“2017 in paleobotany”的意思、由来-开放百科全书

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.

Flowering plants

A member of the subfamily Hippocastanoideae within the family Sapindaceae described on the basis of fossil wood.

A member of Araliales; a replacement name for Araliophyllum MacGinitie (1969).

A species of Aralia; a replacement name for Aralia dubia (Ettingshausen, 1868).

Possibly a relative of Trochodendraceae. Genus includes new species A. verticillata.

A member of Araliales; a new genus for "Araliaecarpum" kolymense Samylina (1960).

A member of Anacardiaceae described on the basis of fossil wood. Genus includes new species B. chiapiasense.

A species of Brassaiopsis; a replacement name for Aralia angustiloba Kolakovsky.

A species of Cinnamomum; a replacement name for Cinnamomum gracile (Geyler, 1877).

A species of Cinnamomum described on the basis of fossil fruits; a replacement name for Cinnamomum apiculatum Saporta (1889).

A species of Cinnamomum; a replacement name for Cinnamomum africanum Engelhardt (1907).

A probable member of Connaraceae described on the basis of fossil wood. Genus includes new species C. dimorphum.

A flowering plant of uncertain phylogenetic placement described on the basis of leaf impressions.

A species of Diospyros; a replacement name for Diospyros dubia Göppert (1854).

A member of Apocynaceae belonging to the subfamily Asclepiadoideae. Genus includes new species D. neotropicus.

A member of the family Annonaceae described on the basis of fossil wood. Genus includes new species D. amazonicum.

A species of Fallopia; a replacement name for Polygonum convolvuloides Conwentz.

A member of Detarioideae described on the basis of fossil wood. Genus includes new species G. palmariensis.

A member of the family Icacinaceae. Genus includes new species I. tainiaphorum.

A flowering plant belonging to an early-diverging eudicot lineage. The type species is Kenilanthus marylandensis.

A member of the family Platanaceae; a new genus for "Celastrinites" kundurensis Golovneva, Sun & Bugdaeva (2008).

A member of the family Ericaceae belonging to the tribe Ericeae. Genus includes new species M. miocaenica.

Originally described as a member of Orchidaceae,^[54] but this interpretation was challenged by Selosse et al. (2017).^[55] Genus includes new species M. elongatus.

A member of Malpighiales of uncertain phylogenetic placement, described on the basis of fossil wood. Genus includes new species P. crystallosa.

A member of Myricaceae; a new genus for "Dryandra" cretacea Velenovský (1883). Genus also includes "Dryandra" yakovlevii Palibin (1930) and "Aspleniopteris" schrankii Sternberg (1825).

A member of Detarioideae described on the basis of fossil wood. Genus includes new species P. concordiensis.

A member of the family Passifloraceae. Genus includes new species P. sogamosense.

Mistri, Kapgate & Sheikh ex Kapgate & Manchester in Kapgate, Manchester & Stuppy

A member of Phyllanthaceae described on the basis of fossil fruit. Genus includes new species P. singpurensis.

A species of Platanus; a replacement name for Aralia serrata Knowlton (1917).

A species of Polygonum; a replacement name for Polygonum reticulatum Dorofeev.

A species of Rubus; a replacement name for Rubus acutiformis Chandler (1925).

A species of Rubus; a replacement name for Rubus alnifolius Fotjanova (1988).

A member of Laurales of uncertain phylogenetic placement. Genus includes new species S. dolichostemon, S. brachystemon and S. parvus.

A member of Cornales of uncertain phylogenetic placement. Genus includes new species S. vancouverensis.

A species of Typha described on the basis of fossil seeds; a replacement name for Typha elongata Dorofeev (1982).

A species of Typha described on the basis of fossil seeds previously attributed to the species Typha latissima.

A species of Typha described on the basis of fossil seeds; a replacement name for Typha elliptica Negru (1972).

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

Pinales

A conifer described on the basis of fossil wood, possibly an ancestral form of the Sequoioideae. Genus includes new species M. triassicum.

A pine. The name P. arunachalensis turned out to be preoccupied by Pinus arunachalensis Srivastava (2017); Khan & Bera (2018) coined a replacement name Pinus daflaensis.^[102]

A member of Cupressaceae. Genus includes new species S. foliatus, as well as "Cyparissidium" bohemicum Bayer (1914).^[111]

Other seed plants

A conifer described on the basis of fossilized wood. Genus includes new species D. jimsarensis.

A cycad belonging to the family Zamiaceae and the subfamily Bowenioideae; a new genus for "Almargemia" incrassata Archangelsky (1966).

A seed fern belonging to the family Callistophytaceae. Genus includes new species K. flexuosa .

A member of Gnetophyta showing intermediate morphology between the Ephedraceae, Gnetaceae and Welwitschiaceae. Genus includes new species L. decussata.

A possible relative of the flowering plants. Genus includes new species N. triassica.

A member of Voltziales belonging to the new family Patokaeaceae. Genus includes new species P. silesiaca.

A conifer belonging to the family Podozamitaceae, described on the basis of leaves.

A member of Coniferophyta of uncertain phylogenetic placement. Genus includes new species T. taoshuyuanense.

A member of Vladimariales (a group of seed plants of uncertain phylogenetic placement).

A gymnosperm described on the basis of fossil wood. Genus includes new species Y. miscellum.

A cycad belonging to the family Zamiaceae. Genus includes new species Z. amyla.

Other plants

A green alga, probably a primitive member of the family Dasycladaceae; a new genus for "Cylindroporella" lusitanica Ramalho (1970).

A member of the family Osmundaceae; a replacement name for Ashicaulis claytoniites Cheng (2011).

A liverwort belonging to the family Conocephalaceae. Genus includes new species C. hexagonites.

A member of Lycopsida belonging to the group Isoetales. Genus includes new species C. irvingii.

A green alga belonging to the group Dasycladales and the family Triploporellaceae.

A plant of uncertain phylogenetic placement, described on the basis of rounded or slightly elongated discs bearing a system of dark strokes. Genus includes new species E. multistriatus.

A plant of uncertain phylogenetic placement, probably a bryophyte, described on the basis of oval or egg-shaped sheets formed by two systems of cells. Genus includes new species H. dvinensis.

A plant of uncertain phylogenetic placement; may be affiliated with ferns or pteridosperms.

A leptosporangiate fern belonging to the group Filicales; a new genus for "Boweria" minor Kidston (1923).

A moss belonging to the family Polytrichaceae. Genus includes new species M. alophosioides.

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).

A liverwort belonging to the family Pelliaceae. Genus includes new species P. latithallus.

A liverwort belonging to the family Frullaniaceae. Genus includes new species P. cornigera.

A lycopod belonging to the group Isoetales described on the basis of megaspores.

A putative land plant, possibly a member of Rhyniales. Genus includes new species V. primitiva.

An alga belonging to the group Dasycladales. Genus includes new species W. nodifera.

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.^[181] Genus includes new species Y. daohugouensis.

