of the fern family Blechnaceae (Polypodiales) with a revised genus-level treatment. Cladistics 33, 429–446.
Molecular phylogeny of the fern family Blechnaceae (Polypodiales) with a revised genus-level treatment.Crossref | GoogleScholarGoogle Scholar |

de Lange PJ, Gardner RO, Sykes WR, Crowcroft GM, Cameron EK, Stalker F, Christian ML, Braggins JE (2005) Vascular flora of Norfolk Island: some additions and taxonomic notes. New Zealand Journal of Botany 43, 563–596.
Vascular flora of Norfolk Island: some additions and taxonomic notes.Crossref | GoogleScholarGoogle Scholar |

Del Rio C, Hennequin S, Rouhan G, Ebihara A, Lowry PP, Dubuisson J-Y, Gaudeul M (2017) Origins of the fern genus Hymenophyllum (Hymenophyllaceae) in New Caledonia: multiple independent colonizations from surrounding territories and limited in situ diversification. Taxon 66, 1041–1064.
Origins of the fern genus Hymenophyllum (Hymenophyllaceae) in New Caledonia: multiple independent colonizations from surrounding territories and limited in situ diversification.Crossref | GoogleScholarGoogle Scholar |

Der JP, Thomson JA, Stratford JK, Wolf PG (2009) Global chloroplast phylogeny and biogeography of bracken (Pteridium; Dennstaedtiaceae). American Journal of Botany 96, 1041–1049.
Global chloroplast phylogeny and biogeography of bracken (Pteridium; Dennstaedtiaceae).Crossref | GoogleScholarGoogle Scholar | 21628254PubMed |

Des Marais DL, Smith AR, Britton DM, Pryer KM (2003) Phylogenetic relationships and evolution of extant horsetails, Equisetum, based on chloroplast DNA sequence data (rbcL and trnL–F). International Journal of Plant Sciences 164, 737–751.
Phylogenetic relationships and evolution of extant horsetails, Equisetum, based on chloroplast DNA sequence data (rbcL and trnL–F).Crossref | GoogleScholarGoogle Scholar |

Dowe JL (2016) Walter Hill: his involvement with palms (Arecaceae), and notes on his herbarium and the expeditions of 1862 and 1873 Austrobaileya 9, 489–507.

Du Puy DJ (1993a) Selaginellaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 533–534. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993b) Ophioglossaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 535–538. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993c) Adiantaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 541–542. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993d) Vittariaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 542–543. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993e) Pteridaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 543–545. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993f) Polypodiaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 545–549. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993g) Thelypteridaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 551–553. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993h) Dennstaedtiaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 553–554. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993i) Aspleniaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 554–558. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993j) Lomariopsidaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 562–564. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ (1993k) Davalliaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 564–568. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ, Orchard AE (1993a) Pteridophyta and allies. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 530–570. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ, Orchard AE (1993b) Lycopodiaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 531–532. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ, Orchard AE (1993c) Hymenophyllaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 538–541. (ABRS and CSIRO: Melbourne, Vic., Australia)

Du Puy DJ, Orchard AE (1993d) Dryopteridaceae. In ‘Oceanic Islands 2. Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 558–562. (ABRS and CSIRO: Melbourne, Vic., Australia)

Dubuisson J-Y, Hennequin S, Douzery EJ, Cranfill RB, Smith AR, Pryer KM (2003) rbcL phylogeny of the fern genus Trichomanes (Hymenophyllaceae), with special reference to neotropical taxa. International Journal of Plant Sciences 164, 753–761.
rbcL phylogeny of the fern genus Trichomanes (Hymenophyllaceae), with special reference to neotropical taxa.Crossref | GoogleScholarGoogle Scholar |

Ebihara A, Iwatsuki K (2007) The Hymenophyllaceae of the Pacific Area. 1. Hymenophyllum subgenus Hymenophyllum. Bulletin of the National Museum of Natural Sciences – B 33, 55–68.

Ebihara A, Dubuisson J-Y, Iwatsuki K, Hennequin S, Ito M (2006) A taxonomic revision of Hymenophyllaceae. Blumea 51, 221–280.
A taxonomic revision of Hymenophyllaceae.Crossref | GoogleScholarGoogle Scholar |

Ebihara A, Iwatsuki K, Ito M, Hennequin S, Dubuisson J-Y (2007) A global molecular phylogeny of the fern genus Trichomanes (Hymenophyllaceae) with special reference to stem anatomy. Botanical Journal of the Linnean Society 155, 1–27.
A global molecular phylogeny of the fern genus Trichomanes (Hymenophyllaceae) with special reference to stem anatomy.Crossref | GoogleScholarGoogle Scholar |

Eiserhardt WL, Rohwer JG, Russell SJ, Yesilyurt JC, Schneider H (2011) Evidence for radiations of cheilanthoid ferns in the Greater Cape Floristic Region. Taxon 60, 1269–1283.
Evidence for radiations of cheilanthoid ferns in the Greater Cape Floristic Region.Crossref | GoogleScholarGoogle Scholar |

Ferrer-Gallego PP, Laguna E, Rossello JA (2017) Typifications of the Linnaean name Equisetum hyemale and E. x moorei (Equisetaceae). Phytotaxa 305, 104–110.
Typifications of the Linnaean name Equisetum hyemale and E. x moorei (Equisetaceae).Crossref | GoogleScholarGoogle Scholar |

Field AR, Bostock PD (2008) Huperzia tetrastichoides A.R.Field & Bostock (Lycopodiaceae) a newly recognised species of tassel-fern from the Wet Tropics of Queensland, Australia. Austrobaileya 7, 711–715.

Field AR, Bostock PD (2013) New and existing combinations in Palaeotropical Phlegmariurus (Lycopodiaceae) and lectotypification of the type species Phlegmariurus phlegmaria (L.) T.Sen & U.Sen. PhytoKeys 20, 33–51.
New and existing combinations in Palaeotropical Phlegmariurus (Lycopodiaceae) and lectotypification of the type species Phlegmariurus phlegmaria (L.) T.Sen & U.Sen.Crossref | GoogleScholarGoogle Scholar |

Field AR, Renner MAM (2019) Rediscovered or reconsidered: the presumed extinct ferns and lycophytes of tropical Queensland, Australia. Australian Systematic Botany 32, 111–122.
Rediscovered or reconsidered: the presumed extinct ferns and lycophytes of tropical Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |

Field AR, Testo W, Bostock PDB, Holtum JAM, Waycott M (2016) Molecular phylogenetics and the morphology of the Lycopodiaceae subfamily Huperzioideae supports three genera: Huperzia, Phlegmariurus and Phylloglossum. Molecular Phylogenetics and Evolution 94, 635–657.
Molecular phylogenetics and the morphology of the Lycopodiaceae subfamily Huperzioideae supports three genera: Huperzia, Phlegmariurus and Phylloglossum.Crossref | GoogleScholarGoogle Scholar | 26493224PubMed |

Fischer CEC (1932) The Koenig collection in the Lund herbarium. Bulletin of Miscellaneous Information 2, 49–76.

Fraser-Jenkins CR (1989) A monograph of the genus Dryopteris (Pteridophyta: Dryopteridaceae) in the Indian subcontinent. Bulletin of the British Museum (Natural History), Botany 18, 323–447.

Gardner JJS, Perrie L, Shepherd L, Nagalingum NS (2017) Taxonomic placement of unassigned species of lastreopsid ferns (Dryopteridaceae) using phylogeny. Systematic Botany 42, 385–391.
Taxonomic placement of unassigned species of lastreopsid ferns (Dryopteridaceae) using phylogeny.Crossref | GoogleScholarGoogle Scholar |

Green PS (1988) Notes relating to Australian ferns, especially from Norfolk & Lord Howe Islands. Kew Bulletin 43, 649–657.
Notes relating to Australian ferns, especially from Norfolk & Lord Howe Islands.Crossref | GoogleScholarGoogle Scholar |

Green PS (1993) Two new combinations in Crepidomanes and one in Cephalomanes (Hymenophyllaceae). Kew Bulletin 48, 618
Two new combinations in Crepidomanes and one in Cephalomanes (Hymenophyllaceae).Crossref | GoogleScholarGoogle Scholar |

Green PS (1994) Pteridophyta. In ‘Oceanic Islands 1. Flora of Australia, Vol. 49’. (Ed. AJG Wilson) pp. 546–615. (ABRS and CSIRO: Melbourne, Vic., Australia)

Greuter W, Troia A (2014) Proposal to conserve the name Palhinhaea against Lepidotis. Taxon 63, 680–682.
Proposal to conserve the name Palhinhaea against Lepidotis.Crossref | GoogleScholarGoogle Scholar |

Grusz AL, Windham MD (2013) Toward a monophyletic Cheilanthes: the resurrection and recircumscription of Myriopteris (Pteridaceae). PhytoKeys 32, 49–63.
Toward a monophyletic Cheilanthes: the resurrection and recircumscription of Myriopteris (Pteridaceae).Crossref | GoogleScholarGoogle Scholar |

Guillon JM (2007) Molecular phylogeny of horsetails (Equisetum) including chloroplast atpB sequences. Journal of Plant Research 120, 569–574.
Molecular phylogeny of horsetails (Equisetum) including chloroplast atpB sequences.Crossref | GoogleScholarGoogle Scholar | 17476459PubMed |

Guymer GP (1982) Dicksonia herbertii W.Hill an earlier name for D. youngiae C.Moore ex Baker. Australian Systematic Botany Society Newsletter 32, 13

Hauk WD, Parks CR, Chase MW (2003) Phylogenetic studies of Ophioglossaceae: evidence from rbcL and trnL–F plastid DNA sequences and morphology. Molecular Phylogenetics and Evolution 28, 131–151.
Phylogenetic studies of Ophioglossaceae: evidence from rbcL and trnL–F plastid DNA sequences and morphology.Crossref | GoogleScholarGoogle Scholar | 12801476PubMed |

He L-J, Zhang X-C (2012) Exploring generic delimitation within the fern family Thelypteridaceae. Molecular Phylogenetics and Evolution 65, 757–764.
Exploring generic delimitation within the fern family Thelypteridaceae.Crossref | GoogleScholarGoogle Scholar | 22877644PubMed |

Hennequin S, Ebihara A, Ito M, Iwatsuki K, Dubuisson J-Y (2006) New insights into the phylogeny of the genus Hymenophyllum sens. lat. (Hymenophyllaceae): revealing the polyphyly of Mecodium. Systematic Botany 31, 271–284.
New insights into the phylogeny of the genus Hymenophyllum sens. lat. (Hymenophyllaceae): revealing the polyphyly of Mecodium.Crossref | GoogleScholarGoogle Scholar |

Hennequin S, Hovenkamp P, Christenhusz MJM, Schneider H (2010) Phylogenetics and biogeography of Nephrolepis: a tale of old settlers and young tramps. Botanical Journal of the Linnean Society 164, 113–127.
Phylogenetics and biogeography of Nephrolepis: a tale of old settlers and young tramps.Crossref | GoogleScholarGoogle Scholar |

Hennequin S, Kessler M, Lindsay S, Schneider H (2014) Evolutionary patterns in the assembly of fern diversity on the oceanic Mascarene Islands. Journal of Biogeography 41, 1651–1663.
Evolutionary patterns in the assembly of fern diversity on the oceanic Mascarene Islands.Crossref | GoogleScholarGoogle Scholar |

Hennequin S, Rouhan G, Salino A, Duan Y, Lepeigneux M, Guillou M, Ansell S, Almeida TE, Zhang L, Schneider H (2017) Global phylogeny and biogeography of the fern genus Ctenitis (Dryopteridaceae), with a focus on the Indian Ocean region. Molecular Phylogenetics and Evolution 112, 277–289.
Global phylogeny and biogeography of the fern genus Ctenitis (Dryopteridaceae), with a focus on the Indian Ocean region.Crossref | GoogleScholarGoogle Scholar | 28438702PubMed |

Hennipman E (1966) Pteridoblechnum, a new genus of blechnoid ferns from Australia. Blumea 13, 397–403.

