2017 in paleobotany: Difference between revisions

List of years in paleobotany
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This article records new taxa of plants that are scheduled to be described during the year 2017, as well as other significant discoveries and events related to paleobotany that are scheduled to occur in the year 2017.

Research

• A specimen of the extant moss species Helicophyllum torquatum is described from the Miocene Dominican amber by Kubilius et al. (2017).^[1]
• A study on the phylogenetic relationships of fossil seed plants based on data recovered from the fossil cuticles is published by Vajda et al. (2017).^[2]
• New fossils of the early seed plant Cosmosperma polyloba, providing new information making it possible to reconstruct the entire plant, are described from the Devonian (Famennian) Wutong Formation (China) by Liu et al. (2017).^[3]
• A study on the diversity of insect herbivory on fossil angiosperm leaves from the Miocene Hindon Maar fossil lagerstätte (Otago, New Zealand) is published by Möller et al. (2017).^[4]
• A leaf fragment of a member of the fern family Lindsaeaceae of uncertain phylogenetic placement is described from the Cretaceous Burmese amber by Regalado et al. (2017).^[5]
• A leafy axis of the conifer Glenrosa carentonensis is described from the Cretaceous amber from France by Moreau et al. (2017).^[6]
• Fossil specimens of the golden larch preserving cuticles are described from the late Miocene Shengxian Formation (China) by Bai & Li (2017).^[7]
• A study on the stem and leaf anatomy of members of the families Cheirolepidiaceae (a member of the genus Pseudofrenelopsis of uncertain specific assignment) and Araucariaceae (Brachyphyllum obesum) known from the Lower Cretaceous (Aptian) Crato Formation (Brazil) is published by Batista et al. (2017).^[8]
• Peris et al. (2017) describe gymnosperm pollen preserved with a specimen of the false blister beetle species Darwinylus marcosi from the Cretaceous amber from Spain, and interpret the finding as indicating that false blister beetles originally were pollinators of gymnosperms (most likely cycads) before transitioning onto angiosperm hosts.^[9]
• Fossil pollen grains of members of the family Loranthaceae, preserving morphological features making it possible to assign the pollen to distinct lineages within the Loranthaceae, are described from the middle Eocene of the United States, Greenland, Central Europe and East Asia, and from the late Oligocene/early Miocene of Germany by Grímsson et al. (2017).^[10]
• Plant remains found in the Late Cretaceous (Maastrichtian) Lameta sediments and associated sauropod coprolites from the Nand-Dongargaon basin (Maharashtra, India) are described by Sonkusare, Samant & Mohabey (2017).^[11]
• Seed of the ginkgoalean Yimaia capituliformis with damage interpreted as likely oviposition lesions inflicted by a kalligrammatid lacewing will be described from the Middle Jurassic Jiulongshan Formation (China) by Meng et al. (2017).^[12]

Flowering plants

Name	Novelty	Status	Authors	Age	Unit	Location	Notes	Images
Acer ningmingensis[13]	Sp. nov	Valid	Chen & Wong in Chen et al.	Oligocene	Ningming Formation	China	A maple.
Akanioxylon[14]	Gen. et sp. nov	Valid	Brea et al.	Miocene (Burdigalian)	Santa Cruz Formation	Argentina	A member of Akaniaceae. Genus includes new species A. santacrucensis.
Albizia ningmingensis[15]	Sp. nov	In press	Ma et al.	Oligocene	Ningming Formation	China	A species of Albizia.
Aleurites australis[16]	Sp. nov	Valid	Rozefelds et al.	Cenozoic		Australia	A species of Aleurites.
Andiroxylon aegyptiacum[17]	Sp. nov	Valid	El-Saadawi et al.	Oligocene		Egypt	A member of Fabaceae.
Aralia asiatica[18]	Nom. nov	Valid	Doweld	Miocene		Russia ( Tomsk Oblast)	A species of Aralia; a replacement name for Aralia rugosa Dorofeev.
Aralia borealis[18]	Nom. nov	Valid	Doweld	Miocene		Russia ( Tomsk Oblast)	A species of Aralia; a replacement name for Aralia tertiaria Dorofeev.
Aralia mammuthica[18]	Nom. nov	Valid	Doweld	Miocene		Russia ( Sakha Republic)	A species of Aralia; a replacement name for Aralia dubia Nikitin (1976).
Aralia tobolica[18]	Nom. nov	Valid	Doweld	Miocene		Russia ( Omsk Oblast)	A species of Aralia; a replacement name for Aralia lucida Dorofeev (1963).
Arceuthobium conwentzii[19]	Sp. nov	Valid	Sadowski et al.	Eocene	Baltic amber	Europe (Baltic Sea coast)	A species of Arceuthobium.
Arceuthobium groehnii[19]	Sp. nov	Valid	Sadowski et al.	Eocene	Baltic amber	Europe (Baltic Sea coast)	A species of Arceuthobium.
Arceuthobium obovatum[19]	Sp. nov	Valid	Sadowski et al.	Eocene	Baltic amber	Europe (Baltic Sea coast)	A species of Arceuthobium.
Archaestella[20][21]	Gen. et sp. nov	Valid	Takahashi, Herendeen & Xiao	Late Cretaceous (early Coniacian)	Futaba Group	Japan	Possibly a relative of Trochodendraceae. Genus includes new species A. verticillata.
Bastardiopsis palaeodensiflora[22]	Sp. nov	Valid	Ramos, Brea & Kröhling	Late Pleistocene	El Palmar Formation	Argentina	A species of Bastardiopsis.
Betula erkovetskiensis[23]	Sp. nov	Valid	Blokhina & Bondarenko	Miocene	Sazanka Formation	Russia ( Amur Oblast)	A birch.
Bosquesoxylon[24]	Gen. et sp. nov	In press	Pérez-Lara, Castañeda-Posadas & Estrada-Ruiz	Eocene	El Bosque Formation	Mexico	A member of Anacardiaceae described on the basis of fossil wood. Genus includes new species B. chiapiasense.
Brassaiopsis kolakovskyana[18]	Nom. nov	Valid	Doweld	Pliocene		Abkhazia	A species of Brassaiopsis; a replacement name for Aralia angustiloba Kolakovsky.
Burretiodendron guangxiensis[25]	Sp. nov	In press	Dong & Sun in Dong et al.	Oligocene	Ningming Formation	China	A species of Burretiodendron.
Calophyllum siwalikum[26]	Sp. nov	Valid	Khan, Spicer & Bera in Khan et al.	Neogene		India	A species of Calophyllum.
Canarium guangxiensis[27]	Sp. nov	In press	Han & Manchester in Han et al.			China	A species of Canarium
Carpolites drupifera[28]	Sp. nov	Valid	Kowalski	Middle Miocene		Poland	A fossil fruit of uncertain phylogenetic placement.
Carpolites lubstovensis[28]	Sp. nov	Valid	Kowalski	Middle Miocene		Poland	A fossil fruit of uncertain phylogenetic placement.
Cascolaurus[29]	Gen. et sp. nov	Valid	Poinar	Late Cretaceous (Cenomanian)	Burmese amber	Myanmar	A member of Lauraceae. Genus includes new species C. burmitis.
Cathiaria japonica[20]	Sp. nov	Valid	Takahashi, Herendeen & Xiao	Late Cretaceous (early Coniacian)	Futaba Group	Japan	Possibly a member of Buxaceae sensu lato.
Ceratopetalum edgardoromeroi[30]	Sp. nov	Valid	Gandolfo & Hermsen	Eocene (Ypresian)		Argentina	A species of Ceratopetalum.
Chaneya ningmingensis[31]	Sp. nov	In press	Liufu, Chen & Wang	Oligocene	Ningming Formation	China	A fossil fruit.
Choerospondias nanningensis[32]	Sp. nov	In press	Fu et al.	Late Oligocene	Yongning Formation	China	A species of Choerospondias.
Cladium zhenyuanensis[33]	Sp. nov	Valid	Liang & Zhou in Liang et al.	Miocene		China	A species of Cladium.
Connaroxylon[34]	Gen. et sp. nov	Valid	Baas et al.	Late Cretaceous (Maastrichtian)-earliest Paleocene	Deccan Intertrappean Beds	India	A probable member of Connaraceae described on the basis of fossil wood. Genus includes new species C. dimorphum.
Cretacaeiporites aegyptiaca[35]	Sp. nov	Valid	Ibrahim et al.	Late Cretaceous (Cenomanian)	Bahariya Formation	Egypt
Cyclocarya simipaliurus[36]	Sp. nov	In press	Wu et al.	Late Miocene	Nanlin Formation	China	A species of Cyclocarya.