General research

References

1. ^{{Cite journal|author1=Yunfa Chen |author2=William Oki Wong |author3=Qian Hu |author4=Yongqing Liufu |author5=Zhiming Xie |year=2017 |title=A new fossil-species of Acer (Sapindaceae) from the Ningming Basin in Guangxi, South China |journal=Phytotaxa |volume=298 |issue=2 |pages=158–164 |doi=10.11646/phytotaxa.298.2.5 }}
2. ^¹²³{{Cite journal|author1=Stănilă Iamandei |author2=Eugenia Iamandei |year=2017 |title=New trees identified in the Petrified Forest of Middle Miocene from Zarand, Apuseni Mountains, Romania |journal=Acta Palaeontologica Romaniae |volume=13 |issue=2 |pages=37–90 |url=http://www.geo-paleontologica.org/actapalrom/APR_v_13_2/Iamandei_Iamandei_Zarand.pdf }}
3. ^{{Cite journal|author1=Mariana Brea |author2=Alejandro F. Zucol |author3=M. Susana Bargo |author4=Juan Carlos Fernicola |author5=Sergio F. Vizcaíno |year=2017 |title=First Miocene record of Akaniaceae in Patagonia (Argentina): a fossil wood from the early Miocene Santa Cruz formation and its palaeobiogeographical implications |journal=Botanical Journal of the Linnean Society |volume=183 |issue=3 |pages=334–347 |doi=10.1093/botlinnean/bow014 }}
4. ^{{Cite journal|author1=Fu-Jun Ma |author2=Song Liu |author3=Bai-Nian Sun |author4=De-Fei Yan |author5=Jun-Ling Dong |author6=Feng-Tai Zhang |author7=Qiu-Jun Wang |year=2017 |title=Legume fruits from the Oligocene Ningming Formation of Guangxi, China, and their biogeographical and palaeoclimatic implications |journal=Review of Palaeobotany and Palynology |volume=244 |pages=192–202 |doi=10.1016/j.revpalbo.2017.05.009 }}
5. ^{{Cite journal|author1=Andrew C. Rozefelds |author2=Mary E. Dettmann |author3=H. Trevor Clifford |author4=Merrick Ekins |year=2017 |title=An Australian origin for the candle nut (Aleurites, Crotonoideae, Euphorbiaceae) and the fossil record of the Euphorbiaceae and related families in Australia and New Zealand |journal=Review of Palaeobotany and Palynology |volume=241 |pages=39–48 |doi=10.1016/j.revpalbo.2017.01.006 |url=http://espace.library.uq.edu.au/view/UQ:504314/UQ504314_OA.pdf |type=Submitted manuscript }}
6. ^¹²{{Cite journal|author=Alexander B. Doweld |year=2017 |title=Allopanax and Boreopanax, New Names of Fossil Araliales |journal=Annales Botanici Fennici |volume=54 |issue=4–6 |pages=263–266 |doi=10.5735/085.054.0608 }}
7. ^{{Cite journal|author1=Wagieh E. El-Saadawi |author2=Nermeen A. Ziada |author3=Marwa W. El-Faramawi |author4=Marwah M. Kamal El-Din |author5=Mohamed H.A. Loutfy |year=2017 |title=The Cairo Petrified Forest revisited |journal=Review of Palaeobotany and Palynology |volume=238 |pages=34–42 |doi=10.1016/j.revpalbo.2016.12.001 }}
8. ^¹²³⁴⁵⁶⁷{{Cite journal|last=Jud|first=Nathan A.|last2=Dunham|first2=Jeremy I|date=2017-06-09|title=Fossil woods from the Cenozoic of Panama (Azuero Peninsula) reveal an ancient neotropical rainforest|url=https://brill.com/abstract/journals/iawa/38/3/article-p366_4.xml|journal=IAWA Journal|language=en|volume=38|issue=3|pages=366–S2|doi=10.1163/22941932-20170176|issn=2294-1932|via=}}
9. ^¹²³⁴⁵{{Cite journal|author=Alexander B. Doweld |year=2017 |title=New names in Aralia (Araliaceae), living and fossil |journal=Phytotaxa |volume=297 |issue=1 |pages=62–70 |doi=10.11646/phytotaxa.297.1.6 }}
10. ^¹²{{Cite journal|author1=Eva-Maria Sadowski |author2=Leyla J. Seyfullah |author3=Carol A. Wilson |author4=Clyde L. Calvin |author5=Alexander R. Schmidt |year=2017 |title=Diverse early dwarf mistletoes (Arceuthobium), ecological keystones of the Eocene Baltic amber biota |journal=American Journal of Botany |volume=104 |issue=5 |pages=694–718 |doi=10.3732/ajb.1600390 |pmid=28533204 }}
11. ^¹{{Cite journal|author1=Masamichi Takahashi |author2=Patrick S. Herendeen |author3=Xianghui Xiao |year=2017 |title=Two early eudicot fossil flowers from the Kamikitaba assemblage (Coniacian, Late Cretaceous) in northeastern Japan |journal=Journal of Plant Research |volume=130 |issue=5 |pages=809–826 |doi=10.1007/s10265-017-0945-1 |pmid=28497291 }}
12. ^{{Cite journal|author1=Masamichi Takahashi |author2=Patrick S. Herendeen |author3=Xianghui Xiao |year=2017 |title=Erratum to: Two early eudicot fossil flowers from the Kamikitaba assemblage (Coniacian, Late Cretaceous) in northeastern Japan |journal=Journal of Plant Research |volume=130 |issue=5 |pages=827 |doi=10.1007/s10265-017-0957-x |pmid=28593530 }}
13. ^¹²³⁴⁵⁶⁷⁸⁹¹⁰{{Cite journal|author1=D.W. Woodcock |author2=H.W. Meyer |author3=Y. Prado |year=2017 |title=The Piedra Chamana fossil woods (Eocene, Peru) |journal=IAWA Journal |volume=38 |issue=3 |pages=313–365 |doi=10.1163/22941932-20170175 }}
14. ^{{Cite journal|author1=R. Soledad Ramos |author2=Mariana Brea |author3=Daniela Kröhling |year=2017 |title=Malvaceous wood from the Late Pleistocene El Palmar Formation of northeastern Argentina |journal=Review of Palaeobotany and Palynology |volume=246 |pages=232–241 |doi=10.1016/j.revpalbo.2017.07.004 }}
15. ^{{Cite journal|author1=N. I. Blokhina |author2=O. V. Bondarenko |year=2017 |title=Fossil wood of Betula erkovetskiensis sp. nov. (Betulaceae) from the Miocene of the Erkovetskii Brown Coal Field, Amur Region, Russia |journal=Paleontological Journal |volume=51 |issue=4 |pages=441–452 |doi=10.1134/S0031030117040049 |url=https://elibrary.ru/item.asp?id=29762025 }}
16. ^{{Cite journal|author1=Diana K. Pérez-Lara |author2=Carlos Castañeda-Posadas |author3=Emilio Estrada-Ruiz |year=2017 |title=A new genus of Anacardiaceae fossil wood from El Bosque Formation (Eocene), Chiapas, Mexico |journal=IAWA Journal |volume=38 |issue=4 |pages=543–552 |doi=10.1163/22941932-20170179 }}