Hennipman E (1984) Steenisioblechnum, a new fern genus from Queensland. Blumea 30, 19

Hennipman E, Roos MC (1982) A monograph of the fern genus Platycerium (Polypodiaceae). Verhandelingen der Koninklijke Nederlands Akademie van Wetenschappen, Afdeeling Natuurkunde, Tweede Reeks 80, 1–126.

Hennipman E, Veldhoen P, Kramer KU, Price MG (1990) Polypodiaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 203–230. (Springer-Verlag: Berlin, Germany)

Hill W (1874) Report on the Brisbane Botanic Gardens. Votes of the Proceedings of the Legislative Assembly of Queensland Session 6, 865–871.

Holttum RE (1959a) Gleicheniaceae. In ‘Flora Malesiana Series. II, Vol. 1’. (Eds CGGGJ van Steenis, RE Holttum) pp. 1–36. (Noordhoff: Groningen, Netherlands)

Holttum RE (1959b) Schizeaceae. In ‘Flora Malesiana Series. II, Vol. 1’. (Eds CGGGJ van Steenis, RE Holttum) pp. 37–61. (Noordhoff: Groningen, Netherlands)

Holttum RE (1963) Cyatheaceae. In ‘Flora Malesiana Series. II. Pterid Malesiana. II Pteridophyte, Vol. 1’. (Eds CGGGJ van Steenis, RE Holttum) pp. 65–176. (Noordhoff: Groningen, Netherlands)

Holttum RE (1964) The tree ferns of the genus Cyathea in Australia and the Pacific. Blumea 12, 123–158.

Holttum RE (1971) Studies in the family Thelypteridaceae III. A new system of genera in the Old World. Blumea 19, 17–52.

Holttum RE (1972) Studies in the family Thelypteridaceae IV. The genus Pronephrium Presl. Blumea 20, 105–126.

Holttum RE (1973) The identity of three type specimens in the Willdenow Herbarium. American Fern Journal 63, 81–84.
The identity of three type specimens in the Willdenow Herbarium.Crossref | GoogleScholarGoogle Scholar |

Holttum RE (1974a) Asplenium L. sect. Thamnopteris Presl. Gardens’ Bulletin 27, 143–154.

Holttum RE (1974b) Thelypteridaceae of Africa and adjacent islands. Journal of South African Botany 40, 123–168.

Holttum RE (1975) Studies in the family Thelypteridaceae VIII. The genera Mesophlebion and Plesioneuron. Blumea 22, 223–250.

Holttum RE (1976) Some new names in Thelypteridaceae, with comments on cytological reports relating to this family. Webbia 30, 191–195.
Some new names in Thelypteridaceae, with comments on cytological reports relating to this family.Crossref | GoogleScholarGoogle Scholar |

Holttum RE (1977) The family Thelypteridaceae in the Pacific and Australasia. Allertonia 1, 169–234.

Holttum RE (1982) Thelypteridaceae. In ‘Flora Malesiana, series II, 5, Pteridophyta, Thelypteridaceae’. (Eds CGGGJ van Steenis, RE Holttum) pp. 331–560. (Noordhoff: Groningen, Netherlands)

Holttum RE (1986) Studies in the fern-genera allied to Tectaria Cav. VI. A conspectus of genera in the Old World regarded as related to Tectaria, with descriptions of two genera. Gardens’ Bulletin 39, 153–167.

Holttum RE (1988) Studies in the fern genera allied to Tectaria Cav. VII. Species of Tectaria sect. Sagenia (Presl) Holttum in Asia excluding Malesia. Kew Bulletin 43, 475–489.
Studies in the fern genera allied to Tectaria Cav. VII. Species of Tectaria sect. Sagenia (Presl) Holttum in Asia excluding Malesia.Crossref | GoogleScholarGoogle Scholar |

Holttum RE (1991) ‘Flora Malesiana, Series II, Pteridophyta, Vol. 2, Part 1, Tectaria Group.’ (Rijksherbarium/Hortus Botanicus: Leiden, Netherlands)

Holub J (1964) Lycopodiella, novy rod radu Lycopodiales. Preslia 36, 16–22.

Holub J (1975) Diphasiastrum, a new genus in Lycopodiaceae. Preslia 47, 97–110.

Holub J (1983) Validation of generic names in Lycopodiaceae: with a description of a new genus Pseudolycopodiella. Folia Geobotanica et Phytotaxonomica 18, 439–442.
Validation of generic names in Lycopodiaceae: with a description of a new genus Pseudolycopodiella.Crossref | GoogleScholarGoogle Scholar |

Holub J (1985) Transfers of Lycopodium species to Huperzia: with a note on generic classification in Huperziaceae. Folia Geobotanica et Phytotaxonomica 20, 67–80.
Transfers of Lycopodium species to Huperzia: with a note on generic classification in Huperziaceae.Crossref | GoogleScholarGoogle Scholar |

Holub J (1991) Some taxonomic changes within the Lycopodiales. Folia Geobotanica et Phytotaxonomica 26, 81–94.
Some taxonomic changes within the Lycopodiales.Crossref | GoogleScholarGoogle Scholar |

Hooker WJ, Baker JG (1868) ‘Synopsis Filicum.’ (Robert Hardwick: London, UK)

Hooker WJ, Baker JG (1874) ‘Synopsis Filicum’, 2nd edn. (Robert Hardwick: London, UK)

Hoot SB, Taylor WC, Napier NS (2006) Phylogeny and biogeography of Isoëtes (Isoëtaceae) based on nuclear and chloroplast DNA sequence data. Systematic Botany 31, 449–460.
Phylogeny and biogeography of Isoëtes (Isoëtaceae) based on nuclear and chloroplast DNA sequence data.Crossref | GoogleScholarGoogle Scholar |

Hovenkamp P (1986) ‘A Monograph of the Fern Genus Pyrrosia (Polypodiaceae)’, Leiden Botanical Series, Vol. 9. (Leiden University Press: Leiden, Netherlands)

Hovenkamp P (1998) An account of the Malay-Pacific species of Selliguea (Polypodiaceae). Blumea 43, 1–108.

Hovenkamp PH, Ho B-C (2012) A revision of the fern genus Oleandra (Oleandraceae) in Asia. PhytoKeys 11, 1–37.
A revision of the fern genus Oleandra (Oleandraceae) in Asia.Crossref | GoogleScholarGoogle Scholar |

Hovenkamp PH, Miyamoto F (2005) A conspectus of the native and naturalized species of Nephrolepis (Nephrolepidaceae) in the world Blumea 50, 279–322.
A conspectus of the native and naturalized species of Nephrolepis (Nephrolepidaceae) in the worldCrossref | GoogleScholarGoogle Scholar |

Hovenkamp PH, Miyamoto F (2012) Nephrolepidaceae. In ‘Flora Malesiana Series, Vol. 4 (Series II. Ferns and fern allies)’. (Ed. HP Nooteboom) pp. 97–122. (Flora Malesiana Foundation: Leiden, Netherlands)

Janssen T, Schneider H (2005) Exploring the evolution of humus collecting leaves in drynarioid ferns (Polypodiaceae, Polypodiidae) based on phylogenetic evidence. Plant Systematics and Evolution 252, 175–197.
Exploring the evolution of humus collecting leaves in drynarioid ferns (Polypodiaceae, Polypodiidae) based on phylogenetic evidence.Crossref | GoogleScholarGoogle Scholar |

Jarvis C (2007) ‘Order Out of Chaos. Linnaean Plant Names and their Types.’ (The Linnean Society of London in association with the Natural History Museum, London: London, UK)

Jermy AC (1990a) Isoëtaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 26–31. (Springer-Verlag: Berlin, Germany)

Jermy AC (1990b) Selaginellaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 39–45. (Springer-Verlag: Berlin, Germany)

Jermy AC, Holmes JS (1998) Selaginellaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 85–96. (ABRS and CSIRO: Melbourne, Vic., Australia)

Johnson ERL (1984) Taxonomic revision of Isoetes L. in Western Australia Journal of the Royal Society of Western Australia 66, 28–43.

Jones DL (1998a) Marsileaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 166–172. (ABRS and CSIRO: Melbourne, Vic., Australia)

Jones DL (1998b) Dicksoniaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 187–191. (ABRS and CSIRO: Melbourne, Vic., Australia)

Jones DL (1998c) Culcitaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 191–193. (ABRS and CSIRO: Melbourne, Vic., Australia)

Jones DL (1998d) Vittariaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 288–295. (ABRS and CSIRO: Melbourne, Vic., Australia)

Jones DL (1998e) Athyriaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 418–429. (ABRS and CSIRO: Melbourne, Vic., Australia)

Jones DL (1998f) Lomariopsidaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 429–434. (ABRS and CSIRO: Melbourne, Vic., Australia)

Jones DL, Bostock PD (1998) Dryopteridaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 393–418. (ABRS and CSIRO: Melbourne, Vic., Australia)

Jonsell B, Jarvis CE (1994) Lectotypifications of Linnaean names for the Flora Nordica Vol. 1 (Lycopodiaceae–Papaveraceae). Nordic Journal of Botany 14, 145–164.
Lectotypifications of Linnaean names for the Flora Nordica Vol. 1 (Lycopodiaceae–Papaveraceae).Crossref | GoogleScholarGoogle Scholar |

Kenrick P, Crane PR (1997) ‘The Origin and Early Diversification of Land Plants: a Cladistic Study.’ (Smithsonian: Washington, DC, USA)

Kiew R (2018) Two new Phlegmariurus species (Lycopodiaceae) and one new combination from Peninsular Malaysia. PhytoKeys 96, 99–110.
Two new Phlegmariurus species (Lycopodiaceae) and one new combination from Peninsular Malaysia.Crossref | GoogleScholarGoogle Scholar |

Kirkpatrick REB (2007) Investigating the monophyly of Pellaea (Pteridaceae) in the context of a phylogenetic analysis of cheilanthoid ferns. Systematic Botany 32, 504–518.
Investigating the monophyly of Pellaea (Pteridaceae) in the context of a phylogenetic analysis of cheilanthoid ferns.Crossref | GoogleScholarGoogle Scholar |