Dicotylophyllum subpeltatum[37]	Sp. nov	Valid	Kvaček & Bubík	Oligocene		Iran	A flowering plant of uncertain phylogenetic placement described on the basis of leaf impressions.
Discoflorus[38]	Gen. et sp. nov	Valid	Poinar	Eocene-Miocene	Dominican amber	Dominican Republic	A member of Apocynaceae belonging to the subfamily Asclepiadoideae. Genus includes new species D. neotropicus.
Duguetiaxylon[39]	Gen. et sp. nov	Valid	Soares et al.	Miocene	Novo Remanso Formation	Brazil	A member of the family Annonaceae described on the basis of fossil wood. Genus includes new species D. amazonicum.
Enkianthus maii[28]	Sp. nov	Valid	Kowalski	Middle Miocene		Poland	A species of Enkianthus.
Exbucklandia acutifolia[40]	Sp. nov	In press	Huang & Zhou in Huang et al.	Miocene		China	A species of Exbucklandia.
Fallopia conwentzii[41]	Nom. nov	Valid	Doweld	Eocene		Russia ( Kaliningrad Oblast)	A species of Fallopia; a replacement name for Polygonum convolvuloides Conwentz.
Fallopia palaeodonica[41]	Sp. nov	Valid	Doweld	Miocene		Russia ( Rostov Oblast)	A species of Fallopia.
Foveomonocolpites ravnii[42]	Sp. nov	Valid	Schrank	Early Cretaceous (Albian)		Israel	A flowering plant described on the basis of fossil pollen.
Gossweilerodendroxylon[43]	Gen. et sp. nov	Valid	Ramos, Brea & Kröhling	Late Pleistocene	El Palmar Formation	Argentina	A member of Detarioideae described on the basis of fossil wood. Genus includes new species G. palmariensis.
Kenilanthus[44]	Gen. et sp. nov	Valid	Friis, Pedersen & Crane	Early Cretaceous (early-middle Albian)	Patapsco Formation	United States ( Maryland)	A flowering plant belonging to an early-diverging eudicot lineage. The type species is Kenilanthus marylandensis.
Kalmiocarpus[28]	Gen. et sp. nov	Valid	Kowalski	Middle Miocene		Poland	A member of Ericaceae. Genus includes new species K. dorofeevi.
Kownasia[28]	Gen. et sp. nov	Valid	Kowalski	Middle Miocene		Poland	A member of Cyperaceae. Genus includes new species K. lubstovensis.
Leucotrys[28]	Gen. et sp. nov	Valid	Kowalski	Middle Miocene		Poland	A member of Ericaceae. Genus includes new species L. europea.
Lyonia polonica[28]	Sp. nov	Valid	Kowalski	Middle Miocene		Poland	A species of Lyonia.
Macaranga zhangpuensis[45]	Sp. nov	Valid	Wang & Sun in Zixi et al.	Miocene	Fotan Group	China	A species of Macaranga.
Mahonia ningmingensis[46]	Sp. nov	In press	Hu & Chen in Hu et al.	Oligocene	Ningming Formation	China	A species of Mahonia.
Maiella[47]	Gen. et sp. nov	Valid	Kowalski & Fagúndez	Miocene		Poland	A member of the family Ericaceae belonging to the tribe Ericeae. Genus includes new species M. miocaenica.
Mammea paramericana[48]	Sp. nov	Valid	Nelson & Jud	Early Miocene		Panama	A species of Mammea.
Maytenoxylon[49]	Gen. et sp. nov	In press	Franco	Late Cenozoic	Ituzaingó Formation	Argentina	A member of Celastraceae described on the basis of fossil wood. Genus includes new species M. perforatum.
Metrosideros dawsonii[50]	Sp. nov	Valid	Tarran et al.	Oligo-Miocene		Australia	A species of Metrosideros.
Metrosideros wrightii[50]	Sp. nov	Valid	Tarran et al.	Oligo-Miocene		Australia	A species of Metrosideros.
Millettioxylon sindhiensis[51]	Sp. nov	Valid	Soomro et al.	Miocene	Manchar Formation	Pakistan	A member of Fabaceae described on the basis of fossil wood.
Mycophoris[52]	Gen. et sp. nov	Valid	Poinar	Eocene to Miocene	Dominican amber	Dominican Republic	A member of Orchidaceae. Genus includes new species M. elongatus.
Notiantha[53]	Gen. et sp. nov	Valid	Jud et al.	Paleocene (early Danian)	Lower Salamanca Formation	Argentina	A member of the family Rhamnaceae. Genus includes new species N. grandensis.
Nothodichocarpum[54]	Gen. et sp. nov	Valid	Han, Liu & Wang	Early Cretaceous (Barremian-Aptian)	Yixian Formation	China	An early flowering plant. Genus includes new species N. lingyuanensis.
Notonuphar[55]	Gen. et sp. nov	Valid	Friis et al.	Eocene	La Meseta Formation	Antarctica (Seymour Island)	A water lily. Genus includes new species N. antarctica.
Paisia[56]	Gen. et sp. nov	In press	Friis, Mendes & Pedersen	Early Cretaceous (late Barremian–early Albian)	Almargem Formation	Portugal	An early eudicot. Genus includes new species P. pantoporata.
Palmoxylon araneus[57]	Sp. nov	In press	Nour-El-Deen, El-Saadawi & Thomas	Oligocene (Rupelian)	Jebel Qatrani Formation	Egypt
Palmoxylon elsaadawii[57]	Sp. nov	In press	Nour-El-Deen & Thomas in Nour-El-Deen, Thomas & El-Saadawi	Oligocene (Rupelian)	Jebel Qatrani Formation	Egypt
Palmoxylon qatraniense[57]	Sp. nov	In press	Nour-El-Deen, El-Saadawi & Thomas	Oligocene (Rupelian)	Jebel Qatrani Formation	Egypt
Panascleroticoxylon[58]	Gen. et sp. nov	In press	Rodriguez-Reyes et al.	Miocene (Burdigalian to Tortonian)	Alajuela Formation Cucaracha Formation	Panama	A member of Malpighiales of uncertain phylogenetic placement, described on the basis of fossil wood. Genus includes new species P. crystallosa.
Paraoxystigma[43]	Gen. et sp. nov	Valid	Ramos, Brea & Kröhling	Late Pleistocene	El Palmar Formation	Argentina	A member of Detarioideae described on the basis of fossil wood. Genus includes new species P. concordiensis.
Paraphyllanthoxylon vancouverense[59]	Sp. nov	In press	Jud et al.	Late Cretaceous (Coniacian)	Comox Formation	Canada ( British Columbia)	An angiosperm tree described on the basis of fossil wood.
Persicaria omoloica[41]	Sp. nov	Valid	Doweld	Miocene		Russia ( Irkutsk Oblast)	A species of Persicaria.
Persoonieaephyllum blackburniae[60]	Sp. nov	In press	Carpenter, Tarran & Hill	Middle Eocene		Australia	A member of the family Proteaceae belonging to the subfamily Persoonioideae.
Phyllanthocarpon[61]	Gen. et sp. nov	Valid	Mistri, Kapgate & Sheikh ex Kapgate & Manchester in Kapgate, Manchester & Stuppy	Late Cretaceous (late Maastrichtian)	Dhuma Formation	India	A member of Phyllanthaceae described on the basis of fossil fruit. Genus includes new species P. singpurensis.
Physalis infinemundi[62]	Sp. nov	Valid	Wilf et al.	Eocene		Argentina	A species of Physalis.
Platanus serrata[18]	Nom. nov	Valid	Doweld	Paleocene	Raton Formation	United States ( Colorado)	A species of Platanus; a replacement name for Aralia serrata Knowlton (1917).
Polygonum palaeosibiricum[41]	Nom. nov	Valid	Doweld	Oligocene		Russia ( Tomsk Oblast)	A species of Polygonum; a replacement name for Polygonum reticulatum Dorofeev.
Prioria canalensis[63]	Sp. nov	Valid	Rodríguez-Reyes et al.	Miocene (Burdigalian)	Cucaracha Formation	Panama	A species of Prioria.
Prioria hodgesii[63]	Sp. nov	Valid	Rodríguez-Reyes et al.	Miocene (Burdigalian)	Cucaracha Formation	Panama	A species of Prioria.
Pterolobium punctatopsis[64]	Sp. nov	Valid	Jia et al.	Middle Miocene	Maguan Basin	China	A species of Pterolobium.