17. ^¹{{Cite journal|author1=Lilla Hably |author2=Barbara Meller |year=2017 |title=Sarmatian wetlands at the NW margin of the Pannonian Basin system (Gratkorn, Styrian Basin, Austria, late middle Miocene). Part 1. The leaf record |journal=Palaeontographica Abteilung B |volume=295 |issue=4–6 |pages=135–165 |doi=10.1127/palb/295/2017/135 }}
18. ^{{Cite journal|author1=Mahasin A. Khan |author2=Robert A. Spicer |author3=Teresa E. V. Spicer |author4=Subir Bera |year=2017 |title=Evidence for diversification of Calophyllum L. (Calophyllaceae) in the Neogene Siwalik forests of eastern Himalaya |journal=Plant Systematics and Evolution |volume=303 |issue=3 |pages=371–386 |doi=10.1007/s00606-016-1376-5 }}
19. ^¹²³⁴⁵⁶⁷{{Cite journal|author=Rafał Kowalski |year=2017 |title=Miocene carpological floras of the Konin region (Central Poland) |journal=Acta Palaeobotanica |volume=57 |issue=1 |pages=39–100 |doi=10.1515/acpa-2017-0007 }}
20. ^{{Cite journal|author=George Poinar Jr. |year=2017 |title=A mid-Cretaceous Lauraceae flower, Cascolaurus burmitis gen. et sp. nov., in Myanmar amber |journal=Cretaceous Research |volume=71 |pages=96–101 |doi=10.1016/j.cretres.2016.11.015 }}
21. ^{{Cite journal|author1=María A. Gandolfo |author2=Elizabeth J. Hermsen |year=2017 |title=Ceratopetalum (Cunoniaceae) fruits of Australasian affinity from the early Eocene Laguna del Hunco flora, Patagonia, Argentina |journal=Annals of Botany |volume=119 |issue=4 |pages=507–516 |doi=10.1093/aob/mcw283 |pmid=28110267 |pmc=5571373 }}
22. ^{{Cite journal|author=M.A. Afonin |year=2017 |title=First record of Chadronoxylon fossil wood (Angiospermae, Dicotyledones) from Russia |journal=Paleontological Journal |volume=51 |issue=5 |pages=556–561 |doi=10.1134/S0031030117050021 |url=https://elibrary.ru/item.asp?id=29963115 }}
23. ^{{Cite journal|author1=Yongqing Liufu |author2=Yunfa Chen |author3=Hongshan Wang |year=2017 |title=A new species of Chaneya from the Oligocene Ningming Formation, Guangxi, South China |journal=Review of Palaeobotany and Palynology |volume=244 |pages=148–152 |doi=10.1016/j.revpalbo.2017.05.005 }}
24. ^{{Cite journal|author1=Qiong-Yao Fu |author2=Long Li |author3=Jian-Hua Jin |author4=Xiao-Yan Liu |author5=Cheng Quan |year=2017 |title=Mummified fruits of Choerospondias nanningensis sp. nov. (Anacardiaceae) from the Upper Oligocene of a low latitude site in East Asia |journal=Journal of Systematics and Evolution |volume=55 |issue=5 |pages=477–483 |doi=10.1111/jse.12255 }}
25. ^¹²³{{Cite journal|author=Alexander B. Doweld |year=2017 |title=New names in Cinnamomoides, Cinnamomum and Neolitsea (Lauraceae), and Pterospermum (Malvaceae), fossil and living |journal=Phytotaxa |volume=326 |issue=3 |pages=189–201 |doi=10.11646/phytotaxa.326.3.3 }}
26. ^{{Cite journal|author1=Xiao-Qing Liang |author2=Ping Lu |author3=Achyut Tiwari |author4=Tao Su |author5=Zhe-Kun Zhou |year=2017 |title=New fossil record of Cladium (Cyperaceae) from the Middle Miocene of Zhenyuan, SW China, and the palaeobiogeographical history of the genus |journal=Review of Palaeobotany and Palynology |volume=237 |pages=1–9 |doi=10.1016/j.revpalbo.2016.10.006 }}
27. ^{{Cite journal|author1=Pieter Baas |author2=Steven R. Manchester |author3=Elisabeth A. Wheeler |author4=Rashmi Srivastava |year=2017 |title=Fossil wood with dimorphic fibers from the Deccan Intertrappean Beds of India – the oldest fossil Connaraceae? |journal=IAWA Journal |volume=38 |issue=1 |pages=124–133 |doi=10.1163/22941932-20170162 }}
28. ^{{Cite journal|author1=Mohamed I.A. Ibrahim |author2=Mohamed K. Zobaa |author3=Zainab M. El–Noamani |author4=Sameh S. Tahoun |year=2017 |title=A review of the angiosperm pollen genus Cretacaeiporites Herngreen, with one new species from the Upper Cretaceous of Egypt |journal=Palynology |volume=41 |issue=1 |pages=101–116 |doi=10.1080/01916122.2015.1093561 }}
29. ^{{Cite journal|author1=Jing-Yu Wu |author2=Peter Wilf |author3=Su-Ting Ding |author4=Peng-Cheng An |author5=Jing Dai |year=2017 |title=Late Miocene Cyclocarya (Juglandaceae) from Southwest China and Its Biogeographic Implications |journal=International Journal of Plant Sciences |volume=178 |issue=7 |pages=580–591 |doi=10.1086/692765 }}
30. ^{{Cite journal|author1=Zlatko Kvaček |author2=Miroslav Bubík |year=2017 |title=A new Oligocene leaf assemblage from the Ghalandar area (NW Iran) and its contribution to understanding of floristic evolution in the eastern Paratethys |journal=Bulletin of Geosciences |volume=91 |issue=4 |pages=705–715 |doi=10.3140/bull.geosci.1624 }}
31. ^¹{{Cite journal|author=Alexander B. Doweld |year=2017 |title=Actinodaphne notabilis, Berberis yingii, Diospyros communis, Rosa miopannonica, and Symplocos ecuadorica, new replacement names for the homonyms of fossils |journal=Phytotaxa |volume=329 |issue=2 |pages=180–184 |doi=10.11646/phytotaxa.329.2.9 }}
32. ^¹²³⁴{{cite journal |author1=M. Prasad |author2=Alok |author3=D. K. Chauhan |author4=S. K. Singh |author5=S. M. Pandey |year=2017 |title=Middle Miocene (Siwalik) plant megafossils from the Sub-Himalayan Zone of Uttarakhand and their palaeoclimatic implications |journal=Journal of the Palaeontological Society of India |volume=62 |issue=1 |pages=97–120 |url=http://palaeontologicalsociety.in/2018/Print%20pdf%20of%20PSI%20Journal%2062(1)/8.%20M.%20Prasad.pdf }}