Knie N, Fischer S, Grewe F, Polsakiewicz M, Knoop V (2015) Horsetails are the sister group to all other monilophytes and Marattiales are sister to leptosporangiate ferns. Molecular Phylogenetics and Evolution 90, 140–149.
Horsetails are the sister group to all other monilophytes and Marattiales are sister to leptosporangiate ferns.Crossref | GoogleScholarGoogle Scholar | 25999055PubMed |

Korall P, Kenrick P (2004) The phylogenetic history of Selaginellaceae based on DNA sequences from the plastid and nucleus: extreme substitution rates and rate heterogeneity. Molecular Phylogenetics and Evolution 31, 852–864.
The phylogenetic history of Selaginellaceae based on DNA sequences from the plastid and nucleus: extreme substitution rates and rate heterogeneity.Crossref | GoogleScholarGoogle Scholar | 15120383PubMed |

Korall P, Kenrick P, Therrien JP (1999) Phylogeny of Selaginellaceae: evaluation of generic/subgeneric relationships based on rbcL gene sequences. International Journal of Plant Sciences 160, 585–594.
Phylogeny of Selaginellaceae: evaluation of generic/subgeneric relationships based on rbcL gene sequences.Crossref | GoogleScholarGoogle Scholar |

Korall P, Pryer KM, Metzgar JS, Schneider H, Conant DS (2006) Tree ferns: monophyletic groups and their relationships as revealed by four protein-coding plastid loci. Molecular Phylogenetics and Evolution 39, 830–845.
Tree ferns: monophyletic groups and their relationships as revealed by four protein-coding plastid loci.Crossref | GoogleScholarGoogle Scholar | 16481203PubMed |

Korall P, Conant DS, Metzgar JS, Schneider H, Pryer KM (2007) A molecular phylogeny of scaly tree ferns (Cyatheaceae). American Journal of Botany 94, 873–886.
A molecular phylogeny of scaly tree ferns (Cyatheaceae).Crossref | GoogleScholarGoogle Scholar | 21636456PubMed |

Kramer KU (1990a) Psilotaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 22–25. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990b) Davalliaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 74–80. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990c) Dennstaedtiaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 81–94. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990d) Dicksoniaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 94–99. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990e) Dipteridaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 99–101. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990f) Gleicheniaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 145–152. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990g) Lomariopsidaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 164–170. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990h) Marsileaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 180–183. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990i) Oleandraceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 190–193. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990j) Osmundaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 197–200. (Springer-Verlag: Berlin, Germany)

Kramer KU (1990k) Schizaeaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 258–263. (Springer-Verlag: Berlin, Germany)

Kramer KU, McCarthy PM (1998a) Lindseaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 228–241. (ABRS and CSIRO: Melbourne, Vic., Australia)

Kramer KU, McCarthy PM (1998b) Pteridaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 241–248. (ABRS and CSIRO: Melbourne, Vic., Australia)

Kramer KU, Tindale MD (1976) The lindsaeoid ferns of the old world VII. Australia and New Zealand. Telopea 1, 91–128.
The lindsaeoid ferns of the old world VII. Australia and New Zealand.Crossref | GoogleScholarGoogle Scholar |

Kramer KU, Holttum RE, Moran RC, Smith AR (1990) Dryopteridaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 101–144. (Springer-Verlag: Berlin, Germany)

Kreier HP, Schneider H (2006a) Reinstatement of Loxogramme dictyopteris, based on phylogenetic evidence, for the New Zealand endemic fern, Anarthropteris lanceolata (Polypodiaceae, Polypodiidae). Australian Systematic Botany 19, 309–314.
Reinstatement of Loxogramme dictyopteris, based on phylogenetic evidence, for the New Zealand endemic fern, Anarthropteris lanceolata (Polypodiaceae, Polypodiidae).Crossref | GoogleScholarGoogle Scholar |

Kreier HP, Schneider H (2006b) Phylogeny and biogeography of the staghorn fern genus Platycerium (Polypodiaceae, Polypodiidae). American Journal of Botany 9, 217–225.

Kreier HP, Zhang XC, Muth H, Schneider H (2008) The microsoroid ferns: inferring the relationships of a highly diverse lineage of paleotropical epiphytic ferns (Polypodiaceae, Polypodiopsida). Molecular Phylogenetics and Evolution 48, 1155–1167.
The microsoroid ferns: inferring the relationships of a highly diverse lineage of paleotropical epiphytic ferns (Polypodiaceae, Polypodiopsida).Crossref | GoogleScholarGoogle Scholar | 18562215PubMed |

Kuhn FAM (1869) Reliquiae Metteniae. Linnaea 36, 41–169.

Kunze G (1843) Phylloglossum genus novum ex ordine novoe Botanische Zeitung 1, 721–723.

Kuo L-Y, Ebihara A, Shinohara W, Rouhan G, Wood KR, Wang C-N, Chiou W-L (2016a) Historical biogeography of the fern genus Deparia (Athyriaceae) and its relation with polyploidy. Molecular Phylogenetics and Evolution 104, 123–134.
Historical biogeography of the fern genus Deparia (Athyriaceae) and its relation with polyploidy.Crossref | GoogleScholarGoogle Scholar | 27520931PubMed |

Kuo L-Y, Chang Y-H, Glowienka JM, Amoroso VB, Dong S-Y, Kao T-T, Wang C-N, Chiou W-L (2016b) A revised framework of Dryopteris subg. Nothoperanema (Dryopteridaceae) inferred from phylogenetic evidence, with descriptions of two new sections. Systematic Botany 41, 596–605.
A revised framework of Dryopteris subg. Nothoperanema (Dryopteridaceae) inferred from phylogenetic evidence, with descriptions of two new sections.Crossref | GoogleScholarGoogle Scholar |

Labiak PH, Sundue M, Rouhan G, Hanks JG, Mickel JT, Moran RC (2014) Phylogeny and historical biogeography of the lastreopsid ferns (Dryopteridaceae). American Journal of Botany 101, 1207–1228.
Phylogeny and historical biogeography of the lastreopsid ferns (Dryopteridaceae).Crossref | GoogleScholarGoogle Scholar | 25016009PubMed |

Labiak PH, Sundue M, Rouhan G, Moran RC (2015) New combinations in Lastreopsis and Parapolystichum (Dryopteridaceae). Brittonia 67, 79–86.
New combinations in Lastreopsis and Parapolystichum (Dryopteridaceae).Crossref | GoogleScholarGoogle Scholar |

Larsén E, Rydin C (2016) Disentangling the phylogeny of Isoetes (Isoetales), using nuclear and plastid data. International Journal of Plant Sciences 177, 157–174.
Disentangling the phylogeny of Isoetes (Isoetales), using nuclear and plastid data.Crossref | GoogleScholarGoogle Scholar |

Le Péchon T, He H, Zhang L, Zhou X-M, Gao X-F, Zhang L-B (2016) Using a multilocus phylogeny to test morphology-based classifications of Polystichum (Dryopteridaceae), one of the largest fern genera. Evolutionary Biology 16, 55

Lehtonen S, Tuomisto H, Rouhan G, Christenhusz MJM (2010) Phylogenetics and classification of the pantropical fern family Lindsaeaceae. Botanical Journal of the Linnean Society 163, 305–359.
Phylogenetics and classification of the pantropical fern family Lindsaeaceae.Crossref | GoogleScholarGoogle Scholar |

Lehtonen S, Wahlberg N, Christenhusz MJM (2012) Diversification of lindsaeoid ferns and phylogenetic uncertainty of early polypod relationships. Botanical Journal of the Linnean Society 170, 489–503.
Diversification of lindsaeoid ferns and phylogenetic uncertainty of early polypod relationships.Crossref | GoogleScholarGoogle Scholar |

Li C, Lu S, Ma J, Yang Q (2010) Phylogeny and divergence of Gleicheniaceae inferred from three plastid genes. Acta Palaeontologica Sinica 49, 64–72.

Lindsay S, Hovenkamp PH, Middleton DJ (2017) New combinations and typifications in Aglaomorpha (Polypodiaceae). Gardens’ Bulletin 69, 149–155.
New combinations and typifications in Aglaomorpha (Polypodiaceae).Crossref | GoogleScholarGoogle Scholar |

Liu H, Jiang R-H, Guo J, Hovenkamp P, Perrie LR, Shepherd L, Hennequin S, Schneider H (2013) Towards a phylogenetic classification of the climbing fern genus Arthropteris. Taxon 62, 688–700.
Towards a phylogenetic classification of the climbing fern genus Arthropteris.Crossref | GoogleScholarGoogle Scholar |

Lloyd RM (1974) Systematics of the genus Ceratopteris Brongn. (Parkeriaceae) II. Taxonomy. Brittonia 26, 139–160.
Systematics of the genus Ceratopteris Brongn. (Parkeriaceae) II. Taxonomy.Crossref | GoogleScholarGoogle Scholar |

Lóriga J, Schmidt AR, Moran RC, Feldberg K, Schneider H, Heinrichs J (2014) The first fossil of a bolbitidoid fern belongs to the early divergent lineages of Elaphoglossum (Dryopteridaceae). American Journal of Botany 101, 1466–1475.
The first fossil of a bolbitidoid fern belongs to the early divergent lineages of Elaphoglossum (Dryopteridaceae).Crossref | GoogleScholarGoogle Scholar | 25253707PubMed |

Mabberley DJ, Moore DT The Robert Brown handbook: a guide to the life and work of Robert Brown (1773–1858), Scottish botanist. Regnum Vegetabile

Marsden CR (1976) Morphological variation and taxonomy of Isoetes muelleri A.Braun Journal of the Adelaide Botanic Gardens 1, 37–54.

Mazumdar J (2015) Typifications of some Lycopodiaceae from India Webbia 70, 289–291.
Typifications of some Lycopodiaceae from IndiaCrossref | GoogleScholarGoogle Scholar |

Mazumdar J (2016) Retypifications of Adiantum incisum (Pteridaceae) and Pteris interrupta (Thelypteridaceae) The Fern Gazette 20, 143–145.

Mazumdar J, Shalimov AP (2016) Typifications of Linnaean names Equisetum palustre (Equisetaceae) and Acrostichum punctatum (Polypodiaceae). Turczaninowia 19, 5–9.
Typifications of Linnaean names Equisetum palustre (Equisetaceae) and Acrostichum punctatum (Polypodiaceae).Crossref | GoogleScholarGoogle Scholar |

McCarthy PM (Ed.) (1998a) ‘Ferns, Gymnosperms and Allied Groups, Flora of Australia, Vol. 48.’ (ABRS and CSIRO: Melbourne, Vic., Australia)

McCarthy PM (1998b) Salviniaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 173­–174. (ABRS and CSIRO: Melbourne, Vic., Australia)

McKeown M, Sundue M, Barrington D (2012) Phylogenetic analyses place the Australian monotypic Revwattsia in Dryopteris (Dryopteridaceae). PhytoKeys 14, 43
Phylogenetic analyses place the Australian monotypic Revwattsia in Dryopteris (Dryopteridaceae).Crossref | GoogleScholarGoogle Scholar |

Mettenius G (1861) Filices Novae Caledoniae, Viellard collectae. Annales des Sciences Naturelles – Botanique, Series 4 15, 55–87.