Rhizopalmoxylon nypoides[65]	Sp. nov	Valid	Kathal et al.	Late Cretaceous–Paleocene (late Maastrichtian–early Danian)	Deccan Intertrappean Beds	India	A member of the family Arecaceae.
Rhododendron polonicum[28]	Sp. nov	Valid	Kowalski	Middle Miocene		Poland	A species of Rhododendron.
Rourea blatta[66]	Sp. nov	Valid	Jud & Nelson	Early Miocene	Cucaracha Formation	Panama	A member of the family Connaraceae.
Ruprechtioxylon breae[49]	Sp. nov	In press	Franco	Late Cenozoic	Ituzaingó Formation	Argentina	A member of Polygonaceae described on the basis of fossil wood.
Sabalites geneseensis[67]	Sp. nov	Valid	Greenwood & West	Early Paleocene	Scollard Formation	Canada ( Alberta)	A palm tree belonging to the subfamily Coryphoideae.
Sabalites guangxiensis[68]	Sp. nov	Valid	Wang & Sun in Wang et al.	Oligocene	Ningming Formation	China	A palm tree.
Saururus aquilae[69]	Sp. nov	Valid	Grímsson, Grimm & Zetter	Late Cretaceous (Campanian)	Eagle Formation	United States ( Wyoming)	A species of Saururus.
Saururus stoobensis[69]	Sp. nov	Valid	Grímsson, Grimm & Zetter	Miocene		Austria	A species of Saururus.
Schima kwangsiensis[70]	Sp. nov	Valid	Shi, Quan & Jin in Shi et al.	Late Oligocene	Yongning Formation	China	A species of Schima.
Sheltercarpa[71]	Gen. et sp. nov	In press	Atkinson, Stockey & Rothwell	Late Cretaceous (late Campanian)	Spray Formation	Canada ( British Columbia)	A member of Cornales of uncertain phylogenetic placement. Genus includes new species S. vancouverensis.
Smilax tengchongensis[72]	Sp. nov	Valid	Wu et al.	Late Pliocene		China	A species of Smilax.
Succinanthera[73]	Gen. et sp. nov	Valid	Poinar & Rasmussen	Eocene	Baltic amber	Europe (Baltic Sea coast)	A member of Orchidaceae. Genus includes new species S. baltica.
Suciacarpa xiangae[71]	Sp. nov	In press	Atkinson, Stockey & Rothwell	Late Cretaceous (late Campanian)	Spray Formation	Canada ( British Columbia)
Suessenia[53]	Gen. et sp. nov	Valid	Jud et al.	Paleocene (early Danian)	Lower Salamanca Formation	Argentina	A member of the family Rhamnaceae. Genus includes new species S. grandensis.
Tropidogyne pentaptera[74]	Sp. nov	Valid	Poinar & Chambers	Cretaceous (Albian or Cenomanian)	Burmese amber	Myanmar	A probable member of Cunoniaceae.
Zelkova ningmingensis[75]	Sp. nov	Valid	Ma et al.	Oligocene	Ningming Formation	China	A species of Zelkova.
Zlivifructus[76]	Gen. et 2 sp. nov	Valid	Heřmanová, Dašková & Kvaček in Heřmanová et al.	Late Cretaceous (Turonian to Maastrichtian)	Aachen Formation Klikov Formation Walbeck Formation	Czech Republic  Germany	A member of the Normapolles complex described on the basis of fossil flowers and fruits. Genus includes new species Z. vachae and Z. sklenarii.

Ginkgoales

Name	Novelty	Status	Authors	Age	Unit	Location	Notes	Images
Ginkgo hamiensis[77]	Sp. nov	Valid	Wang & Sun in Wang et al.	Middle Jurassic	Xishanyao Formation	China	A species of Ginkgo.
Ginkgo neimengensis[78]	Sp. nov	In press	Xu et al.	Early Cretaceous	Huolinhe Formation	China	A species of Ginkgo.
Nagrenia leviana[79]	Sp. nov	Valid	Nosova	Middle Jurassic	Angren Formation	Uzbekistan	A member of Ginkgoales.
Nagrenia pilosa[79]	Sp. nov	Valid	Nosova	Middle Jurassic	Angren Formation	Uzbekistan	A member of Ginkgoales.
Pseudotorellia crista[80]	Sp. nov	Valid	Horiuchi & Uemura	Paleocene	Minato Formation	Japan	A member of Ginkgoales, described on the basis of leaves.
Pseudotorellia kimurae[80]	Sp. nov	Valid	Horiuchi & Uemura	Paleocene	Minato Formation	Japan	A member of Ginkgoales, described on the basis of leaves.
Pseudotorellia palustris[81]	Sp. nov	In press	Shi et al.	Early Cretaceous (Aptian–Albian)	Tevshiin Govi Formation	Mongolia	A member of Ginkgoales, described on the basis of leaves.
Pseudotorellia resinosa[81]	Sp. nov	In press	Shi et al.	Early Cretaceous (Aptian–Albian)	Tevshiin Govi Formation	Mongolia	A member of Ginkgoales, described on the basis of leaves.

Pinales

Name	Novelty	Status	Authors	Age	Unit	Location	Notes	Images
Cathaya vanderburghii[82]	Sp. nov	Valid	Gossmann ex Winterscheid & Gossmann	Pliocene		Germany  Italy	A species of Cathaya.
Cupressinoxylon artabeae[83]	Sp. nov	In press	Ruiz et al.	Paleocene (Danian)	Salamanca Formation	Argentina	A member of Cupressaceae described on the basis of fossil wood.
Cupressinoxylon rotundum[84]	Sp. nov	In press	Pujana in Pujana, Raffi & Olivero	Late Cretaceous	Santa Marta Formation	Antarctica (James Ross Island)
Krassilovidendron[85]	Gen. et sp. nov	In press	Sokolova, Gordenko & Zavialova	Cretaceous (Albian–Cenomanian)		Russia ( Kemerovo Oblast)	A member of Sequoioideae. Genus includes new species K. fecundum.
Medulloprotaxodioxylon[86]	Gen. et sp. nov	Valid	Wan et al.	Late Triassic (Norian)	Huangshanjie Formation	China	A conifer described on the basis of fossil wood, possibly an ancestral form of the Sequoioideae. Genus includes new species M. triassicum.
Pararaucaria taquetrensis[87]	Sp. nov	Valid	Escapa & Leslie	Early Jurassic		Argentina	A member of Cheirolepidiaceae.
Pentakonos[88]	Gen. et sp. nov	Valid	Herrera et al.	Early Cretaceous (Aptian-Albian)		Mongolia	A member of Cupressaceae. Genus includes new species P. diminutus.
Pinus arunachalensis[89]	Sp. nov	Valid	Khan & Bera	Miocene	Dafla Formation	India	A pine.
Pinus nanfengensis[90]	Sp. nov	In press	Wang et al.	Late Miocene	Xianfeng Basin	China	A pine.
Pinus uniseriata[90]	Sp. nov	In press	Wang et al.	Late Miocene	Xianfeng Basin	China	A pine.
Pityostrobus pluriresinosa[91]	Sp. nov	Valid	Smith et al.	Early Cretaceous		United States ( California)	A member of Pinaceae, a species of Pityostrobus.
Platycladus preorientalis[92]	Sp. nov	In press	He et al.	Early Miocene		China	A species of Platycladus.
Podocarpoxylon multiparenchymatosum[93]	Sp. nov	Valid	Pujana & Ruiz	Paleocene (Danian)[83]-Eocene	Río Turbio Formation Salamanca Formation[83]	Argentina	A member of the family Podocarpaceae described on the basis of fossil wood.
Podocarpoxylon prumnopityoides[94]	Sp. nov	Valid	Gnaedinger et al.	Early Cretaceous (Valanginian)	Mulichinco Formation	Argentina	A member of the family Podocarpaceae described on the basis of fossil wood.
Scarburgia baiyanghensis[95]	Sp. nov	Valid	Yang et al.	Middle Jurassic	Xishanyao Formation	China	Possibly a member of Podocarpaceae.
Storgaardia gansuensis[96]	Sp. nov	Valid	Li & Wu in Li et al.	Middle Jurassic (Aalenian-Bajocian)	Yan’an Formation	China	A member of Coniferales, a species of Storgaardia.
Stutzeliastrobus[88]	Gen. et sp. nov	Valid	Herrera et al.	Early Cretaceous (Aptian-Albian)		Mongolia	A member of Cupressaceae. Genus includes new species S. foliatus.