33. ^{{Cite journal|author=George O. Poinar, Jr. |year=2017 |title=Ancient Termite Pollinator of Milkweed Flowers in Dominican Amber |journal=American Entomologist |volume=63 |issue=1 |pages=52–56 |doi=10.1093/ae/tmx011 }}
34. ^{{Cite journal|author1=Emilio Alberto Amaral Soares |author2=Adriana Cabral Kloster |author3=Silvia Cristina Gnaedinger |author4=Silvio Roberto Riker |author5=Felipe José da Cruz Lima |author6=Marcelo Batista Motta |year=2017 |title=First record of Annonaceae wood for the Neogene of South America, Amazon Basin, Brazil |journal=Brazilian Journal of Geology |volume=47 |issue=1 |pages=95–108 |doi=10.1590/2317-4889201720160085 }}
35. ^{{Cite journal|author1=Jian Huang |author2=Gong-Le Shi |author3=Tao Su |author4=Zhe-Kun Zhou |year=2017 |title=Miocene Exbucklandia (Hamamelidaceae) from Yunnan, China: Revelation of its biogeography and palaeoecology |journal=Review of Palaeobotany and Palynology |volume=244 |pages=96–106 |doi=10.1016/j.revpalbo.2016.10.004 }}
36. ^¹²³{{Cite journal|author=Alexander B. Doweld |year=2017 |title=New names in Fallopia, Persicarioipollis, Polygonum and Reynoutria (Polygonaceae), living and fossil |journal=Phytotaxa |volume=308 |issue=1 |pages=66–79 |doi=10.11646/phytotaxa.308.1.5 }}
37. ^¹{{Cite journal|author=Eckart Schrank |year=2017 |title=Palynology of the Albian Makhtesh Qatan site, northern Negev (Israel), with descriptions of two new pollen species |journal=Review of Palaeobotany and Palynology |volume=246 |pages=185–215 |doi=10.1016/j.revpalbo.2017.06.007 }}
38. ^{{Cite journal|author=Alexander B. Doweld |year=2017 |title=New names of fossil Atadinus, Endotropis and Frangula (Rhamnaceae) |journal=Phytotaxa |volume=321 |issue=2 |pages=194–200 |doi=10.11646/phytotaxa.321.2.4 }}
39. ^¹{{Cite journal|author1=R. Soledad Ramos |author2=Mariana Brea |author3=Daniela M. Kröhling |year=2017 |title=Fossil woods of Detarioideae subfamily (Fabaceae) from El Palmar Formation (Late Pleistocene) in South America |journal=Journal of South American Earth Sciences |volume=79 |pages=202–214 |doi=10.1016/j.jsames.2017.08.006 }}
40. ^{{Cite journal|author1=Cédric Del Rio |author2=Thomas Haevermans |author3=Dario De Franceschi |year=2017 |title=First record of an Icacinaceae Miers fossil flower from Le Quesnoy (Ypresian, France) amber |journal=Scientific Reports |volume=7 |issue=1 |pages=Article number 11099 |doi=10.1038/s41598-017-11536-y |pmid=28894196 |pmc=5593952 }}
41. ^{{Cite journal|author1=Thomas Denk |author2=Tuncay H. Güner |author3=Zlatko Kvaček |author4=Johannes M. Bouchal |year=2017 |title=The early Miocene flora of Güvem (Central Anatolia, Turkey): a window into early Neogene vegetation and environments in the Eastern Mediterranean |journal=Acta Palaeobotanica |volume=57 |issue=2 |pages=237–338 |doi=10.1515/acpa-2017-0011 }}
42. ^¹²³⁴{{cite journal |author1=L. B. Golovneva |author2=P. I. Alekseev |year=2017 |title=Taxonomy and morphological diversity of infructescences Jenkinsella co-occurred with Trochodendroides leaves in the Cretaceous and Paleogene |journal=Paleobotanika |volume=8 |pages=92–121 |url=https://www.researchgate.net/publication/322887825 }}
43. ^{{Cite journal|author1=Else Marie Friis |authorlink=Else Marie Friis |author2=Kaj Raunsgaard Pedersen |author3=Peter R. Crane |year=2017 |title=Kenilanthus, a new eudicot flower with tricolpate pollen from the Early Cretaceous (early-middle Albian) of eastern North America |journal=Grana |volume=56 |issue=3 |pages=161–173 |doi=10.1080/00173134.2016.1158863 }}
44. ^{{Cite journal|author1=T. M. Kodrul |author2=N. P. Maslova |year=2017 |title='Kunduriphyllum kundurense gen. et comb. nov. (Platanaceae) and associated reproductive structures from the Campanian of the Amur Region, Russia |journal=Paleontological Journal |volume=51 |issue=14 |pages=1584–1596 |doi=10.1134/S0031030117140027 }}
45. ^{{Cite journal|author1=N. Soomro |author2=N. S. Jillani |author3=S. T. Quereshi |author4=J. U. Mangi |author5=B. A. Arain |author6=M. T. Rajput |year=2017 |title=Discovery of Miocene wood from Manchar Formation, Lagerstroemioxylon thanobolensis sp. nov. of family Lythraceae, Thanobola khan District Jamshoro, Sindh, Pakistan |journal=Sindh University Research Journal (Science Series) |volume=49 |issue=3 |pages=557–562 |url=http://sujo.usindh.edu.pk/index.php/SURJ/article/view/3628 }}
46. ^{{Cite journal|author1=Adriana Kloster |author2=Silvia Gnaedinger |author3=Karen Adami-Rodrigues |year=2017 |title=Nuevos registros de maderas del Mioceno de la Formación Solimões, Cuenca de Acre, Amazonia, Brasil |journal=Revista Brasileira de Paleontologia |volume=20 |issue=3 |pages=383–404 |doi=10.4072/rbp.2017.3.09 }}
47. ^{{Cite journal|author1=Zixi Wang |author2=Bainian Sun |author3=Peihong Jin |author4=Peng Deng |author5=Jingwei Chen |author6=Fankai Sun |year=2017 |title=A new species of Macaranga from the middle Miocene of Fujian, China and its significance |journal=Historical Biology: An International Journal of Paleobiology |volume=29 |issue=6 |pages=743–754 |doi=10.1080/08912963.2016.1236374 }}
48. ^{{Cite journal|author1=Qian Hu |author2=Jian Huang |author3=Yun-Fa Chen |author4=Steven R. Manchester |year=2017 |title=Mahonia fossils from the Oligocene of South China: Taxonomic and biogeographic implications |journal=Palaeoworld |volume=26 |issue=4 |pages=691–698 |doi=10.1016/j.palwor.2017.03.004 }}
49. ^{{Cite journal|author1=Rafał Kowalski |author2=Jaime Fagúndez |year=2017 |title=Maiella miocaenica gen. et sp. nov., a New Heather Genus (Ericeae, Ericaceae) from the Central European Miocene |journal=International Journal of Plant Sciences |volume=178 |issue=5 |pages=411–420 |doi=10.1086/691461 }}