Metzgar JS, Schneider H, Pryer KM (2007) Phylogeny and divergence time estimates for the fern genus Azolla (Salviniaceae). International Journal of Plant Sciences 168, 1045–1053.
Phylogeny and divergence time estimates for the fern genus Azolla (Salviniaceae).Crossref | GoogleScholarGoogle Scholar |

Metzgar JS, Skog JE, Zimmer EA, Pryer KM (2008) The paraphyly of Osmunda is confirmed by phylogenetic analyses of seven plastid loci. Systematic Botany 33, 31–36.
The paraphyly of Osmunda is confirmed by phylogenetic analyses of seven plastid loci.Crossref | GoogleScholarGoogle Scholar |

Meza-Torres EI, Macluf CC, Morbelli MA, Ferrucci MS (2015) The circumscription of problematic species of Ophioglossum (Ophioglossaceae) from southern South America: a palynological approach. Phytotaxa 205, 145–156.
The circumscription of problematic species of Ophioglossum (Ophioglossaceae) from southern South America: a palynological approach.Crossref | GoogleScholarGoogle Scholar |

Moran RC (2000) Monograph of the neotropical species of Lomariopsis (Lomariopsidaceae). Brittonia 52, 55–111.
Monograph of the neotropical species of Lomariopsis (Lomariopsidaceae).Crossref | GoogleScholarGoogle Scholar |

Moran RC, Labiak PH, Sundue M (2010) Phylogeny and character evolution of the bolbitidoid ferns (Dryopteridaceae). International Journal of Plant Sciences 171, 547–559.
Phylogeny and character evolution of the bolbitidoid ferns (Dryopteridaceae).Crossref | GoogleScholarGoogle Scholar |

Morton CV (1960) Observations of cultivated ferns, VI. The ferns currently known as Rumohra. American Fern Journal 50, 145–155.
Observations of cultivated ferns, VI. The ferns currently known as Rumohra.Crossref | GoogleScholarGoogle Scholar |

Morton CV (1967) Studies of fern types, I. Contributions from the United States National Herbarium 38, 29–38.

Morton CV (1970a) The lectotype of Polypodium leptophyllum L. American Fern Journal 60, 101–103.
The lectotype of Polypodium leptophyllum L.Crossref | GoogleScholarGoogle Scholar |

Morton CV (1970b) Proposal for the conservation of the generic name Drynaria (Bory) J.Sm. (Filicinae). Taxon 19, 647

Morton CV (1973) Studies of fern types, II. Contributions from the United States National Herbarium 38, 215–281.

Morton CV (1974) William Roxburgh’s fern types. Contributions from the United States National Herbarium 38, 283–396.

Murdock AG (2008) A taxonomic revision of the eusporangiate fern family Marattiaceae, with description of a new genus Ptisana. Taxon 57, 737–755.
A taxonomic revision of the eusporangiate fern family Marattiaceae, with description of a new genus Ptisana.Crossref | GoogleScholarGoogle Scholar |

Nagalingum NS, Schneider H, Pryer KM (2007) Molecular phylogenetic relationships and morphological evolution in the heterosporous fern genus Marsilea. Systematic Botany 32, 16–25.
Molecular phylogenetic relationships and morphological evolution in the heterosporous fern genus Marsilea.Crossref | GoogleScholarGoogle Scholar |

Nagalingum NS, Nowak MD, Pryer KM (2008) Assessing phylogenetic relationships in extant heterosporous ferns (Salviniales), with a focus on Pilularia and Salvinia. Botanical Journal of the Linnean Society 157, 673–685.
Assessing phylogenetic relationships in extant heterosporous ferns (Salviniales), with a focus on Pilularia and Salvinia.Crossref | GoogleScholarGoogle Scholar |

Nakazato T, Gastony GJ (2003) Molecular phylogenetics of Anogramma species and related genera (Pteridaceae: Taenitidoideae). Systematic Botany 28, 490–502.

Nauman CE (1981) The genus Nephrolepis in Florida. American Fern Journal 71, 35–40.

Nicolson DH, Fosberg FR (2003) The Forsters and the botany of the second Cook Expedition (1772–1775) Regnum Vegetabile 139, 1–760.

Noben S, Lehnert M (2013) The genus Dicksonia (Dicksoniaceae) in the western Pacific. Phytotaxa 155, 23–34.
The genus Dicksonia (Dicksoniaceae) in the western Pacific.Crossref | GoogleScholarGoogle Scholar |

Noben S, Kessler M, Quandt D, Weigand A, Wicke S, Krug M, Lehnert M (2017) Biogeography of the Gondwanan tree fern family Dicksoniaceae. A tale of vicariance, dispersal and extinction. Journal of Biogeography 44, 2648–2659.
Biogeography of the Gondwanan tree fern family Dicksoniaceae. A tale of vicariance, dispersal and extinction.Crossref | GoogleScholarGoogle Scholar |

Nooteboom HP (1994) Notes on Davalliaceae II, a revision of the genus Davallia. Blumea 39, 151–214.

Nooteboom HP (1997) The microsoroid ferns (Polypodiaceae). Blumea 42, 261–395.

Ohlsen DJ, Field AR (2013) A new fern species for Queensland: Diplazium squamuligerum (Rosenst.) Parris (Woodsiaceae). Austrobaileya 9, 114–125.

Ohlsen DJ, Perrie LR, Shepherd LD, Brownsey PJ, Bayly MJ (2014a) Phylogeny of the fern family Aspleniaceae in Australasia and the south-western Pacific. Australian Systematic Botany 27, 355–371.
Phylogeny of the fern family Aspleniaceae in Australasia and the south-western Pacific.Crossref | GoogleScholarGoogle Scholar |

Ohlsen DJ, Perrie LR, Shepherd LD, Bayly MJ (2014a) Taxonomic status and distribution of the critically endangered Christmas Island spleenwort (Asplenium listeri, Aspleniaceae): it is not as rare as we thought. Australian Systematic Botany 27, 372–377.
Taxonomic status and distribution of the critically endangered Christmas Island spleenwort (Asplenium listeri, Aspleniaceae): it is not as rare as we thought.Crossref | GoogleScholarGoogle Scholar |

Ohlsen DJ, Perrie LR, Shepherd LD, Brownsey PJ, Bayly MJ (2014b) Investigation of species boundaries and relationships in the Asplenium paleaceum complex (Aspleniaceae) using AFLP fingerprinting and chloroplast and nuclear DNA sequences. Australian Systematic Botany 27, 378–394.
Investigation of species boundaries and relationships in the Asplenium paleaceum complex (Aspleniaceae) using AFLP fingerprinting and chloroplast and nuclear DNA sequences.Crossref | GoogleScholarGoogle Scholar |

Ohlsen DJ, Perrie LR, Brownsey PJ, Bayly MJ (2018) A new combination for an Australian fern: Hymenasplenium wildii (Aspleniaceae). Muelleria 37, 19–22.

Øllgaard B (1989) Index of the Lycopodiaceae. Biologiske Skrifter 3, 1–135.

Øllgaard B (1990) Lycopodiaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 31–39. (Springer-Verlag: Berlin, Germany)

Øllgaard B (2012a) Nomenclatural changes in Brazilian Lycopodiaceae. Rodriguésia 63, 479–482.
Nomenclatural changes in Brazilian Lycopodiaceae.Crossref | GoogleScholarGoogle Scholar |

Øllgaard B (2012b) New combinations in neotropical Lycopodiaceae. Phytotaxa 57, 10–22.
New combinations in neotropical Lycopodiaceae.Crossref | GoogleScholarGoogle Scholar |

Øllgaard B (2015) Six new species and some nomenclatural changes in neotropical Lycopodiaceae. Nordic Journal of Botany 33, 186–196.
Six new species and some nomenclatural changes in neotropical Lycopodiaceae.Crossref | GoogleScholarGoogle Scholar |

Øllgaard B, Windisch PG (2014) Lycopodiaceae in Brazil. Conspectus of the family I. The genera Lycopodium, Austrolycopodium, Diphasium, and Diphasiastrum. Rodriguésia 65, 293–309.
Lycopodiaceae in Brazil. Conspectus of the family I. The genera Lycopodium, Austrolycopodium, Diphasium, and Diphasiastrum.Crossref | GoogleScholarGoogle Scholar |

Orchard AE (1993a) Blechnaceae. In ‘Oceanic Islands 2, Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 569–570. (ABRS and CSIRO: Melbourne, Vic., Australia)

Orchard AE (1993b) Grammitidaceae In ‘Oceanic Islands 2, Flora of Australia, Vol. 50’. (Eds HJ Hewson, HS Thompson) pp. 549–551. (ABRS and CSIRO: Melbourne, Vic., Australia)

Parris BS (1975) A revision of the genus Grammitis Sw. (Filicales: Grammitidaceae) in Australia. Botanical Journal of the Linnean Society 70, 21–43.
A revision of the genus Grammitis Sw. (Filicales: Grammitidaceae) in Australia.Crossref | GoogleScholarGoogle Scholar |

Parris BS (1980) Adiantum hispidulum Swartz and A. pubescens Schkuhr (Adiantaceae: Filicales) in New Zealand. New Zealand Journal of Botany 18, 503–506.
Adiantum hispidulum Swartz and A. pubescens Schkuhr (Adiantaceae: Filicales) in New Zealand.Crossref | GoogleScholarGoogle Scholar |

Parris BS (1983) A taxonomic revision of the genus Grammitis Sw. (Filicales: Grammitidaceae in New Guinea. Blumea 29, 13–222.

Parris BS (1986) New combinations in Filices. Kew Bulletin 41, 69–70.
New combinations in Filices.Crossref | GoogleScholarGoogle Scholar |

Parris BS (1990) Grammitidaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 153–157. (Springer-Verlag: Berlin, Germany)

Parris BS (1995) New Combinations in Prosaptia (Grammitidaceae: Pteridophyta). Kew Bulletin 50, 165–167.
New Combinations in Prosaptia (Grammitidaceae: Pteridophyta).Crossref | GoogleScholarGoogle Scholar |

Parris BS (1998a) Doodia. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 385–393. (ABRS and CSIRO: Melbourne, Vic., Australia)

Parris BS (1998b) Grammitidaceae. In ‘Flora of Australia, Vol. 48’. (Ed. PM McCarthy) pp. 450–468. (ABRS and CSIRO: Melbourne, Vic., Australia)

Parris BS (2004) New combinations in Acrosorus, Lellingeria, Prosaptia and Themelium (Grammitidaceae: Filicales). Kew Bulletin 59, 223–225.
New combinations in Acrosorus, Lellingeria, Prosaptia and Themelium (Grammitidaceae: Filicales).Crossref | GoogleScholarGoogle Scholar |

Parris BS (2007) Five new genera and three new species of Grammitidaceae (Filicales) and the re-establishment of Oreogrammitis. Gardens’ Bulletin 58, 233–274.