Other seed plants

Name	Novelty	Status	Authors	Age	Unit	Location	Notes	Images
Adiantites tevelevii[97]	Sp. nov	Valid	Orlova, Pustovoit & Anikeeva	Carboniferous (Viséan)		Russia	A seed fern.
Allicospermum papillosum[98]	Sp. nov	In press	Nosova & Hvalj	Middle Jurassic		Uzbekistan	A gymnosperm seed, possibly of ginkgoalean affinity.
Allicospermum uzbekistanicum[98]	Sp. nov	In press	Nosova & Hvalj	Middle Jurassic		Uzbekistan	A gymnosperm seed.
Allicospermum valentinae[98]	Sp. nov	In press	Nosova & Hvalj	Middle Jurassic		Uzbekistan	A gymnosperm seed, possibly of ginkgoalean affinity.
Baiera triassica[99][100]	Nom. nov	Valid	Gnaedinger & Zavattieri	Late Triassic	Paso Flores Formation	Argentina	A replacement name for Baiera taeniata Geinitz (1876) (preoccupied).
Caytonanthus rewaensis[101]	Sp. nov	Valid	Prakash & Das	Early Cretaceous	Bansa Formation	India	A seed fern belonging to the family Caytoniaceae.
Cycadolepis ferrugineus[102]	Sp. nov	In press	McLoughlin, Pott & Sobbe	Jurassic (Pliensbachian–Aalenian)		Australia	A member of Bennettitales belonging to the family Williamsoniaceae.
Ductoagathoxylon[103]	Gen. et sp. nov	Valid	Wan et al.	Permian (Wuchiapingian)	Wutonggou Formation	China	A conifer described on the basis of fossilized wood. Genus includes new species D. jimsarensis.
Eobowenia[104]	Gen. et comb. nov	Valid	Coiro & Pott	Early Cretaceous (Aptian)	Anfiteatro de Ticó Formation	Argentina	A cycad belonging to the family Zamiaceae and the subfamily Bowenioideae; a new genus for "Almargemia" incrassata Archangelsky (1966).
Ephedra canterata[105]	Sp. nov	In press	Puebla et al.	Early Cretaceous (Aptian)	La Cantera Formation	Argentina	A species of Ephedra.
Gigantopteridium utebaturianum[106]	Sp. nov	In press	Koll, DiMichele & Manchester	Permian		North America	A gigantopterid.
Hydropterangium roesleri[107]	Sp. nov	Valid	Van Konijnenburg-van Cittert et al.	Late Triassic (Rhaetian)		Germany
Liaoningia[108]	Gen. et sp. nov	Valid	Yang & Lin in Yang et al.	Early Cretaceous	Yixian Formation	China	A member of Gnetophyta showing intermediate morphology between the Ephedraceae, Gnetaceae and Welwitschiaceae. Genus includes new species L. decussata.
Nilssonia gristhorpensis[109]	Sp. nov	Valid	Van Konijnenburg-van Cittert et al.	Middle Jurassic (Bajocian)	Cloughton Formation	United Kingdom
Nubilora[110]	Gen. et sp. nov	In press	Wang	Late Triassic (Norian or Rhaetian)	Ganhaizi Formation	China	A possible relative of the flowering plants. Genus includes new species N. triassica.
Partitisporites krassilovii[42]	Sp. nov	Valid	Schrank	Early Cretaceous (Albian)		Israel	A gymnosperm described on the basis of fossil pollen.
Patokaea[111]	Gen. et sp. nov	Valid	Pacyna, Barbacka & Zdebska in Pacyna et al.	Late Triassic (Norian)	Grabowa Formation	Poland	A member of Voltziales belonging to the new family Patokaeaceae. Genus includes new species P. silesiaca.
Podozamites doludenkoae[112]	Sp. nov	Valid	Nosova, van Konijnenburg-van Cittert & Kiritchkova	Early and Middle Jurassic (Toarcian-Bajocian)	Karadiirmen’ Formation Kokala Formation	Kazakhstan	A conifer belonging to the family Podozamitaceae, described on the basis of leaves.
Podozamites harrisii[81]	Sp. nov	In press	Shi et al.	Early Cretaceous (Aptian–Albian)	Tevshiin Govi Formation	Mongolia	A conifer belonging to the family Podozamitaceae, described on the basis of leaves.
Podozamites irkutensis[112]	Sp. nov	Valid	Nosova, van Konijnenburg-van Cittert & Kiritchkova	Middle Jurassic (Aalenian-Bajocian)	Prisayan Formation	Russia	A conifer belonging to the family Podozamitaceae, described on the basis of leaves.
Sphenarion angustae[113]	Sp. nov	In press	Huang et al.	Middle Jurassic	Jiulongshan Formation	China	A member of Czekanowskiales, a species of Sphenarion.
Turpanopitys[114]	Gen. et sp. nov	Valid	Shi et al.	Early Triassic	Turpan Basin	China	A member of Coniferophyta of uncertain phylogenetic placement. Genus includes new species T. taoshuyuanense.
Umaltolepis mongoliensis[115]	Sp. nov	Valid	Herrera et al.	Early Cretaceous (Aptian–Albian)	Tevshiin Govi Formation	Mongolia	A member of Vladimariales (a group of seed plants of uncertain phylogenetic placement).
Williamsonia durikaiensis[102]	Sp. nov	In press	McLoughlin, Pott & Sobbe	Jurassic (Pliensbachian–Aalenian)		Australia	A member of Bennettitales belonging to the family Williamsoniaceae.
Williamsonia eskensis[102]	Sp. nov	In press	McLoughlin, Pott & Sobbe	Middle Triassic	Esk Formation	Australia	A member of Bennettitales belonging to the family Williamsoniaceae.
Williamsonia gracilis[102]	Sp. nov	In press	McLoughlin, Pott & Sobbe	Early Cretaceous (Berriasian–Hauterivian)	Lees Sandstone	Australia	A member of Bennettitales belonging to the family Williamsoniaceae.
Williamsonia ipsvicensis[102]	Sp. nov	In press	McLoughlin, Pott & Sobbe	Late Triassic (Carnian or earliest Norian)	Blackstone Formation	Australia	A member of Bennettitales belonging to the family Williamsoniaceae.
Williamsonia rugosa[102]	Sp. nov	In press	McLoughlin, Pott & Sobbe	Middle Jurassic (Aalenian–Bajocian)		Australia	A member of Bennettitales belonging to the family Williamsoniaceae.
Yangquanoxylon[116]	Gen. et sp. nov	In press	Wan et al.	Carboniferous (Pennsylvanian)-early Permian	Taiyuan Formation	China	A gymnosperm described on the basis of fossil wood. Genus includes new species Y. miscellum.
Zamuneria[117]	Gen. et sp. nov	Valid	Martínez et al.	Late Cretaceous	Mata Amarilla Formation	Argentina	A cycad belonging to the family Zamiaceae. Genus includes new species Z. amyla.

Other plants

Name	Novelty	Status	Authors	Age	Unit	Location	Notes	Images
Ahnetia[118]	Gen. et sp. nov	Valid	Decombeix & Galtier	Carboniferous (late Tournaisian)		Algeria	Genus includes new species A. conradii
Annularia sardiniana[119]	Sp. nov	In press	Cleal et al.	Carboniferous (Moscovian)	San Giorgio Basin	Italy	A member of Equisetopsida.
Annularia stopesiae[120]	Sp. nov	Valid	Álvarez-Vázquez & Wagner	Carboniferous (Westphalian)		Canada
Arthropitys barthelii[121]	Sp. nov	Valid	Neregato et al.	Permian	Parnaíba Basin	Brazil	A member of Calamitaceae.
Arthropitys tocantinensis[121]	Sp. nov	Valid	Neregato et al.	Permian	Parnaíba Basin	Brazil	A member of Calamitaceae.
Azolla colhuehuapensis[122]	Sp. nov	Valid	Vallati et al.	Late Cretaceous (Maastrichtian)	Lago Colhué Huapi Formation	Argentina	A member of Salviniales, a species of Azolla.
Baragwanathia brevifolia[123]	Sp. nov	Valid	Kraft & Kvaček	Late Silurian	Požáry Formation	Czech Republic	An aquatic precursor of dry land lycophytes.
Barattoloporellopsis[124]	Gen. et comb. nov	Valid	Granier, Azerêdo & Ramalho	Late Jurassic (Oxfordian)		Portugal	A green alga, probably a primitive member of the family Dasycladaceae; a new genus for "Cylindroporella" lusitanica Ramalho (1970).
Boweria nowarudensis[125]	Sp. nov	Valid	Frojdová et al.	Carboniferous (early Moscovian)		Poland	A leptosporangiate fern belonging to the group Filicales.