50. ^{{Cite journal|author1=Chris W. Nelson |author2=Nathan A. Jud |year=2017 |title=Biogeographic Implications of Mammea paramericana sp. nov. from the Lower Miocene of Panama and the Evolution of Calophyllaceae |journal=International Journal of Plant Sciences |volume=178 |issue=3 |pages=241–257 |doi=10.1086/689618 }}
51. ^¹{{Cite journal|author1=Mahasin Ali Khan |author2=Meghma Bera |author3=Robert A. Spicer |author4=Teresa E.V. Spicer |author5=Subir Bera |year=2017 |title=First occurrence of mastixioid (Cornaceae) fossil in India and its biogeographic implications |journal=Review of Palaeobotany and Palynology |volume=247 |pages=83–96 |doi=10.1016/j.revpalbo.2017.08.006 |url=http://oro.open.ac.uk/53844/1/53844.pdf |type=Submitted manuscript }}
52. ^¹{{Cite journal|author1=Myall Tarran |author2=Peter G. Wilson |author3=Michael K. Macphail |author4=Greg J. Jordan |author5=Robert S. Hill |year=2017 |title=Two fossil species of Metrosideros (Myrtaceae) from the Oligo-Miocene Golden Fleece locality in Tasmania, Australia |journal=American Journal of Botany |volume=104 |issue=6 |pages=891–904 |doi=10.3732/ajb.1700095 |pmid=28634257 }}
53. ^{{Cite journal|author1=Noor-ul-Ain Soomro |author2=Basir Ahmad Arain |author3=Tahir Rajput |author4=Syed Saliha Hassaney |year=2017 |title=A new petrified wood Millettioxylon sindhiensis sp. nov. (Fabaceae) from Thanobola Khan, Sindh, Pakistan |journal=Pakistan Journal of Botany |volume=49 |issue=SI |pages=369–374 |url=http://pakbs.org/pjbot/papers/1496529837.pdf }}
54. ^¹{{Cite journal|author=George Poinar Jr. |year=2017 |title=Two new genera, Mycophoris gen. nov., (Orchidaceae) and Synaptomitus gen. nov. (Basidiomycota) based on a fossil seed with developing embryo and associated fungus in Dominican amber |journal=Botany |volume=95 |issue=1 |pages=1–8 |doi=10.1139/cjb-2016-0118 }}
55. ^{{Cite journal|author1=Marc-Andre Selosse |author2=Mark Brundrett |author3=John Dearnaley |author4=Vincent S.F.T. Merckx |author5=Finn Rasmussen |author6=Lawrence W. Zettler |author7=Hanne N. Rasmussen |year=2017 |title=Why Mycophoris is not an orchid seedling, and why Synaptomitus is not a fungal symbiont within this fossil |journal=Botany |volume=95 |issue=9 |pages=865–868 |doi=10.1139/cjb-2017-0038 }}
56. ^¹{{Cite journal|author1=Nathan A. Jud |author2=Maria A. Gandolfo |author3=Ari Iglesias |author4=Peter Wilf |year=2017 |title=Flowering after disaster: Early Danian buckthorn (Rhamnaceae) flowers and leaves from Patagonia |journal=PLoS ONE |volume=12 |issue=5 |pages=e0176164 |doi=10.1371/journal.pone.0176164 |pmid=28489895 |pmc=5425202 }}
57. ^{{Cite journal|author1=Gang Han |author2=Zhongjian Liu |author3=Xin Wang |year=2017 |title=A Dichocarpum-like Angiosperm from the Early Cretaceous of China |journal=Acta Geologica Sinica (English Edition) |volume=91 |issue=1 |pages=1–8 |url=http://www.geojournals.cn/dzxben/ch/reader/view_abstract.aspx?file_no=201701003&flag=1 |doi=10.1111/1755-6724.13059 }}
58. ^{{Cite journal|author1=Else M. Friis |author2=Ari Iglesias |author3=Marcelo A. Reguero |author4=Thomas Mörs |year=2017 |title=Notonuphar antarctica, an extinct water lily (Nymphaeales) from the Eocene of Antarctica |journal=Plant Systematics and Evolution |volume=303 |issue=7 |pages=969–980 |doi=10.1007/s00606-017-1422-y }}
59. ^{{Cite journal|author1=Oris Rodriguez-Reyes |author2=Peter Gasson |author3=Carolyn Thornton |author4=Howard J. Falcon-Lang |author5=Nathan A. Jud |year=2017 |title=Panascleroticoxylon crystallosa gen. et sp. nov.: a new Miocene malpighialean tree from Panama |journal=IAWA Journal |volume=38 |issue=4 |pages=437–455 |doi=10.1163/22941932-20170178 }}
60. ^{{Cite journal|author=Alexander B. Doweld |year=2017 |title=On the nomenclature of fossil Aspleniopteris, Carpinicarpus, Comptonia, Comptoniphyllum and Dryandrophyllum (Myricaceae) |journal=Acta Palaeobotanica |volume=57 |issue=2 |pages=223–232 |doi=10.1515/acpa-2017-0009 }}
61. ^{{Cite journal|author1=Nathan A. Jud |author2=Elisabeth A. Wheeler |author3=Gar W. Rothwell |author4=Ruth A. Stockey |year=2017 |title=Angiosperm wood from the Upper Cretaceous (Coniacian) of British Columbia, Canada |journal=IAWA Journal |volume=38 |issue=2 |pages=141–161 |doi=10.1163/22941932-20170164 }}
62. ^{{Cite journal|author=Camila Martínez |year=2017 |title=Passifloraceae seeds from the late Eocene of Colombia |journal=American Journal of Botany |volume=104 |issue=12 |pages=1857–1866 |doi=10.3732/ajb.1700224 |pmid=29212767 }}
63. ^{{Cite journal|author=Sarah E. Allen |year=2017 |title=Reconstructing the local vegetation and seasonality of the Lower Eocene Blue Rim Site of southwestern Wyoming using fossil wood |journal=International Journal of Plant Sciences |volume=178 |issue=9 |pages=689–714 |doi=10.1086/694186 }}
64. ^{{Cite journal|author1=Raymond Carpenter |author2=Myall Tarran |author3=Bob Hill |year=2017 |title=Leaf fossils of Proteaceae subfamily Persoonioideae, tribe Persoonieae: tracing the past of an important Australasian sclerophyll lineage |journal=Australian Systematic Botany |volume=30 |issue=2 |pages=148–158 |url=http://www.publish.csiro.au/SB/SB16045 |doi=10.1071/SB16045 }}
65. ^{{Cite journal|author1=Dashrath Kapgate |author2=Steven R. Manchester |author3=Wolfgang Stuppy |year=2017 |title=Oldest fruit of Phyllanthaceae from the Deccan Intertrappean Beds of Singpur, Madhya Pradesh, India |journal=Acta Palaeobotanica |volume=57 |issue=1 |pages=33–38 |doi=10.1515/acpa-2017-0004 }}