Parris BS (2010a) Prosaptia. In ‘Flora of Peninsular Malaysia, ser. 1’. pp. 170–182. (Forest Research Institute Malaysia: Malaysia)

Parris BS (2010b) New combinations in Oreogrammitis, Prosaptia, Radiogrammitis, Themelium and Tomophyllum (Grammitidaceae: Polypodiopsida: Monilophyta) from Malesia and the Pacific islands. Kew Bulletin 65, 123–125.
New combinations in Oreogrammitis, Prosaptia, Radiogrammitis, Themelium and Tomophyllum (Grammitidaceae: Polypodiopsida: Monilophyta) from Malesia and the Pacific islands.Crossref | GoogleScholarGoogle Scholar |

Pereira JBS, Labiak PH, Stützel T, Schulz C (2017) Origin and biogeography of the ancient genus Isoetes with focus on the Neotropics. Botanical Journal of the Linnean Society 185, 253–271.
Origin and biogeography of the ancient genus Isoetes with focus on the Neotropics.Crossref | GoogleScholarGoogle Scholar |

Perrie LR, Brownsey PJ (2015) Taxonomic notes on the New Zealand flora: lectotype in the fern family Gleicheniaceae. New Zealand Journal of Botany 53, 183–191.
Taxonomic notes on the New Zealand flora: lectotype in the fern family Gleicheniaceae.Crossref | GoogleScholarGoogle Scholar |

Perrie LR, Parris BS (2012) Chloroplast DNA sequences indicate the grammitid ferns (Polypodiaceae) in New Zealand belong to a single clade, Notogrammitis gen. nov. New Zealand Journal of Botany 50, 457–472.
Chloroplast DNA sequences indicate the grammitid ferns (Polypodiaceae) in New Zealand belong to a single clade, Notogrammitis gen. nov.Crossref | GoogleScholarGoogle Scholar |

Perrie LR, Bayly MJ, Lehnebach CA, Brownsey PJ (2007) Molecular phylogenetic and molecular dating of the New Zealand Gleicheniaceae. Brittonia 59, 129–141.
Molecular phylogenetic and molecular dating of the New Zealand Gleicheniaceae.Crossref | GoogleScholarGoogle Scholar |

Perrie LR, Wilson RK, Shepherd LD, Ohlsen DJ, Batty EL, Brownsey PJ, Bayly MJ (2014) Molecular phylogenetics and generic taxonomy of Blechnaceae ferns. Taxon 63, 745–758.
Molecular phylogenetics and generic taxonomy of Blechnaceae ferns.Crossref | GoogleScholarGoogle Scholar |

Perrie LR, Shepherd LD, Brownsey PJ (2015) An expanded phylogeny of the Dennstaedtiaceae ferns: Oenotrichia falls within a nonmonophyletic Dennstaedtia, and Saccoloma is polyphyletic. Australian Systematic Botany 28, 256–264.
An expanded phylogeny of the Dennstaedtiaceae ferns: Oenotrichia falls within a nonmonophyletic Dennstaedtia, and Saccoloma is polyphyletic.Crossref | GoogleScholarGoogle Scholar |

Pichi-Sermolli REG (1951) Notes on some Australian ferns. Webbia 8, 201–223.
Notes on some Australian ferns.Crossref | GoogleScholarGoogle Scholar |

Pichi-Sermolli REG (1954) Adumbratio Florae Aethiopicae: 3. Ophioglossaceae, Osmundaceae, Schizaeaceae. Webbia 9, 623–660.
Adumbratio Florae Aethiopicae: 3. Ophioglossaceae, Osmundaceae, Schizaeaceae.Crossref | GoogleScholarGoogle Scholar |

Pichi-Sermolli REG (1957) Adumbratio Florae Aethiopicae: 5. Parkeriaceae, Adiantaceae, Vittariaceae. Webbia 12, 645–703.
Adumbratio Florae Aethiopicae: 5. Parkeriaceae, Adiantaceae, Vittariaceae.Crossref | GoogleScholarGoogle Scholar |

Pichi-Sermolli REG (1983) A contribution to the knowledge of the Pteridophyta of Rwanda, Burundi, and Kivu (Zaire) I. Bulletin du Jardin Botanique National de Belgique 53, 111–284.

Pichi-Sermolli REG (1991) The pteridological collections of the G.R.S.T.S. Expedition to the coastal region of north-eastern Queensland. Webbia 45, 317–379.
The pteridological collections of the G.R.S.T.S. Expedition to the coastal region of north-eastern Queensland.Crossref | GoogleScholarGoogle Scholar |

PPG I (2016) A community-derived classification for extant lycophytes and ferns Journal of Systematics and Evolution 54, 563–603.
A community-derived classification for extant lycophytes and fernsCrossref | GoogleScholarGoogle Scholar |

Prado J, Del Nero R, Salatino A, Salatino ML (2007) Phylogenetic relationships among Pteridaceae, including Brazilian species, inferred from rbcL sequences. Taxon 56, 355–368.
Phylogenetic relationships among Pteridaceae, including Brazilian species, inferred from rbcL sequences.Crossref | GoogleScholarGoogle Scholar |

Prado J, Hirai RY, Moran RC (2015) Proposals concerning inadvertent lectotypifications (and neotypifications). Taxon 64, 651
Proposals concerning inadvertent lectotypifications (and neotypifications).Crossref | GoogleScholarGoogle Scholar |

Proctor GR (1977) Pteridophyta. In ‘Flora of Lesser Antilles, Leeward and Windward Islands. (Ed. RA Howard) Vol. 2, pp. 1–414. (Harvard University: Boston, MA, USA)

Proctor GR (1985) ‘Ferns of Jamaica: a Guide to the Pteridophytes.’ (British Museum of Natural History: London, UK)

Pryer KM (1999) Phylogeny of marsileaceous ferns and relationships of the fossil Hydropteris pinnata reconsidered. International Journal of Plant Sciences 160, 931–954.
Phylogeny of marsileaceous ferns and relationships of the fossil Hydropteris pinnata reconsidered.Crossref | GoogleScholarGoogle Scholar | 10506474PubMed |

Pryer KM, Schneider H, Smith AR, Cranfill R, Wolf PG, Hunt JS (2001) Horsetails and ferns are a monophyletic group and the closest living relatives to seed plants. Nature 409, 618–622.
Horsetails and ferns are a monophyletic group and the closest living relatives to seed plants.Crossref | GoogleScholarGoogle Scholar | 11214320PubMed |

Pryer KM, Schuettpelz E, Wolf PG, Schneider H, Smith AR, Cranfill R (2004) Phylogeny and evolution of ferns (monilophytes) with a focus on the early leptosporangiate divergences. American Journal of Botany 91, 1582–1598.
Phylogeny and evolution of ferns (monilophytes) with a focus on the early leptosporangiate divergences.Crossref | GoogleScholarGoogle Scholar | 21652310PubMed |

Pryer KM, Huiet L, Li F-W, Rothfels CJ, Schuettpelz E (2016) Maidenhair ferns, Adiantum, are indeed monophyletic and sister to shoestring ferns, vittarioids (Pteridaceae). Systematic Botany 41, 17–23.
Maidenhair ferns, Adiantum, are indeed monophyletic and sister to shoestring ferns, vittarioids (Pteridaceae).Crossref | GoogleScholarGoogle Scholar |

Qiu YL, Li L, Wang B, Chen Z, Dombrovska O, Lee J, Kent L, Li R, Jobson RW, Hendry TA, Taylor DW (2007) A nonflowering land plant phylogeny inferred from nucleotide sequences of seven chloroplast, mitochondrial, and nuclear genes. International Journal of Plant Sciences 168, 691–708.
A nonflowering land plant phylogeny inferred from nucleotide sequences of seven chloroplast, mitochondrial, and nuclear genes.Crossref | GoogleScholarGoogle Scholar |

Quirk H, Chambers TC, Regan M (1983) The fern genus Cheilanthes in Australia. Australian Journal of Botany 31, 501–553.
The fern genus Cheilanthes in Australia.Crossref | GoogleScholarGoogle Scholar |

Rai H, Graham SW (2010) Utility of a large, multigene plastid data set in inferring higher-order relationships in ferns and relatives (monilophytes). American Journal of Botany 97, 1444–1456.
Utility of a large, multigene plastid data set in inferring higher-order relationships in ferns and relatives (monilophytes).Crossref | GoogleScholarGoogle Scholar | 21616899PubMed |

Rakotondrainibe F (2010) Le genre Rumohra Raddi (Pteridophyta, Dryopteridaceae) à Madagascar: une espèce et deux combinaisons nouvelles. Adansonia 32, 217–228.
Le genre Rumohra Raddi (Pteridophyta, Dryopteridaceae) à Madagascar: une espèce et deux combinaisons nouvelles.Crossref | GoogleScholarGoogle Scholar |

Ranker TA, Smith AR, Parris BS, Geiger JM, Haufler CH, Straub SC, Schneider H (2004) Phylogeny and evolution of grammitid ferns (Grammitidaceae): a case of rampant morphological homoplasy. Taxon 53, 415–428.
Phylogeny and evolution of grammitid ferns (Grammitidaceae): a case of rampant morphological homoplasy.Crossref | GoogleScholarGoogle Scholar |

Reid JD, Plunkett GM, Peters GA (2006) Phylogenetic relationships in the heterosporous fern genus Azolla (Azollaceae) based on DNA sequence data from three noncoding regions. International Journal of Plant Sciences 167, 529–538.
Phylogenetic relationships in the heterosporous fern genus Azolla (Azollaceae) based on DNA sequence data from three noncoding regions.Crossref | GoogleScholarGoogle Scholar |

Renner MAM, Field AR (2019) The filmy fern Hymenophyllum reinwardtii (Hymenophyllaceae) newly recorded for Australia. Telopea 22, 185–191.
The filmy fern Hymenophyllum reinwardtii (Hymenophyllaceae) newly recorded for Australia.Crossref | GoogleScholarGoogle Scholar |

Rödl-Linder G (1990) A monograph of the fern genus Goniophlebium (Polypodiaceae). Blumea 34, 277–423.

Rodway L (1903) ‘Tasmanian Flora.’ (Vail Government Printer: Hobart, Tas., Australia)

Roos MC (1986) Phylogenetic systematics of the Drynarioideae (Polypodiaceae). Verhandelingen der Koninklijke Nederlandsche (Nederlandse) Akademie van Wetenschappen – Afdeeling natuurkunde, sectie 2 85, 1–317.