Claytosmunda chengii[126]	Nom. nov	Valid	Bomfleur, Grimm & McLoughlin	Middle Jurassic		China	A member of the family Osmundaceae; a replacement name for Ashicaulis claytoniites Cheng (2011).
Costatoperforosporites friisiae[127]	Sp. nov	In press	Mendes et al.	Early Cretaceous (late Aptian–early Albian)	Lusitanian Basin	Portugal	A member of Anemiaceae described on the basis of spores.
Dorsalistachya[128]	Gen. et sp. nov	Valid	Wang & Spencer in Wang et al.	Permian (Wuchiapingian–Changhsingian)	Xuanwei Formation	China	A member of Noeggerathiales. Genus includes new species D. quadrisegmentorum
Douaphyton[129]	Gen. et sp. nov	In press	Xu et al.	Devonian (Givetian)	Hujiersite Formation	China	An early euphyllophyte. Genus includes new species D. levigata
Draconisella mortoni[130]	Sp. nov	Valid	Granier in Granier & Lethiers	Early Cretaceous (Hauterivian or Barremian)		Oman	A green alga belonging to the group Dasycladales and the family Triploporellaceae.
Frullania pinnata[131]	Sp. nov	In press	Heinrichs et al.	Late Cretaceous (Cenomanian)	Burmese amber	Myanmar	A liverwort, a species of Frullania.
Frullania rovnoi[132]	Sp. nov	In press	Mamontov et al.	Eocene	Rovno amber	Ukraine	A liverwort, a species of Frullania.
Goniophlebium macrosorum[133]	Sp. nov	In press	Xu & Zhou in Xu et al.	Miocene		China	A fern belonging to the family Polypodiaceae.
Heilongjiangcaulis[134]	Gen. et sp. nov	In press	Cheng & Yang	Cretaceous	Songliao Basin	China	A tree fern. Genus includes new species H. keshanensis.
Holttumopteris[135]	Gen. et sp. nov	In press	Regalado et al.	Cretaceous (Albian–Cenomanian )	Burmese amber	Myanmar	An eupolypod fern. Genus includes new species H. burmensis.
Ilfeldia gregoriensis[136]	Sp. nov	Valid	Pšenička et al.	Carboniferous (Gzhelian)	Douro Carboniferous Basin	Portugal	A plant of uncertain phylogenetic placement; may be affiliated with ferns or pteridosperms.
Kidstoniopteris[125]	Gen. et comb. nov	Valid	Frojdová et al.	Carboniferous (early Moscovian)		United Kingdom	A leptosporangiate fern belonging to the group Filicales; a new genus for "Boweria" minor Kidston (1923).
Korallipteris alineae[137]	Sp. nov	In press	Conran et al.	Early Miocene		New Zealand	A fern.
Lamprothamnium? barcinencis[138]	Sp. nov	Valid	De Sosa Tomas, Vallati & Martín-Closas	Early Cretaceous (late Aptian–early Albian)	Cerro Barcino Formation	Argentina	A green alga belonging to the group Charophyta.
Lejeunea hamatiloba[139]	Sp. nov	Valid	Lee et al.	Miocene	Dominican amber	Dominican Republic	A liverwort, a species of Lejeunea.
Lejeunea resinata[139]	Sp. nov	Valid	Lee et al.	Miocene	Dominican amber	Dominican Republic	A liverwort, a species of Lejeunea.
Lejeunea urbanioides[139]	Sp. nov	Valid	Lee et al.	Miocene	Dominican amber	Dominican Republic	A liverwort, a species of Lejeunea.
Lepidodendron vaselgense[140]	Sp. nov	Valid	Anikeeva & Orlova in Orlova et al.	Late Carboniferous		Russia
Lepidostrobus tevelevii[140]	Sp. nov	Valid	Orlova, Mamontov & Anikeeva in Orlova et al.	Late Carboniferous		Russia
Lygodium goonyellum[141]	Sp. nov	In press	Rozefelds et al.	Oligocene–early Miocene		Australia	A species of Lygodium.
Meantoinea[142]	Gen. et sp. nov	Valid	Bippus et al.	Early Cretaceous		Canada ( British Columbia)	A moss belonging to the family Polytrichaceae. Genus includes new species M. alophosioides.
Ovulepteris[136]	Gen. et comb. nov	Valid	Pšenička et al.	Carboniferous (Pennsylvanian)		Czech Republic	A plant of uncertain phylogenetic placement; may be affiliated with ferns or pteridosperms. A new genus for "Ilfeldia" robusta Obrhel (1957) and "Ilfeldia" lobecensis Obrhel (1965).
Protofrullania[143]	Gen. et sp. nov	Valid	Heinrichs et al.	Cretaceous (Albian-Cenomanian)	Burmese amber	Myanmar	A liverwort belonging to the family Frullaniaceae. Genus includes new species P. cornigera.
Radula cretacea[144]	Sp. nov	Valid	Bechteler, Renner, Schäfer-Verwimp & Heinrichs in Bechteler et al.	Cretaceous (late Albian or early Cenomanian)	Burmese amber	Myanmar	A species of Radula
Rhabdoxylon taiyuanense[145]	Sp. nov	In press	Ma, Wang & Sun	Early Permian	Taiyuan Formation	China	A fern belonging to the family Botryopteridaceae.
Salvinia bogotensis[146]	Sp. nov	Valid	Pérez-Consuegra et al.	Paleogene		Colombia	A species of Salvinia.
Salvinia magdalenensis[146]	Sp. nov	Valid	Pérez-Consuegra et al.	Paleogene		Colombia	A species of Salvinia.
Sengelia[147]	Gen. et sp. nov	Valid	Matsunaga & Tomescu	Early Devonian	Beartooth Butte Formation	United States ( Wyoming)	A lycophyte. Genus includes new species S. radicans.
Sphenophyllum changxingense[148]	Sp. nov	In press	Huang et al.	Late Devonian	Wutong Formation	China
Tenellisporites antarcticus[149]	Sp. nov	Valid	Cantrill in Cantrill, Ashworth & Lewis	Early Miocene		Antarctica	A lycopod belonging to the group Isoetales described on the basis of megaspores.
Teruelia[150]	Gen. et sp. nov	Valid	Cascales-Miñana & Gerrienne	Devonian (Lochkovian–Pragian)	Nogueras Formation	Spain	An early polysporangiophyte. Genus includes new species T. diezii
Triploporella ? edgelli[151]	Sp. nov	Valid	Maksoud, Granier & Azar	Early Cretaceous (latest Barremian–earliest Aptian)		Lebanon	A green alga belonging to the group Dasycladales.
Wiartonella[152]	Gen. et sp. nov	Valid	LoDuca & Tetreault	Silurian	Eramosa Lagerstätte	Canada ( Ontario)	An alga belonging to the group Dasycladales. Genus includes new species W. nodifera.
Yuhania[153]	Gen. et sp. nov	Valid	Liu & Wang	Middle Jurassic (Callovian)	Jiulongshan Formation	China	Originally described as an early angiosperm; Herendeen et al. (2017) considered the holotype specimen to be inadequately preserved for critical assessment of the relationships of the taxon.[154] Genus includes new species Y. daohugouensis.

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51. Noor-ul-Ain Soomro; Basir Ahmad Arain; Tahir Rajput; Syed Saliha Hassaney (2017). "A new petrified wood Millettioxylon sindhiensis sp. nov. (Fabaceae) from Thanobola Khan, Sindh, Pakistan" (PDF). Pakistan Journal of Botany. 49 (SI): 369–374.
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56. Else Marie Friis; Mário Miguel Mendes; Kaj Raunsgaard Pedersen (2017). "Paisia, an Early Cretaceous eudicot angiosperm flower with pantoporate pollen from Portugal". Grana. in press. doi:10.1080/00173134.2017.1310292.
57. Samar Nour-El-Deen; Romain Thomas; Wagieh El-Saadawi (2017). "First record of fossil Trachycarpeae in Africa: three new species of Palmoxylon from the Oligocene (Rupelian) Gebel Qatrani Formation, Fayum, Egypt". Journal of Systematic Palaeontology. in press. doi:10.1080/14772019.2017.1343258.
58. Oris Rodriguez-Reyes; Peter Gasson; Carolyn Thornton; Howard J. Falcon-Lang; Nathan A. Jud (2017). "Panascleroticoxylon crystallosa gen. et sp. nov.: a new Miocene malpighialean tree from Panama". IAWA Journal. in press. doi:10.1163/22941932-20170178.