66. ^{{Cite journal|author1=Peter Wilf |author2=Mónica R. Carvalho |author3=María A. Gandolfo |author4=N. Rubén Cúneo |year=2017 |title=Eocene lantern fruits from Gondwanan Patagonia and the early origins of Solanaceae |journal=Science |volume=355 |issue=6320 |pages=71–75 |doi=10.1126/science.aag2737 |pmid=28059765 }}
67. ^{{Cite journal|author=Alexander B. Doweld |year=2017 |title=Nomenclatural novelties and taxonomic changes for extant and fossil Populus (Salicaceae) |journal=Kew Bulletin |volume=72 |issue=3 |pages=Article 46 |doi=10.1007/s12225-017-9718-1 }}
68. ^¹{{Cite journal|author1=Oris Rodríguez-Reyes |author2=Peter Gasson |author3=Howard J. Falcon-Lang |author4=Margaret Collinson |year=2017 |title=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 |journal=Review of Palaeobotany and Palynology |volume=246 |pages=44–61 |doi=10.1016/j.revpalbo.2017.06.005 }}
69. ^{{Cite journal|author1=Friđgeir Grímsson |author2=Alexandros Xafis |author3=Frank H. Neumann |author4=Reinhard Zetter |year=2017 |title=Pollen morphology of extant Winteraceae: a study allowing SEM-based affiliation of its fossil representatives |journal=Acta Palaeobotanica |volume=57 |issue=2 |pages=339–396 |doi=10.1515/acpa-2017-0015 }}
70. ^{{Cite journal|author1=Lin-Bo Jia |author2=Yong-Jiang Huang |author3=Hang Sun |author4=Tao Su |author5=Jian Huang |author6=Zhe-Kun Zhou |year=2017 |title=First fossil of Pterolobium (Leguminosae) from the Middle Miocene Yunnan, South China |journal=Review of Palaeobotany and Palynology |volume=242 |pages=21–32 |doi=10.1016/j.revpalbo.2017.03.002 }}
71. ^{{Cite journal|author1=P. K. Kathal |author2=Rashmi Srivastava |author3=R. C. Mehrotra |author4=P. O. Alexander |year=2017 |title=Rhizopalmoxylon nypoides – a new palm root from the Deccan Intertrappean beds of Sagar, Madhya Pradesh, India |journal=Journal of Earth System Science |volume=126 |issue=3 |pages=Article 35 |doi=10.1007/s12040-017-0815-1 }}
72. ^{{Cite journal|author1=Nathan A. Jud |author2=Chris W. Nelson |year=2017 |title=A liana from the lower Miocene of Panama and the fossil record of Connaraceae |journal=American Journal of Botany |volume=104 |issue=5 |pages=685–693 |doi=10.3732/ajb.1700080 |pmid=28500228 }}
73. ^¹²³⁴⁵⁶{{Cite journal|author=Alexander B. Doweld |year=2017 |title=New names of fossil Rubus (Rosaceae) |journal=Phytotaxa |volume=326 |issue=4 |pages=279–283 |doi=10.11646/phytotaxa.326.4.8 }}
74. ^{{cite journal |author1=David R. Greenwood |author2=Christopher K. West |year=2017 |title=A fossil coryphoid palm from the Paleocene of western Canada |journal=Review of Palaeobotany and Palynology |volume=239 |pages=55–65 |doi=10.1016/j.revpalbo.2016.12.002 }}
75. ^{{Cite journal|author1=Qiu-Jun Wang |author2=Fu-Jun Ma |author3=Jun-Ling Dong |author4=Chun-Hui Liu |author5=Shuai Liu |author6=Bai-Nian Sun |year=2017 |title=New costapalmate palm leaves from the Oligocene Ningming Formation of Guangxi, China, and their biogeographic and palaeoclimatic implications |journal=Historical Biology: An International Journal of Paleobiology |volume=29 |issue=5 |pages=594–606 |doi=10.1080/08912963.2016.1218487 }}
76. ^{{Cite journal|author1=Else Marie Friis |author2=Peter R. Crane |author3=Kaj Raunsgaard Pedersen |year=2017 |title=Saportanthus, an Extinct Genus of Laurales from the Early Cretaceous of Portugal |journal=International Journal of Plant Sciences |volume=178 |issue=8 |pages=650–672 |doi=10.1086/693108 }}
77. ^¹{{Cite journal|author1=Friðgeir Grímsson |author2=Guido W. Grimm |author3=Reinhard Zetter |year=2017 |title=Tiny pollen grains: first evidence of Saururaceae from the Late Cretaceous of western North America |journal=PeerJ |volume=5 |pages=e3434 |doi=10.7717/peerj.3434 |pmid=28626610 |pmc=5472062 }}
78. ^{{Cite journal|author1=Xiang-Gang Shi |author2=Qiong-Yao Fu |author3=Jian-Hua Jin |author4=Cheng Quan |year=2017 |title=Mummified Oligocene fruits of Schima (Theaceae) and their systematic and biogeographic implications |journal=Scientific Reports |volume=7 |issue=1 |pages=Article number 4009 |doi=10.1038/s41598-017-04349-6 |pmid=28638066 |pmc=5479851 }}
79. ^¹{{Cite journal|author1=Brian A. Atkinson |author2=Ruth A. Stockey |author3=Gar W. Rothwell |year=2017 |title=The Early Phylogenetic Diversification of Cornales: Permineralized Cornalean Fruits from the Campanian (Upper Cretaceous) of Western North America |journal=International Journal of Plant Sciences |volume=178 |issue=7 |pages=556–566 |doi=10.1086/692766 }}
80. ^{{Cite journal|author1=Jing-Yu Wu |author2=Yu-Sheng (Christopher) Liu |author3=Su-Ting Ding |author4=Jun Li |author5=Peng-Cheng An |year=2017 |title=Late Pliocene Smilax (Smilacaceae) leaves from Southwest China: Phytogeographical and paleoecological implications |journal=Review of Palaeobotany and Palynology |volume=241 |pages=26–38 |doi=10.1016/j.revpalbo.2017.02.006 }}
81. ^{{Cite journal|author1=George Poinar, Jr. |author2=Finn N. Rasmussen |year=2017 |title=Orchids from the past, with a new species in Baltic amber |journal=Botanical Journal of the Linnean Society |volume=183 |issue=3 |pages=327–333 |doi=10.1093/botlinnean/bow018 }}
82. ^¹²{{cite journal |author1=L. B. Golovneva |author2=P. I. Alekseev |author3=A.A. Gnilovskaya |author4=D.A. Yudova |year=2017 |title=The genus Trochodendroides (Cercidiphyllaceae) in the Cretaceous floras of North-East of Russia |journal=Paleobotanika |volume=8 |pages=122–179 |url=https://elibrary.ru/item.asp?id=32231887 }}