Rothfels CJ, Schuettpelz E (2014) Accelerated rate of molecular evolution for vittarioid ferns is strong and not driven by selection. Systematic Biology 63, 31–54.
Accelerated rate of molecular evolution for vittarioid ferns is strong and not driven by selection.Crossref | GoogleScholarGoogle Scholar | 23963353PubMed |

Rothfels CJ, Larsson A, Kuo L-Y, Korall P, Chiou W-L, Pryer KM (2012a) Overcoming deep roots, fast rates, and short internodes to resolve the ancient rapid radiation of eupolypod II ferns. Systematic Biology 61, 490–509.
Overcoming deep roots, fast rates, and short internodes to resolve the ancient rapid radiation of eupolypod II ferns.Crossref | GoogleScholarGoogle Scholar | 22223449PubMed |

Rothfels CJ, Sundue MA, Kuo L-Y, Larsson A, Kato M, Schuettpelz E, Pryer KM (2012b) A revised family-level classification for eupolypod II ferns (Polypodiidae: Polypodiales). Taxon 61, 515–533.
A revised family-level classification for eupolypod II ferns (Polypodiidae: Polypodiales).Crossref | GoogleScholarGoogle Scholar |

Rothfels CJ, Windham MD, Pryer KM (2013) A plastid phylogeny of the cosmopolitan fern family Cystopteridaceae (Polypodiopsida). Systematic Botany 38, 295–306.
A plastid phylogeny of the cosmopolitan fern family Cystopteridaceae (Polypodiopsida).Crossref | GoogleScholarGoogle Scholar |

Rothfels CJ, Li F-W, Sigel EM, Huiet L, Larsson A, Burge DO, Ruhsam M, Deyholos M, Soltis DE, Stewart CN, Shaw SW, Pokorny L, Chen T, dePamphilis C, DeGironimo L, Chen L, Wei X, Sun X, Korall P, Stevenson DW, Graham SW, Wong GK-S, Pryer KM (2015) The evolutionary history of ferns inferred from 25 low-copy nuclear genes. American Journal of Botany 102, 1089–1107.
The evolutionary history of ferns inferred from 25 low-copy nuclear genes.Crossref | GoogleScholarGoogle Scholar | 26199366PubMed |

Rouhan G, Dubuisson J-Y, Rakotondrainibe F, Motley TJ, Mickel JT, Labat J-N, Moran RC (2004) Molecular phylogeny of the fern genus Elaphoglossum (Elaphoglossaceae) based on chloroplast non-coding DNA sequences: contributions of species from the Indian Ocean area. Molecular Phylogenetics and Evolution 33, 745–763.
Molecular phylogeny of the fern genus Elaphoglossum (Elaphoglossaceae) based on chloroplast non-coding DNA sequences: contributions of species from the Indian Ocean area.Crossref | GoogleScholarGoogle Scholar | 15522801PubMed |

Rouhan G, Hanks JG, McClelland D, Moran RC (2007) Preliminary phylogenetic analysis of the fern genus Lomariopsis (Lomariopsidaceae). Brittonia 59, 115–128.
Preliminary phylogenetic analysis of the fern genus Lomariopsis (Lomariopsidaceae).Crossref | GoogleScholarGoogle Scholar |

Roux JP (2009) Synopsis of the Lycopodiophyta and Pteridophyta of Africa, Madagascar and neighbouring islands. Strelitzia 23, 1–296.

Ruggiero MA, Gordon DP, Orrell TM, Bailly N, Bourgoin T, Brusca RC, Cavalier-Smith T, Guiry MD, Kirk PM (2015) A higher level classification of all living organisms. PLoS One 10, e0119248
A higher level classification of all living organisms.Crossref | GoogleScholarGoogle Scholar | 26068874PubMed | [Published errartum appears in PLoS ONE 2015, 10(6), e0130114]

Ruhfel BR, Gitzendanner MA, Soltis PS, Soltis DE, Burleigh JG (2014) From algae to angiosperms: inferring the phylogeny of green plants (Viridiplantae) from 360 plastid genomes. BMC Evolutionary Biology 14, 23
From algae to angiosperms: inferring the phylogeny of green plants (Viridiplantae) from 360 plastid genomes.Crossref | GoogleScholarGoogle Scholar | 24533922PubMed |

Rydin C, Wikström N (2002) Phylogeny of Isoëtes (Lycopsida): resolving basal relationships using rbcL sequences. Taxon 51, 83–89.
Phylogeny of Isoëtes (Lycopsida): resolving basal relationships using rbcL sequences.Crossref | GoogleScholarGoogle Scholar |

Schaefer H, Carine MA, Rumsey FJ (2011) From European priority species to invasive weed: Marsilea azorica (Marsileaceae) is a misidentified alien. Systematic Botany 36, 845–853.
From European priority species to invasive weed: Marsilea azorica (Marsileaceae) is a misidentified alien.Crossref | GoogleScholarGoogle Scholar |

Schelpe EACLE (1963) The identity of some fern types in the Thunberg Herbarium. Journal of South African Botany 29, 91

Schelpe EACLE (1969) Reviews of tropical African Pteridophyta. Contributions from the Bolus Herbarium 1, 1–132.

Schelpe EACLE, Anthony NC (1986) ‘Flora of Southern Africa, Pteridophyta.’ (Botanical Research Institute: Cape Town, South Africa)

Schneider H, Russell SJ, Cox CJ, Bakker F, Henderson S, Gibby M, Vogel JC (2004a) Chloroplast phylogeny of asplenioid ferns based on rbcL and trnL and trnL-F spacer sequences (Polypodiidae, Aspleniaceae) and its implications for the biogeography. Systematic Botany 29, 260–274.
Chloroplast phylogeny of asplenioid ferns based on rbcL and trnL and trnL-F spacer sequences (Polypodiidae, Aspleniaceae) and its implications for the biogeography.Crossref | GoogleScholarGoogle Scholar |

Schneider H, Schuettpelz E, Pryer KM, Cranfill R, Magallon S, Lupia R (2004b) Ferns diversified in the shadow of angiosperms. Nature 428, 553–557.
Ferns diversified in the shadow of angiosperms.Crossref | GoogleScholarGoogle Scholar | 15058303PubMed |

Schneider H, Smith AR, Cranfill R, Hildebrand T, Haufler CH, Ranker T (2004c) Unraveling the phylogeny of polygrammoid ferns (Polypodiaceae and Grammitidaceae): exploring aspects of the diversification of epiphytic plants. Molecular Phylogenetics and Evolution 31, 1041–1063.
Unraveling the phylogeny of polygrammoid ferns (Polypodiaceae and Grammitidaceae): exploring aspects of the diversification of epiphytic plants.Crossref | GoogleScholarGoogle Scholar | 15120400PubMed |

Schneider H, Kreier HP, Hovenkamp P, Janssen T (2008) Phylogenetic relationships of the fern genus Christiopteris shed new light onto the classification and biogeography of drynarioid ferns. Botanical Journal of the Linnean Society 157, 645–656.
Phylogenetic relationships of the fern genus Christiopteris shed new light onto the classification and biogeography of drynarioid ferns.Crossref | GoogleScholarGoogle Scholar |

Schneider H, Smith AR, Pryer KM (2009) Is morphology really at odds with molecules in estimating fern phylogeny? Systematic Botany 34, 455–475.
Is morphology really at odds with molecules in estimating fern phylogeny?Crossref | GoogleScholarGoogle Scholar |

Schneider H, He L, Hennequin S, Zhang X-C (2013) Towards a natural classification of Pteridaceae: inferring the relationships of enigmatic pteridoid fern species occurring in the Sino-Himalaya and Afro-Madagascar. Phytotaxa 77, 49–60.
Towards a natural classification of Pteridaceae: inferring the relationships of enigmatic pteridoid fern species occurring in the Sino-Himalaya and Afro-Madagascar.Crossref | GoogleScholarGoogle Scholar |

Schneller JJ (1990a) Azollaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 57–60. (Springer-Verlag: Berlin, Germany)

Schneller JJ (1990b) Salviniaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 256–258. (Springer-Verlag: Berlin, Germany)

Schuettpelz E, Pryer KM (2007) Fern phylogeny inferred from 400 leptosporangiate species and three plastid genes. Taxon 56, 1037–1050.
Fern phylogeny inferred from 400 leptosporangiate species and three plastid genes.Crossref | GoogleScholarGoogle Scholar |

Schuettpelz E, Schneider H, Huiet L, Windham MD, Pryer KM (2007) A molecular phylogeny of the fern family Pteridaceae: assessing overall relationships and the affinities of previously unsampled genera. Molecular Phylogenetics and Evolution 44, 1172–1185.
A molecular phylogeny of the fern family Pteridaceae: assessing overall relationships and the affinities of previously unsampled genera.Crossref | GoogleScholarGoogle Scholar | 17570688PubMed |

Schuettpelz E, Chen CW, Kessler M, Pinson JB, Johnson G, Davila A, Cochran AT, Huiet L, Pryer KM (2016) A revised generic classification of vittarioid ferns (Pteridaceae) based on molecular, micromorphological, and geographic data. Taxon 65, 708–722.
A revised generic classification of vittarioid ferns (Pteridaceae) based on molecular, micromorphological, and geographic data.Crossref | GoogleScholarGoogle Scholar |

Schuettpelz E, Rouhan G, Pryer KM, Rothfels CJ, Prado J, Sundu MA, Windham MD, Moran RC, Smith AR (2018) Are there too many fern genera? Taxon 67, 473–480.
Are there too many fern genera?Crossref | GoogleScholarGoogle Scholar |

Schwartsburd PB, Prado J (2011) Typification of Polypodium rugosulum Labill. (= Hypolepis rugosula, Dennstaedtiaceae), a new subspecies, and a new status for one variety. Webbia 66, 155–163.
Typification of Polypodium rugosulum Labill. (= Hypolepis rugosula, Dennstaedtiaceae), a new subspecies, and a new status for one variety.Crossref | GoogleScholarGoogle Scholar |

Schwartsburd PB, Prado J (2015) A taxonomic revision of the South American species of Hypolepis (Dennstaedtiaceae). Part I. American Fern Journal 105, 263–313.
A taxonomic revision of the South American species of Hypolepis (Dennstaedtiaceae). Part I.Crossref | GoogleScholarGoogle Scholar |

Sessa EB, Zimmer EA, Givnish TJ (2012) Phylogeny, divergence times, and historical biogeography of New World Dryopteris (Dryopteridaceae). American Journal of Botany 99, 730–750.
Phylogeny, divergence times, and historical biogeography of New World Dryopteris (Dryopteridaceae).Crossref | GoogleScholarGoogle Scholar | 22434775PubMed |

Shinohara W, Nakato N, Yatabe-Kakugawa Y, Oka T, Kim JK, Murakami N, Noda H, Sahashi N (2013) The use of matK in Ophioglossaceae phylogeny and the determination of Mankyua chromosome number shed light on chromosome number evolution in Ophioglossaceae. Systematic Botany 38, 564–570.
The use of matK in Ophioglossaceae phylogeny and the determination of Mankyua chromosome number shed light on chromosome number evolution in Ophioglossaceae.Crossref | GoogleScholarGoogle Scholar |

Silcock JL, Field AR, Walsh NG, Fensham RJ (2019) To name those lost: assessing extinction likelihood in the Australian vascular flora. Oryx
To name those lost: assessing extinction likelihood in the Australian vascular flora.Crossref | GoogleScholarGoogle Scholar | [Published online early 29 August 2019]

Singh S, Panigrahi G (1984) Systematics of genus Lygodium Sw. (Lygodiaceae) in India. Proceedings of the Indiana Academy of Sciences – Plant Science 93, 119–133.