59. Nathan A. Jud; Elisabeth A. Wheeler; Gar W. Rothwell; Ruth A. Stockey (2017). "Angiosperm wood from the Upper Cretaceous (Coniacian) of British Columbia, Canada". IAWA Journal. in press. doi:10.1163/22941932-20170164.
60. Raymond Carpenter; Myall Tarran; Bob Hill (2017). "Leaf fossils of Proteaceae subfamily Persoonioideae, tribe Persoonieae: tracing the past of an important Australasian sclerophyll lineage". Australian Systematic Botany. in press.
61. Dashrath Kapgate; Steven R. Manchester; Wolfgang Stuppy (2017). "Oldest fruit of Phyllanthaceae from the Deccan Intertrappean Beds of Singpur, Madhya Pradesh, India". Acta Palaeobotanica. 57 (1): 33–38. doi:10.1515/acpa-2017-0004.
62. Peter Wilf; Mónica R. Carvalho; María A. Gandolfo; N. Rubén Cúneo (2017). "Eocene lantern fruits from Gondwanan Patagonia and the early origins of Solanaceae". Science. 355 (6320): 71–75. doi:10.1126/science.aag2737.
63. Oris Rodríguez-Reyes; Peter Gasson; Howard J. Falcon-Lang; Margaret Collinson (2017). "Fossil legume woods of the Prioria-clade (subfamily Detarioideae) from the lower Miocene (early to mid-Burdigalian) part of the Cucaracha Formation of Panama (Central America) and their systematic and palaeoecological implications". Review of Palaeobotany and Palynology. 246: 44–61. doi:10.1016/j.revpalbo.2017.06.005.
64. Lin-Bo Jia; Yong-Jiang Huang; Hang Sun; Tao Su; Jian Huang; Zhe-Kun Zhou (2017). "First fossil of Pterolobium (Leguminosae) from the Middle Miocene Yunnan, South China". Review of Palaeobotany and Palynology. 242: 21–32. doi:10.1016/j.revpalbo.2017.03.002.
65. P. K. Kathal; Rashmi Srivastava; R. C. Mehrotra; P. O. Alexander (2017). "Rhizopalmoxylon nypoides – a new palm root from the Deccan Intertrappean beds of Sagar, Madhya Pradesh, India". Journal of Earth System Science. 126 (3): Article 35. doi:10.1007/s12040-017-0815-1.
66. Nathan A. Jud; Chris W. Nelson (2017). "A liana from the lower Miocene of Panama and the fossil record of Connaraceae". American Journal of Botany. 104 (5): 685–693. doi:10.3732/ajb.1700080.
67. David R. Greenwood; Christopher K. West (2017). "A fossil coryphoid palm from the Paleocene of western Canada". Review of Palaeobotany and Palynology. 239: 55–65. doi:10.1016/j.revpalbo.2016.12.002.
68. Qiu-Jun Wang; Fu-Jun Ma; Jun-Ling Dong; Chun-Hui Liu; Shuai Liu; Bai-Nian Sun (2017). "New costapalmate palm leaves from the Oligocene Ningming Formation of Guangxi, China, and their biogeographic and palaeoclimatic implications". Historical Biology: An International Journal of Paleobiology. 29 (5): 594–606. doi:10.1080/08912963.2016.1218487.
69. Friðgeir Grímsson; Guido W. Grimm; Reinhard Zetter (2017). "Tiny pollen grains: first evidence of Saururaceae from the Late Cretaceous of western North America". PeerJ. 5: e3434. doi:10.7717/peerj.3434.
70. Xiang-Gang Shi; Qiong-Yao Fu; Jian-Hua Jin; Cheng Quan (2017). "Mummified Oligocene fruits of Schima (Theaceae) and their systematic and biogeographic implications". Scientific Reports. 7: Article number 4009. doi:10.1038/s41598-017-04349-6.
71. Brian A. Atkinson; Ruth A. Stockey; Gar W. Rothwell (2017). "The Early Phylogenetic Diversification of Cornales: Permineralized Cornalean Fruits from the Campanian (Upper Cretaceous) of Western North America". International Journal of Plant Sciences. in press. doi:10.1086/692766.
72. Jing-Yu Wu; Yu-Sheng (Christopher) Liu; Su-Ting Ding; Jun Li; Peng-Cheng An (2017). "Late Pliocene Smilax (Smilacaceae) leaves from Southwest China: Phytogeographical and paleoecological implications". Review of Palaeobotany and Palynology. 241: 26–38. doi:10.1016/j.revpalbo.2017.02.006.
73. George Poinar, Jr.; Finn N. Rasmussen (2017). "Orchids from the past, with a new species in Baltic amber". Botanical Journal of the Linnean Society. 183 (3): 327–333. doi:10.1093/botlinnean/bow018.
74. George O. Poinar, Jr.; Kenton L. Chambers (2017). "Tropidogyne pentaptera, sp. nov., a new mid-Cretaceous fossil angiosperm flower in Burmese amber". Palaeodiversity. 10 (1): 135–140. doi:10.18476/pale.v10.a10.
75. Fu-Jun Ma; Bai-Nian Sun; Qiu-Jun Wang; Jun-Ling Dong; Yi Yang; De-Fei Yan (2017). "A new species of Zelkova (Ulmaceae, Ulmoideae) with leaves and fruits from the Oligocene of South China and its biogeographical implications". Historical Biology: An International Journal of Paleobiology. 29 (1): 1–10. doi:10.1080/08912963.2015.1049538. {{cite journal}}: Unknown parameter |last-author-amp= ignored (|name-list-style= suggested) (help)
76. Zuzana Heřmanová; Jiřina Dašková; Boris Ekrt; Jiří Kvaček (2017). "Zlivifructus gen. nov., a new member of the Normapolles complex". Review of Palaeobotany and Palynology. 246: 177–184. doi:10.1016/j.revpalbo.2017.06.012.
77. Zixi Wang; Fankai Sun; Peihong Jin; Yingquan Chen; Jingwei Chen; Peng Deng; Guolin Yang; Bainian Sun (2017). "A New Species of Ginkgo with Male Cones and Pollen Grains in situ from the Middle Jurassic of Eastern Xinjiang, China". Acta Geologica Sinica (English Edition). 91 (1): 9–21. doi:10.1111/1755-6724.13060.
78. Xiao-Hui Xu; Liu-Yin Yang; Bai-Nian Sun; Yong-Dong Wang; Ping Chen (2017). "A new Early Cretaceous Ginkgo ovulate organ with associated leaves from Inner Mongolia, China and its evolutionary significance". Review of Palaeobotany and Palynology. 244: 163–181. doi:10.1016/j.revpalbo.2017.05.007.
79. Natalya Nosova (2017). "New findings of the female reproductive structures of Nagrenia Nosova (Ginkgoales) and the seeds of Ginkgo gomolitzkyana Nosova from the Middle Jurassic of Angren, Uzbekistan". Review of Palaeobotany and Palynology. 239: 1–13. doi:10.1016/j.revpalbo.2016.11.017.
80. Junji Horiuchi; Kazuhiko Uemura (2017). "Paleocene occurrence of Pseudotorellia Florin (Ginkgoales) from Northeast Japan and the Meso–Cenozoic history of Pseudotorellia and Torellia". Review of Palaeobotany and Palynology. 246: 146–160. doi:10.1016/j.revpalbo.2017.05.011.
81. Gongle Shi; Fabiany Herrera; Patrick S. Herendeen; Andrew B. Leslie; Niiden Ichinnorov; Masamichi Takahashi; Peter R. Crane (2017). "Leaves of Podozamites and Pseudotorellia from the Early Cretaceous of Mongolia: stomatal patterns and implications for relationships". Journal of Systematic Palaeontology. in press. doi:10.1080/14772019.2016.1274343.
82. Heinrich Winterscheid; Rolf Gossmann (2017). "Validation of Cathaya vanderburghii (Pinaceae) from European Neogene". Phytotaxa. 302 (2): 188–192. doi:10.11646/phytotaxa.302.2.9.
83. Daniela P. Ruiz; Mariana Brea; M. Sol Raigemborn; Sergio D. Matheos (2017). "Conifer woods from the Salamanca Formation (early Paleocene), Central Patagonia, Argentina: Paleoenvironmental implications". Journal of South American Earth Sciences. 76: 427–445. doi:10.1016/j.jsames.2017.04.006.
84. R.R. Pujana; M.E. Raffi; E.B. Olivero (2017). "Conifer fossil woods from the Santa Marta Formation (Upper Cretaceous), Brandy Bay, James Ross Island, Antarctica". Cretaceous Research. 77: 28–38. doi:10.1016/j.cretres.2017.04.016.