83. ^{{Cite journal|author1=George O. Poinar, Jr. |author2=Kenton L. Chambers |year=2017 |title=Tropidogyne pentaptera, sp. nov., a new mid-Cretaceous fossil angiosperm flower in Burmese amber |journal=Palaeodiversity |volume=10 |issue=1 |pages=135–140 |doi=10.18476/pale.v10.a10 }}
84. ^¹²{{Cite journal|author=Alexander B. Doweld |year=2017 |title=New names of Typha of Northern Eurasia (Typhaceae) |journal=Acta Palaeobotanica |volume=57 |issue=2 |pages=233–236 |doi=10.1515/acpa-2017-0010 }}
85. ^{{Cite journal|author=Fu-Jun Ma|author2=Bai-Nian Sun|author3=Qiu-Jun Wang|author4=Jun-Ling Dong|author5=Yi Yang|author6=De-Fei Yan|last-author-amp=yes |year=2017 |title=A new species of Zelkova (Ulmaceae, Ulmoideae) with leaves and fruits from the Oligocene of South China and its biogeographical implications |journal=Historical Biology: An International Journal of Paleobiology |volume=29 |issue=1 |pages=1–10 |doi=10.1080/08912963.2015.1049538 }}
86. ^{{Cite journal|author1=Zuzana Heřmanová |author2=Jiřina Dašková |author3=Boris Ekrt |author4=Jiří Kvaček |year=2017 |title=Zlivifructus gen. nov., a new member of the Normapolles complex |journal=Review of Palaeobotany and Palynology |volume=246 |pages=177–184 |doi=10.1016/j.revpalbo.2017.06.012 }}
87. ^{{Cite journal|author1=Zixi Wang |author2=Fankai Sun |author3=Peihong Jin |author4=Yingquan Chen |author5=Jingwei Chen |author6=Peng Deng |author7=Guolin Yang |author8=Bainian Sun |year=2017 |title=A New Species of Ginkgo with Male Cones and Pollen Grains in situ from the Middle Jurassic of Eastern Xinjiang, China |journal=Acta Geologica Sinica (English Edition) |volume=91 |issue=1 |pages=9–21 |url=http://www.geojournals.cn/dzxben/ch/reader/view_abstract.aspx?file_no=201701004&flag=1 |doi=10.1111/1755-6724.13060 }}
88. ^{{Cite journal|author1=Xiao-Hui Xu |author2=Liu-Yin Yang |author3=Bai-Nian Sun |author4=Yong-Dong Wang |author5=Ping Chen |year=2017 |title=A new Early Cretaceous Ginkgo ovulate organ with associated leaves from Inner Mongolia, China and its evolutionary significance |journal=Review of Palaeobotany and Palynology |volume=244 |pages=163–181 |doi=10.1016/j.revpalbo.2017.05.007 }}
89. ^¹{{Cite journal|author=Natalya Nosova |year=2017 |title=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 |journal=Review of Palaeobotany and Palynology |volume=239 |pages=1–13 |doi=10.1016/j.revpalbo.2016.11.017 }}
90. ^¹{{Cite journal|author1=Junji Horiuchi |author2=Kazuhiko Uemura |year=2017 |title=Paleocene occurrence of Pseudotorellia Florin (Ginkgoales) from Northeast Japan and the Meso–Cenozoic history of Pseudotorellia and Torellia |journal=Review of Palaeobotany and Palynology |volume=246 |pages=146–160 |doi=10.1016/j.revpalbo.2017.05.011 }}
91. ^{{Cite journal|author1=Yuling Na |author2=Chunlin Sun |author3=Hongshan Wang |author4=David L. Dilcher |author5=Yunfeng Li |author6=Tao Li |year=2017 |title=A brief introduction to the Middle Jurassic Daohugou Flora from Inner Mongolia, China |journal=Review of Palaeobotany and Palynology |volume=247 |pages=53–67 |doi=10.1016/j.revpalbo.2017.08.003 }}
92. ^{{Cite journal|author1=Heinrich Winterscheid |author2=Rolf Gossmann |year=2017 |title=Validation of Cathaya vanderburghii (Pinaceae) from European Neogene |journal=Phytotaxa |volume=302 |issue=2 |pages=188–192 |doi=10.11646/phytotaxa.302.2.9 }}
93. ^{{Cite journal|author1=Peihong Jin |author2=Teng Mao |author3=Junling Dong |author4=Zixi Wang |author5=Mingxuan Sun |author6=Xiaohui Xu |author7=Baoxia Du |author8=Bainian Sun |year=2017 |title=A new species of Cupressinocladus from the Lower Cretaceous of Guyang Basin, Inner Mongolia, China and cluster analysis |journal=Acta Geologica Sinica (English Edition) |volume=91 |issue=4 |pages=1200–1214 |url=http://www.geojournals.cn/dzxben/ch/reader/view_abstract.aspx?file_no=2017endzxb04004&flag=1 |doi=10.1111/1755-6724.13355 }}
94. ^¹²{{Cite journal|author1=Daniela P. Ruiz |author2=Mariana Brea |author3=M. Sol Raigemborn |author4=Sergio D. Matheos |year=2017 |title=Conifer woods from the Salamanca Formation (early Paleocene), Central Patagonia, Argentina: Paleoenvironmental implications |journal=Journal of South American Earth Sciences |volume=76 |pages=427–445 |doi=10.1016/j.jsames.2017.04.006 }}
95. ^{{Cite journal|author1=R.R. Pujana |author2=M.E. Raffi |author3=E.B. Olivero |year=2017 |title=Conifer fossil woods from the Santa Marta Formation (Upper Cretaceous), Brandy Bay, James Ross Island, Antarctica |journal=Cretaceous Research |volume=77 |pages=28–38 |doi=10.1016/j.cretres.2017.04.016 }}
96. ^{{cite journal |author1=N. V. Nosova |author2=A. I. Kiritchkova |author3=E. I. Kostina |year=2017 |title=Leafy shoots and pollen cones of conifers from the Middle Jurassic deposits of the Irkutsk Coal Basin |journal=Paleobotanika |volume=8 |pages=5–27 |url=https://www.researchgate.net/publication/322339536 }}
97. ^{{Cite journal|author1=Alexandra Sokolova |author2=Natalia Gordenko |author3=Natalia Zavialova |year=2017 |title=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) |journal=Cretaceous Research |volume=77 |pages=1–27 |doi=10.1016/j.cretres.2017.04.014 }}
98. ^{{Cite journal|author1=Mingli Wan |author2=Wan Yang |author3=Peng Tang |author4=Lujun Liu |author5=Jun Wang |year=2017 |title=Medulloprotaxodioxylon triassicum gen. et sp. nov., a taxodiaceous conifer wood from the Norian (Triassic) of northern Bogda Mountains, northwestern China |journal=Review of Palaeobotany and Palynology |volume=241 |pages=70–84 |doi=10.1016/j.revpalbo.2017.02.009 }}