Sledge WA (1960) The Polypodiaceae and Grammitidaceae of Ceylon. Bulletin of the British Museum (Natural History), Botany 2, 131–158.

Sledge WA (1968) The Hymenophyllaceae of Ceylon. Journal of the Linnean Society, Botany 60, 289–308.
The Hymenophyllaceae of Ceylon.Crossref | GoogleScholarGoogle Scholar |

Sledge WA (1982) An annotated checklist of the Pteridophytes of Ceylon. Journal of the Linnaean Society, Botany 84, 1–30.
An annotated checklist of the Pteridophytes of Ceylon.Crossref | GoogleScholarGoogle Scholar |

Smith J (1866) ‘Ferns, British and Foreign.’ (D.Bogue: London, UK)

Smith AR, Cranfill RB (2002) Intrafamilial relationships of the thelypteroid ferns (Thelypteridaceae). American Fern Journal 92, 131–149.
Intrafamilial relationships of the thelypteroid ferns (Thelypteridaceae).Crossref | GoogleScholarGoogle Scholar |

Smith AR, Pryer KM, Schuettpelz E, Korall P, Schneider H, Wolf PG (2006) A classification for extant ferns. Taxon 55, 705–731.
A classification for extant ferns.Crossref | GoogleScholarGoogle Scholar |

Sundue M, Testo W (2016) Parapolystichum novoguineense (comb. nov.; Dryopteridaceae) from New Guinea. Phytotaxa 243, 193–196.
Parapolystichum novoguineense (comb. nov.; Dryopteridaceae) from New Guinea.Crossref | GoogleScholarGoogle Scholar |

Sundue MA, Hirai RY, Prado J (2013) Rumohra glandulosissima (Dryopteridaceae) a new species from the Atlantic Rainforest, and revision of the species occurring in Brazil. Systematic Botany 38, 915–924.
Rumohra glandulosissima (Dryopteridaceae) a new species from the Atlantic Rainforest, and revision of the species occurring in Brazil.Crossref | GoogleScholarGoogle Scholar |

Sundue MA, Parris BS, Ranker TA, Smith AR, Fujimoto EL, Zamora-Crosby D, Morden CW, Chiou W-L, Chen C-W, Rouhan G, Hirai RY, Prado J (2014) Global phylogeny and biogeography of grammitid ferns (Polypodiaceae). Molecular Phylogenetics and Evolution 81, 195–206.
Global phylogeny and biogeography of grammitid ferns (Polypodiaceae).Crossref | GoogleScholarGoogle Scholar | 25173566PubMed |

Tardieu-Blot ML (1964) Ptéridophytae. In ‘Flore du Gabon 8’. (Ed. A Aubréville) pp. 1–225. (Muséum national d’Histoire naturelle: Paris, France)

Tardieu-Blot ML, Ching RC (1936) Révision des espèces confondues avec ‘Asplenium laserpitifolium Lam.’, avec description d’espèces nouvelles asiatiques de ce groupe. Notulae Systematicae 5, 134–145.

Testo W, Sundue M (2014) Primary Hemiepiphytism in Colysis ampla (Polypodiaceae) provides new insight into the evolution of growth habit in fern. International Journal of Plant Sciences 175, 526–536.
Primary Hemiepiphytism in Colysis ampla (Polypodiaceae) provides new insight into the evolution of growth habit in fern.Crossref | GoogleScholarGoogle Scholar |

Testo W, Field AR, Barrington D (2018a) Overcoming among-lineage rate heterogeneity to infer the divergence times and biogeography of the clubmoss family Lycopodiaceae. Journal of Biogeography 45, 1929–1941.
Overcoming among-lineage rate heterogeneity to infer the divergence times and biogeography of the clubmoss family Lycopodiaceae.Crossref | GoogleScholarGoogle Scholar |

Testo W, Øllgaard B, Field AR, Almeida TE, Kessler M, Barrington D (2018b) Phylogenetic systematics, morphological evolution, and natural groups in Neotropical Phlegmariurus (Lycopodiaceae). Molecular Phylogenetics and Evolution 125, 1–13.
Phylogenetic systematics, morphological evolution, and natural groups in Neotropical Phlegmariurus (Lycopodiaceae).Crossref | GoogleScholarGoogle Scholar | 29559245PubMed |

Testo WL, Field AR, Sessa EB, Sundue M (2019) Phylogenetic and morphological analyses support the resurrection of Dendroconche and the recognition of two new genera in Polypodiaceae sybfamily Microsoroideae. Systematic Botany 44, 737–752.
Phylogenetic and morphological analyses support the resurrection of Dendroconche and the recognition of two new genera in Polypodiaceae sybfamily Microsoroideae.Crossref | GoogleScholarGoogle Scholar |

Thomson JA (2004) Towards a taxonomic revision of Pteridium (Dennstaedtiaceae). Telopea 10, 793–803.

Thomson JA (2012) Taxonomic status of diploid southern hemisphere brackens (Pteridium: Dennstaedtiaceae). Telopea 14, 43–48.
Taxonomic status of diploid southern hemisphere brackens (Pteridium: Dennstaedtiaceae).Crossref | GoogleScholarGoogle Scholar |

Tindale MD (1951) Notes on three Australasian tree ferns American Fern Journal 41, 97–106.
Notes on three Australasian tree fernsCrossref | GoogleScholarGoogle Scholar |

Tindale MD (1953) Studies in Australian pteridophytes (Marsilea). Contributions of the New South Wales National Herbarium 2, 5–12.

Tindale MD (1956) The Cyatheaceae of Australia. Contributions of the New South Wales National Herbarium 2, 327–361.

Tindale MD (1957) A preliminary revision of the genus Lastreopsis. Ching. Victorian Naturalist 73, 180–185.

Tindale MD (1960) New combinations in Acacia and Blechnum. Proceedings of the Linnean Society of New South Wales 85, 252

Tindale MD (1961a) Pteridophytes of south eastern Australia. Flora of New South Wales – Flora Series 208–211, 1–78.

Tindale MD (1961b) Studies in Australian pteridophytes No. 3. Contributions of the New South Wales National Herbarium 3, 88–92.

Tindale MD (1963) Hymenophyllaceae. Contributions of the New South Wales National Herbarium – Flora Series 201, 1–49.

Tindale MD (1965) A monograph of the genus Lastreopsis Ching. Contributions of the New South Wales National Herbarium 3, 249–339.

Tryon RM (1941) A revision of the genus Pteridium (continued). Rhodora 43, 37–67.

Tryon RM (1942) A revision of the genus Doryopteris. Contributions from the Gray Herbarium of Harvard University 143, 1–80.

Tryon RM (1962) Taxonomic fern notes. II. Pityrogramma (including Trismeria) and Anogramma. Contributions from the Gray Herbarium of Harvard University 189, 57–76.

Tryon RM (1964) The ferns of Peru. Contributions from the Gray Herbarium of Harvard University 194, 1–253.

Tryon RM (1970) The classification of the Cyatheaceae. Contributions from the Gray Herbarium of Harvard University 200, 3–53.

Tryon RM, Stolze RG (1989) Pteridophyta of Peru, Part. II. 13: Pteridaceae–Dennstaedtiaceae. 17. Fieldiana – Botany 22, 1–128.

Tryon RM, Tryon AF, Kramer KU (1990). Pteridaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 230–256. (Springer-Verlag: Berlin, Germany)

Tsutsumi C, Kato M (2006) Evolution of epiphytes in Davalliaceae and related ferns. Botanical Journal of the Linnean Society 151, 495–510.
Evolution of epiphytes in Davalliaceae and related ferns.Crossref | GoogleScholarGoogle Scholar |

Tsutsumi C, Chen C-W, Larsson A, Hirayama Y, Kato M (2016) Phylogeny and classification of Davalliaceae based on chloroplast and nuclear markers. Taxon 65, 1236–1248.
Phylogeny and classification of Davalliaceae based on chloroplast and nuclear markers.Crossref | GoogleScholarGoogle Scholar |

Turland NJ, Wiersema JH, Barrie FR, Greuter W, Hawksworth DL, Herendeen PS, Knapp S, Kusber W-H, Li D-Z, Marhold K, May TW, McNeill J, Monro AM, Prado J, Price MJ, Smith GF (Eds) (2018) ‘International Code of Nomenclature for Algae, Fungi, and Plants (Shenzhen Code)’, adopted by the Nineteenth International Botanical Congress, July 2017, Shenzhen, PR China. Regnum Vegetabile 159. (Koeltz Botanical Books: Glashütten, Germany)

Underwood LM (1906) The genus Stenochlaena. Bulletin of the Torrey Botanical Club 33, 35–50.
The genus Stenochlaena.Crossref | GoogleScholarGoogle Scholar |

Valdespino IA (2015) Novelties in Selaginella (Selaginellaceae– Lycopodiophyta), with emphasis on Brazilian species. PhytoKeys 57, 93–133.
Novelties in Selaginella (Selaginellaceae– Lycopodiophyta), with emphasis on Brazilian species.Crossref | GoogleScholarGoogle Scholar |

van Ooststroom SJ (1937) Hermann’s collection of Ceylon plants in the Rijksherbarium (National Herbarium) at Leyden. Blumea 1, 193–209.

Veldkamp JF, Wardani W (2015) Asplenium tenerum var. pallidum is the correct name for Asplenium thunbergii var. belangeri (Aspleniaceae). Reinwardtia 14, 303–306.
Asplenium tenerum var. pallidum is the correct name for Asplenium thunbergii var. belangeri (Aspleniaceae).Crossref | GoogleScholarGoogle Scholar |

Verdcourt B (1996) Proposals to conserve the name Polypodium cordifolium with a conserved type, and to reject P. auriculatum in order to stabilize nomenclature in Nephrolepis (Oleandraceae or Nephrolepidaceae). Taxon 45, 539–541.
Proposals to conserve the name Polypodium cordifolium with a conserved type, and to reject P. auriculatum in order to stabilize nomenclature in Nephrolepis (Oleandraceae or Nephrolepidaceae).Crossref | GoogleScholarGoogle Scholar |

Wagner WH Jr (1990) Ophioglossaceae. In ‘The Families and Genera of Vascular Plants. I. Pteridophytes and Gymnosperms’. (Eds KU Kramer, PS Green) pp. 193–197. (Springer-Verlag: Berlin, Germany)

Wagner WH, Beitel JM (1992) Generic classification of modern North American Lycopodiaceae. Annals of the Missouri Botanical Garden 79, 676–686.
Generic classification of modern North American Lycopodiaceae.Crossref | GoogleScholarGoogle Scholar |

Wakefield NA (1953) Notes on Australian Pteridophyta. Victorian Naturalist 70, 9

Wang L, Wu ZQ, Xiang QP, Heinrichs J, Schneider H, Zhang XC (2010) A molecular phylogeny and a revised classification of tribe Lepisoreae (Polypodiaceae) based on an analysis of four plastid DNA regions. Botanical Journal of the Linnean Society 162, 28–38.
A molecular phylogeny and a revised classification of tribe Lepisoreae (Polypodiaceae) based on an analysis of four plastid DNA regions.Crossref | GoogleScholarGoogle Scholar |

Warburg O (1900) Lycopodiaceae, in Beiträge zur Kenntniss der Vegetation des Süd-und Ostasiatischen Monsungebietes Monsunia 1, 1–207.