85. Alexandra Sokolova; Natalia Gordenko; Natalia Zavialova (2017). "The most ancient member of the Sequoioideae – The new genus Krassilovidendron Sokolova, Gordenko et Zavialova (Cupressaceae s.l.) from the Albian–Cenomanian of Western Siberia (Russia)". Cretaceous Research. 77: 1–27. doi:10.1016/j.cretres.2017.04.014.
86. Mingli Wan; Wan Yang; Peng Tang; Lujun Liu; Jun Wang (2017). "Medulloprotaxodioxylon triassicum gen. et sp. nov., a taxodiaceous conifer wood from the Norian (Triassic) of northern Bogda Mountains, northwestern China". Review of Palaeobotany and Palynology. 241: 70–84. doi:10.1016/j.revpalbo.2017.02.009.
87. Ignacio Escapa; Andrew Leslie (2017). "A new Cheirolepidiaceae (Coniferales) from the Early Jurassic of Patagonia (Argentina): Reconciling the records of impression and permineralized fossils". American Journal of Botany. 104 (2): 322–334. doi:10.3732/ajb.1600321.
88. Fabiany Herrera; Gongle Shi; Patrick Knopf; Andrew B. Leslie; Niiden Ichinnorov; Masamichi Takahashi; Peter R. Crane; Patrick S. Herendeen (2017). "Cupressaceae Conifers from the Early Cretaceous of Mongolia". International Journal of Plant Sciences. 178 (1): 19–41. doi:10.1086/689577.
89. Mahasin Ali Khan; Subir Bera (2017). "First discovery of fossil winged seeds of Pinus L. (family Pinaceae) from the Indian Cenozoic and its palaeobiogeographic significance". Journal of Earth System Science. 126 (5): 63. doi:10.1007/s12040-017-0846-7.
90. Hao-Bo Wang; Alexei A. Oskolski; Frédéric M.B. Jacques; Yue-Hua Wang; Zhe-Kun Zhou (2017). "Lignified woods of Pinus (Pinaceae) from the late Miocene of central Yunnan, China, and their biogeographic and paleoclimatic implications". Palaeoworld. in press. doi:10.1016/j.palwor.2016.06.003.
91. Selena Y. Smith; Ruth A. Stockey; Gar W. Rothwell; Stefan A. Little (2017). "A new species of Pityostrobus (Pinaceae) from the Cretaceous of California: moving towards understanding the Cretaceous radiation of Pinaceae". Journal of Systematic Palaeontology. 15 (1): 69–81. doi:10.1080/14772019.2016.1143885.
92. Wenlong He; Liang Xiao; Xiangchuan Li; Shuangxing Guo (2017). "An ancient example of Platycladus (Cupressceae) from the early Miocene of northern China: origin and biogeographical implications". Historical Biology: An International Journal of Paleobiology. in press. doi:10.1080/08912963.2017.1339038.
93. Roberto R. Pujana; Daniela P. Ruiz (2017). "Podocarpoxylon Gothan reviewed in the light of a new species from the Eocene of Patagonia". IAWA Journal. 38 (2): 220–244. doi:10.1163/22941932-20170169.
94. Silvia Gnaedinger; Rodolfo A. Coria; Eva Koppelhus; Silvio Casadío; Maisa Tunik; Philip Currie (2017). "First Lower Cretaceous record of Podocarpaceae wood associated with dinosaur remains from Patagonia, Neuquén Province, Argentina". Cretaceous Research. 78: 228–239. doi:10.1016/j.cretres.2017.06.014.
95. Tao Yang; Li-ying Yi; Jing-wen E; Xiao-rong Guo (2017). "A new species of Scarburgia from Middle Jurassic of Junggar Basin, Xinjiang, China". Global Geology. 36 (2): 327–332. doi:10.3969/j.issn.1004-5589.2017.02.001.
96. Qi-Jia Li; Peng-Cheng An; Jun Li; Zhen-Rui Zhao; Jing-Yu Wu; Yong-Dong Wang; Yu-Ting Zhu; Su-Ting Ding (2017). "Cuticular structure of Storgaardia Harris from the Middle Jurassic of Northwest China and its systematic and biogeographical significances". Palaeoworld. 26 (1): 149–158. doi:10.1016/j.palwor.2016.04.005.
97. Olga A. Orlova; Ksenia G. Pustovoit; Ekaterina V. Anikeeva (2017). "Pteridosperms from the Lower Carboniferous of South Urals, Russia". Plant Systematics and Evolution. 303 (7): 945–955. doi:10.1007/s00606-017-1421-z.
98. Natalya Nosova; Aleksej Vladimirovič Hvalj (2017). "New findings of the seeds Allicospermum Harris (gymnosperms) from the Middle Jurassic of Angren, Uzbekistan". Review of Palaeobotany and Palynology. in press. doi:10.1016/j.revpalbo.2017.08.001.
99. Silvia C. Gnaedinger; Ana M. Zavattieri (2017). "First record of voltzialean male cone (Lutanthus) and podocarpacean female cone (Rissikistrobus) from the Late Triassic of Argentina, including new plant remains from the Paso Flores Formation". Ameghiniana. 54 (2): 224–246. doi:10.5710/AMGH.18.10.2016.2986.
100. Silvia C. Gnaedinger; Ana M. Zavattieri (2017). "A new name for Baiera taeniata Geinitz, Ginkgo taeniata (Geinitz) Frenguelli, and Sphenobaiera taeniata (Geinitz) Morel, Ganuza and Zúñiga". Ameghiniana. 54 (2): 252–254. doi:10.5710/AMGH.18.10.2016.3058.
101. Neeru Prakash; Neelam Das (2017). "First record of microsporophyll genus Caytonanthus Thomas from Early Cretaceous beds of South Rewa Gondwana Basin, India: Its evolutionary and palaeogeographical significance". Island Arc. 26 (1): e12163. doi:10.1111/iar.12163.
102. Stephen McLoughlin; Christian Pott; Ian H. Sobbe (2017). "The diversity of Australian Mesozoic bennettitopsid reproductive organs". Palaeobiodiversity and Palaeoenvironments. in press. doi:10.1007/s12549-017-0286-z.
103. Mingli Wan; Wan Yang; Lujun Liu; Jun Wang (2017). "Ductoagathoxylon jimsarensis gen. nov. et sp. nov., a gymnospermous stem from the Wuchiapingian (upper Permian) Wutonggou Formation in the Junggar Basin, northern Bogda Mountains, northwestern China". Review of Palaeobotany and Palynology. 241: 13–25. doi:10.1016/j.revpalbo.2017.02.004.
104. Mario Coiro; Christian Pott (2017). "Eobowenia gen. nov. from the Early Cretaceous of Patagonia: indication for an early divergence of Bowenia?". BMC Evolutionary Biology. 17: 97. doi:10.1186/s12862-017-0943-x.
105. Gabriela G. Puebla; Ari Iglesias; María A. Gómez; Mercedes B. Prámparo (2017). "Fossil record of Ephedra in the Lower Cretaceous (Aptian), Argentina". Journal of Plant Research. in press. doi:10.1007/s10265-017-0953-1.
106. Rebecca A. Koll; William A. DiMichele; Steven R. Manchester (2017). "Reevaluation and taxonomic clarification of Gigantopteridium and Cathaysiopteris of western equatorial Pangea and their biogeographical significance". Journal of Paleontology. in press. doi:10.1017/jpa.2017.25.
107. Johanna H.A. van Konijnenburg-van Cittert; Evelyn Kustatscher; Christian Pott; Günter Dütsch; Stefan Schmeißner (2017). "First record of the pollen-bearing reproductive organ Hydropterangium from the Rhaetian of Germany (Wüstenwelsberg, Upper Franconia)". Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen. 284 (2): 139–151. doi:10.1127/njgpa/2017/0655.
108. Yong Yang; Long-Biao Lin; David K. Ferguson; Shou-Zhou Zhang; Tao Wan (2017). "A new gnetalean macrofossil from the Early Cretaceous and its evolutionary significance". Cretaceous Research. 74: 56–64. doi:10.1016/j.cretres.2017.02.007.
109. Johanna H.A. van Konijnenburg-van Cittert; Christian Pott; Christopher J. Cleal; Gea Zijlstra (2017). "Differentiation of the fossil leaves assigned to Taeniopteris, Nilssoniopteris and Nilssonia with a comparison to similar genera". Review of Palaeobotany and Palynology. 237: 100–106. doi:10.1016/j.revpalbo.2016.11.009.