Wei R, Schneider H, Zhang X-C (2013) Toward a new circumscription of the twinsorus-fern genus Diplazium (Athyriaceae): a molecular phylogeny with morphological implications and infrageneric taxonomy. Taxon 62, 441–457.
Toward a new circumscription of the twinsorus-fern genus Diplazium (Athyriaceae): a molecular phylogeny with morphological implications and infrageneric taxonomy.Crossref | GoogleScholarGoogle Scholar |

Wei R, Xiang Q-P, Schneider H, Sundue MA, Kessler M, Kamau PW, Hidayat A, Zhang X-C (2015) Eurasian origin, boreotropical migration and transoceanic dispersal in the pantropical fern genus Diplazium (Athyriaceae). Journal of Biogeography 42, 1809–1819.
Eurasian origin, boreotropical migration and transoceanic dispersal in the pantropical fern genus Diplazium (Athyriaceae).Crossref | GoogleScholarGoogle Scholar |

Weststrand S, Korall P (2016a) Phylogeny of Selaginellaceae: there is value in morphology after all! American Journal of Botany 103, 2136–2159.
Phylogeny of Selaginellaceae: there is value in morphology after all!Crossref | GoogleScholarGoogle Scholar | 27999082PubMed |

Weststrand S, Korall P (2016b) A subgeneric classification of Selaginella (Selaginellaceae). American Journal of Botany 103, 2160–2169.
A subgeneric classification of Selaginella (Selaginellaceae).Crossref | GoogleScholarGoogle Scholar | 27999080PubMed |

White RA, Turner MD (1988) Calochlaena, a new genus of dicksonioid ferns. American Fern Journal 78, 86–95.
Calochlaena, a new genus of dicksonioid ferns.Crossref | GoogleScholarGoogle Scholar |

Whitten WM, Jacono CC, Nagalingum NS (2012) An expanded plastid phylogeny of Marsilea with emphasis on North American species. American Fern Journal 102, 114–135.
An expanded plastid phylogeny of Marsilea with emphasis on North American species.Crossref | GoogleScholarGoogle Scholar |

Wickett NJ, Mirarab S, Nguyen N, Warnow T, Carpenter E, Matasci N, Ayyampalayam S, Barker MS, Burleigh JG, Gitzendanner MA, Ruhfel BR (2014) Phylotranscriptomic analysis of the origin and early diversification of land plants. Proceedings of the National Academy of Sciences of the United States of America 111, E4859–E4868.
Phylotranscriptomic analysis of the origin and early diversification of land plants.Crossref | GoogleScholarGoogle Scholar | 25355905PubMed |

Wikström N, Kenrick P (1997) Phylogeny of Lycopodiaceae (Lycopsida) and the relationships of Phylloglossum drummondii Kunze based on rbcL sequences. International Journal of Plant Sciences 158, 862–871.
Phylogeny of Lycopodiaceae (Lycopsida) and the relationships of Phylloglossum drummondii Kunze based on rbcL sequences.Crossref | GoogleScholarGoogle Scholar |

Wikström N, Kenrick P (2000) Relationships of Lycopodium and Lycopodiella based on combined plastid rbcL gene and trnL intron sequence data. Systematic Botany 25, 495–510.
Relationships of Lycopodium and Lycopodiella based on combined plastid rbcL gene and trnL intron sequence data.Crossref | GoogleScholarGoogle Scholar |

Wikström N, Kenrick P (2001) Evolution of Lycopodiaceae (Lycopsida): estimating divergence times from rbcL gene sequences by use of nonparametric rate smoothing. Molecular Phylogenetics and Evolution 19, 177–186.
Evolution of Lycopodiaceae (Lycopsida): estimating divergence times from rbcL gene sequences by use of nonparametric rate smoothing.Crossref | GoogleScholarGoogle Scholar | 11341801PubMed |

Wikström N, Kenrick P, Vogel JC (2002) Schizaeaceae: a phylogenetic approach. Review of Palaeobotany and Palynology 119, 35–50.
Schizaeaceae: a phylogenetic approach.Crossref | GoogleScholarGoogle Scholar |

Wilson K (2016) Report of the General Committee: 15. Taxon 65, 1150–1151.
Report of the General Committee: 15.Crossref | GoogleScholarGoogle Scholar |

Wolf PG (1995) Phylogenetic analyses of rbcL and nuclear ribosomal RNA gene sequences in Dennstaedtiaceae. American Fern Journal 85, 306–327.
Phylogenetic analyses of rbcL and nuclear ribosomal RNA gene sequences in Dennstaedtiaceae.Crossref | GoogleScholarGoogle Scholar |

Wolf PG, Rowe CA, Der JP, Schilling MP, Visger CJ, Thomson JA (2015) Origins and diversity of a cosmopolitan fern genus on an island archipelago. AoB Plants 7, plv118
Origins and diversity of a cosmopolitan fern genus on an island archipelago.Crossref | GoogleScholarGoogle Scholar | 26487677PubMed |

Xu K, Zhang L, Rothfels CJ, Smith AR, Viane R, Lorence D, Wood KR, Chen C, Knapp R, Zhou L, Lu NT, Zhou X, Wei H, Fan Q, Chen S, Cicuzza D, Gao X, Liao W, Zhang L (2019) A global plastid phylogeny of the fern genus Asplenium (Aspleniaceae). Cladistics
A global plastid phylogeny of the fern genus Asplenium (Aspleniaceae).Crossref | GoogleScholarGoogle Scholar |

Yatabe Y, Nishida H, Murakami N (1999) Phylogeny of Osmundaceae inferred from rbcL nucleotide sequences and comparison to the fossil evidences. Journal of Plant Research 112, 397–404.
Phylogeny of Osmundaceae inferred from rbcL nucleotide sequences and comparison to the fossil evidences.Crossref | GoogleScholarGoogle Scholar |

Yesilyurt JC, Schneider H (2010) The new fern genus Calciphilopteris (Pteridaceae). Phytotaxa 7, 52–59.

Yesilyurt JC, Barbará T, Schneider H, Russell S, Culham A, Gibby M (2015) Identifying the generic limits of the cheilanthoid genus Doryopteris (Pteridaceae). Phytotaxa 221, 101–122.
Identifying the generic limits of the cheilanthoid genus Doryopteris (Pteridaceae).Crossref | GoogleScholarGoogle Scholar |

Zhang L-B, Zhang L, Dong S-Y, Sessa EB, Gao X-F, Ebihara A (2012) Molecular circumscription and major evolutionary lineages of the fern genus Dryopteris (Dryopteridaceae). BMC Evolutionary Biology 12, 180
Molecular circumscription and major evolutionary lineages of the fern genus Dryopteris (Dryopteridaceae).Crossref | GoogleScholarGoogle Scholar | 22971160PubMed |

Zhang L, Rothfels CJ, Ebihara A, Schuettpelz E, Le Pechon T, Kamau P, He H, Zhou X-M, Prado J, Field AR, Yatskievych G, Gao X-F, Zhang LB (2015) A global plastid phylogeny of the brake fern genus Pteris (Pteridaceae) and related genera in the Pteridoideae. Cladistics 31, 406–423.
A global plastid phylogeny of the brake fern genus Pteris (Pteridaceae) and related genera in the Pteridoideae.Crossref | GoogleScholarGoogle Scholar |

Zhang L, Schuettpelz E, Rothfels CJ, Zhou X-M, Gao X-F, Zhang L-B (2016) Circumscription and phylogeny of the fern family Tectariaceae based on plastid and nuclear markers, with the description of two new genera: Draconopteris and Malaifilix (Tectariaceae). Taxon 65, 723–738.
Circumscription and phylogeny of the fern family Tectariaceae based on plastid and nuclear markers, with the description of two new genera: Draconopteris and Malaifilix (Tectariaceae).Crossref | GoogleScholarGoogle Scholar |

Zhang L, Zhou X-M, Chen D-K, Schuettpelz E, Knapp R, Lu NT, Thien Tam Luong TT, Dang MT, Duan Y-F, He H, Gao X-F, Zhang L-B (2017) A global phylogeny of the fern genus Tectaria (Tectariaceae: Polypodiales) based on plastid and nuclear markers identifies major evolutionary lineages and suggests repeated evolution of free venation from anastomosing venation. Molecular Phylogenetics and Evolution 114, 295–333.
A global phylogeny of the fern genus Tectaria (Tectariaceae: Polypodiales) based on plastid and nuclear markers identifies major evolutionary lineages and suggests repeated evolution of free venation from anastomosing venation.Crossref | GoogleScholarGoogle Scholar | 28552506PubMed |

Zhou XM, Zhang LB (2015) A classification of Selaginella (Selaginellaceae) based on molecular (chloroplast and nuclear), macromorphological, and spore features. Taxon 64, 1117–1140.
A classification of Selaginella (Selaginellaceae) based on molecular (chloroplast and nuclear), macromorphological, and spore features.Crossref | GoogleScholarGoogle Scholar |

Zhou S, Dong W, Chen X, Zhang X, Wen J, Schneider H (2014) How many species of bracken (Pteridium) are there? Assessing the Chinese brackens using molecular evidence. Taxon 63, 509–521.
How many species of bracken (Pteridium) are there? Assessing the Chinese brackens using molecular evidence.Crossref | GoogleScholarGoogle Scholar |

Zhou XM, Rothfels CJ, Zhang L, He ZR, Le Pechon T, He H, Lu NT, Knapp R, Lorence D, He XJ, Gao XF, Zhang L-B (2015) A large-scale phylogeny of the lycophyte genus Selaginella (Selaginellaceae: Lycopodiopsida) based on plastid and nuclear loci. Cladistics 3, 360–389.

Zhou XM, Zhang L, Chen CW, Li CX, Huang YM, Chen DK, Lu NT, Cicuzza D, Knapp R, Luong TT, Nitta JH, Gao XF, Zhang LB (2017) A plastid phylogeny and character evolution of the Old World fern genus Pyrrosia (Polypodiaceae) with the description of a new genus: Hovenkampia (Polypodiaceae) Molecular Phylogenetics and Evolution 114, 271–294.
A plastid phylogeny and character evolution of the Old World fern genus Pyrrosia (Polypodiaceae) with the description of a new genus: Hovenkampia (Polypodiaceae)Crossref | GoogleScholarGoogle Scholar | 28676427PubMed |