110. Xin Wang (2017). "Fossil Plants Possibly Related to Angiosperms". In Xin Wang (ed.). The Dawn Angiosperms. Uncovering the Origin of Flowering Plants. Springer. pp. 259–291. doi:10.1007/978-3-319-58325-9_7. ISBN 978-3-319-58324-2.
111. Grzegorz Pacyna; Maria Barbacka; Danuta Zdebska; Jadwiga Ziaja; Anna Fijałkowska-Mader; Károly Bóka; Tomasz Sulej (2017). "A new conifer from the Upper Triassic of Southern Poland linking the advanced voltzialean type of ovuliferous scale with Brachyphyllum/Pagiophyllum-like leaves". Review of Palaeobotany and Palynology. 245: 28–54. doi:10.1016/j.revpalbo.2017.05.015.
112. Natalya Nosova; Johanna H.A. van Konijnenburg-van Cittert; Anna Kiritchkova (2017). "New data on the epidermal structure of the leaves of Podozamites Braun". Review of Palaeobotany and Palynology. 238: 88–104. doi:10.1016/j.revpalbo.2016.11.005.
113. Wei Huang; David L. Dilcher; Hongshan Wang; Yu-Ling Na; Yun-Feng Li; Tao Li; Chun-Lin Sun (2017). "First record of Sphenarion (Czekanowskiales) with epidermal structures from the Middle Jurassic of Inner Mongolia, China". Palaeoworld. in press. doi:10.1016/j.palwor.2016.05.005.
114. Xiao Shi; Jianxin Yu; Jean Broutin; Denise Pons; Camille Rossignol; Sylvie Bourquin; Sylvie Crasquin; Qiang Li; Wenchao Shu (2017). "Turpanopitys taoshuyuanense gen. et sp. nov., a novel woody branch discovered in Early Triassic deposits of the Turpan Basin, Northwest China, and its palaeoecological and palaeoclimate implications". Palaeogeography, Palaeoclimatology, Palaeoecology. 468: 314–326. doi:10.1016/j.palaeo.2016.12.026.
115. Fabiany Herrera; Gongle Shi; Niiden Ichinnorov; Masamichi Takahashi; Eugenia V. Bugdaeva; Patrick S. Herendeen; Peter R. Crane (2017). "The presumed ginkgophyte Umaltolepis has seed-bearing structures resembling those of Peltaspermales and Umkomasiales". Proceedings of the National Academy of Sciences of the United States of America. 114 (12): E2385–E2391. doi:10.1073/pnas.1621409114.
116. Mingli Wan; Wan Yang; Xuezhi He; Weiming Zhou; Lujun Liu; Jun Wang (2017). "Yangquanoxylon miscellum gen. nov. et sp. nov., a gymnospermous wood from the Upper Pennsylvanian–lower Permian Taiyuan Formation of Yangquan City, Shanxi Province, with reference to the palaeoclimate in North China". Palaeogeography, Palaeoclimatology, Palaeoecology. 479: 115–125. doi:10.1016/j.palaeo.2017.04.022.
117. L.C.A. Martínez; A. Iglesias; A.E. Artabe; A.N. Varela; S. Apesteguía (2017). "A new Encephalarteae trunk (Cycadales) from the Cretaceous of Patagonia (Mata Amarilla Formation, Austral Basin), Argentina". Cretaceous Research. 72: 81–94. doi:10.1016/j.cretres.2016.12.008.
118. Anne-Laure Decombeix; Jean Galtier (2017). "Ahnetia, a new lignophyte stem from the Lower Carboniferous of southern Algeria". Review of Palaeobotany and Palynology. 237: 62–74. doi:10.1016/j.revpalbo.2016.11.003.
119. Christopher J. Cleal; Giovanni G. Scanu; Carla Buosi; Paola Pittau; Evelyn Kustatscher (2017). "Middle Pennsylvanian vegetation of the San Giorgio Basin, southern Sardinia (Italy)". Geological Magazine. in press. doi:10.1017/S0016756816000765.
120. Carmen Álvarez-Vázquez; Robert H. Wagner (2017). "A revision of Annularia and Asterophyllites species from the lower Westphalian (Middle Pennsylvanian) of the Maritime Provinces of Canada". Atlantic Geology. 53: 17–62. doi:10.4138/atlgeol.2017.002.
121. Rodrigo Neregato; Ronny Rößler; Roberto Iannuzzi; Robert Noll; Rosemarie Rohn (2017). "New petrified calamitaleans from the Permian of the Parnaíba Basin, central-North Brazil, part II, and phytogeographic implications for late Paleozoic floras". Review of Palaeobotany and Palynology. 237: 37–61. doi:10.1016/j.revpalbo.2016.11.001.
122. Patricia Vallati; Andrea De Sosa Tomas; Gabriel Casal; Marcos Calo (2017). "Salviniales from the Late Cretaceous of the Golfo San Jorge Basin". Cretaceous Research. 74: 45–55. doi:10.1016/j.cretres.2017.02.004.
123. Petr Kraft; Zlatko Kvaček (2017). "Where the lycophytes come from? – A piece of the story from the Silurian of peri-Gondwana". Gondwana Research. 45: 180–190. doi:10.1016/j.gr.2017.02.001.
124. Bruno R. C. Granier; Ana C. Azerêdo; Miguel M. Ramalho (2017). "Taxonomic revision of Cylindroporella ? lusitanica Ramalho, 1970: In search for the origins of the Family Dasycladaceae". Island Arc. 26 (3): e12176. doi:10.1111/iar.12176.
125. Jana Frojdová; Josef Pšenička; Jiří Bek; Christopher J. Cleal (2017). "Revision of the Pennsylvanian fern Boweria Kidston and the establishment of the new genus Kidstoniopteris". Review of Palaeobotany and Palynology. 236: 33–58. doi:10.1016/j.revpalbo.2016.08.011.
126. Benjamin Bomfleur; Guido W. Grimm; Stephen McLoughlin (2017). "The fossil Osmundales (Royal Ferns)—a phylogenetic network analysis, revised taxonomy, and evolutionary classification of anatomically preserved trunks and rhizomes". PeerJ. 5: e3433. doi:10.7717/peerj.3433.
127. Mário Miguel Mendes; Eduardo Barrón; David J. Batten; João Pais (2017). "A new species of the spore genus Costatoperforosporites from Early Cretaceous deposits in Portugal and its taxonomic and palaeoenvironmental significance". Grana. in press. doi:10.1080/00173134.2016.1269189.
128. Shi-Jun Wang; Richard M. Bateman; Alan R. T. Spencer; Jun Wang; Longyi Shao; Jason Hilton (2017). "Anatomically preserved "strobili" and leaves from the Permian of China (Dorsalistachyaceae, fam. nov.) broaden knowledge of Noeggerathiales and constrain their possible taxonomic affinities". American Journal of Botany. 104 (1): 127–149. doi:10.3732/ajb.1600371.
129. Hong-He Xu; Yao Wang; Peng Tang; Yi Wang (2017). "A new diminutive euphyllophyte from the Middle Devonian of West Junggar, Xinjiang, China and its evolutionary implications". Alcheringa: An Australasian Journal of Palaeontology. in press. doi:10.1080/03115518.2017.1321685.
130. Bruno R.C. Granier; Alexandre Lethiers (2017). "Draconisella mortoni sp. nov., a Mizzia-like Dasycladalean alga from the Lower Cretaceous of Oman". Palaeontologia Electronica. 20 (1): Article number 20.1.6A.
131. Jochen Heinrichs; Kathrin Feldberg; Patrick Müller; Alfons Schäfer-Verwimp; Matt von Konrat; Bork Ilsemann; Michael Krings (2017). "Frullania pinnata spec. nov. (Frullaniaceae, Porellales), a new leafy liverwort in mid-Cretaceous Burmese amber from Myanmar". Cretaceous Research. 78: 56–60. doi:10.1016/j.cretres.2017.05.030.
132. Yuriy S. Mamontov; Jörn Hentschel; Nadezhda A. Konstantinova; Evgeny E. Perkovsky; Michael S. Ignatov (2017). "Hepatics from Rovno amber (Ukraine), 6. Frullania rovnoi, sp. nov". Journal of Bryology. in press. doi:10.1080/03736687.2017.1343220.
133. Cong-Li Xu; Jian Huang; Tao Su; Xian-Chun Zhang; Shu-Feng Li; Zhe-Kun Zhou (2017). "The first megafossil record of Goniophlebium (Polypodiaceae) from the Middle Miocene of Asia and its paleoecological implications". Palaeoworld. in press. doi:10.1016/j.palwor.2017.01.006.
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