99. ^{{Cite journal|author1=Ignacio Escapa |author2=Andrew Leslie |year=2017 |title=A new Cheirolepidiaceae (Coniferales) from the Early Jurassic of Patagonia (Argentina): Reconciling the records of impression and permineralized fossils |journal=American Journal of Botany |volume=104 |issue=2 |pages=322–334 |doi=10.3732/ajb.1600321 |pmid=28213347 }}
100. ^¹{{Cite journal|author1=Fabiany Herrera |author2=Gongle Shi |author3=Patrick Knopf |author4=Andrew B. Leslie |author5=Niiden Ichinnorov |author6=Masamichi Takahashi |author7=Peter R. Crane |author8=Patrick S. Herendeen |year=2017 |title=Cupressaceae Conifers from the Early Cretaceous of Mongolia |journal=International Journal of Plant Sciences |volume=178 |issue=1 |pages=19–41 |doi=10.1086/689577 }}
101. ^{{Cite journal|author1=Mahasin Ali Khan |author2=Subir Bera |year=2017 |title=First discovery of fossil winged seeds of Pinus L. (family Pinaceae) from the Indian Cenozoic and its palaeobiogeographic significance |journal=Journal of Earth System Science |volume=126 |issue=5 |pages=63 |doi=10.1007/s12040-017-0846-7 }}
102. ^{{Cite journal|author1=Mahasin Ali Khan |author2=Subir Bera |year=2018 |title=Pinus daflaensis (Pinaceae), a replacement name for P. arunachalensis Khan & Bera |journal=Phytotaxa |volume=334 |issue=2 |pages=200 |doi=10.11646/phytotaxa.334.2.9 }}
103. ^¹{{Cite journal|author1=Hao-Bo Wang |author2=Alexei A. Oskolski |author3=Frédéric M.B. Jacques |author4=Yue-Hua Wang |author5=Zhe-Kun Zhou |year=2017 |title=Lignified woods of Pinus (Pinaceae) from the late Miocene of central Yunnan, China, and their biogeographic and paleoclimatic implications |journal=Palaeoworld |volume=26 |issue=3 |pages=553–565 |doi=10.1016/j.palwor.2016.06.003 }}
104. ^{{Cite journal|author1=Selena Y. Smith |author2=Ruth A. Stockey |author3=Gar W. Rothwell |author4=Stefan A. Little |year=2017 |title=A new species of Pityostrobus (Pinaceae) from the Cretaceous of California: moving towards understanding the Cretaceous radiation of Pinaceae |journal=Journal of Systematic Palaeontology |volume=15 |issue=1 |pages=69–81 |doi=10.1080/14772019.2016.1143885 }}
105. ^{{Cite journal|author1=Peng Deng |author2=Junling Dong |author3=Zixi Wang |author4=Xuelian Wang |author5=Guolin Yang |author6=Yuli He |author7=Yifan Hua |author8=Bainian Sun |year=2017 |title=Cuticular microstructure of Platycladus tengchongensis sp.nov.from the Pliocene of Tengchong,Yunnan,and reconstruction of paleoatmospheric CO₂ |journal=Earth Science Frontiers |volume=24 |issue=1 |pages=65–77 |doi=10.13745/j.esf.2017.01.005 }}
106. ^{{Cite journal|author1=Roberto R. Pujana |author2=Daniela P. Ruiz |year=2017 |title=Podocarpoxylon Gothan reviewed in the light of a new species from the Eocene of Patagonia |journal=IAWA Journal |volume=38 |issue=2 |pages=220–244 |doi=10.1163/22941932-20170169 }}
107. ^{{Cite journal|author1=Silvia Gnaedinger |author2=Rodolfo A. Coria |author3=Eva Koppelhus |author4=Silvio Casadío |author5=Maisa Tunik |author6=Philip Currie |year=2017 |title=First Lower Cretaceous record of Podocarpaceae wood associated with dinosaur remains from Patagonia, Neuquén Province, Argentina |journal=Cretaceous Research |volume=78 |pages=228–239 |doi=10.1016/j.cretres.2017.06.014 }}
108. ^¹{{Cite journal|author1=Peter Wilf |author2=Michael P. Donovan |author3=N. Rubén Cúneo |author4=María A. Gandolfo |year=2017 |title=The fossil flip-leaves (Retrophyllum, Podocarpaceae) of southern South America |journal=American Journal of Botany |volume=104 |issue=9 |pages=1344–1369 |doi=10.3732/ajb.1700158 |pmid=29885237 }}
109. ^{{Cite journal|author1=Tao Yang |author2=Li-ying Yi |author3=Jing-wen E |author4=Xiao-rong Guo |year=2017 |title=A new species of Scarburgia from Middle Jurassic of Junggar Basin, Xinjiang, China |journal=Global Geology |volume=36 |issue=2 |pages=327–332 |doi=10.3969/j.issn.1004-5589.2017.02.001 |url=http://sjdz.jlu.edu.cn/EN/abstract/abstract9274.shtml }}
110. ^{{Cite journal|author1=Qi-Jia Li |author2=Peng-Cheng An |author3=Jun Li |author4=Zhen-Rui Zhao |author5=Jing-Yu Wu |author6=Yong-Dong Wang |author7=Yu-Ting Zhu |author8=Su-Ting Ding |year=2017 |title=Cuticular structure of Storgaardia Harris from the Middle Jurassic of Northwest China and its systematic and biogeographical significances |journal=Palaeoworld |volume=26 |issue=1 |pages=149–158 |doi=10.1016/j.palwor.2016.04.005 }}
111. ^¹²{{Cite journal|author1=Jiří Kvaček |author2=Zuzana Heřmanová |author3=Jana Bruthansová |author4=Jakub Karch |author5=Jan Žemlička |author6=Jan Dudák |year=2018 |title=Stutzeliastrobus bohemicus comb. nov. – basal Cupressaceae conifer from the Cenomanian of the Bohemian Cretaceous Basin, Central Europe |journal=Fossil Imprint |volume=74 |issue=1–2 |pages=179–188 |url=http://fi.nm.cz/wp-content/uploads/2018/08/13_Kvacek_179-188.pdf |doi=10.1515/if-2017-0013 }}
112. ^{{Cite journal|author1=Olga A. Orlova |author2=Ksenia G. Pustovoit |author3=Ekaterina V. Anikeeva |year=2017 |title=Pteridosperms from the Lower Carboniferous of South Urals, Russia |journal=Plant Systematics and Evolution |volume=303 |issue=7 |pages=945–955 |doi=10.1007/s00606-017-1421-z }}
113. ^¹²{{Cite journal|author1=Natalya Nosova |author2=Aleksej Vladimirovič Hvalj |year=2017 |title=New findings of the seeds Allicospermum Harris (gymnosperms) from the Middle Jurassic of Angren, Uzbekistan |journal=Review of Palaeobotany and Palynology |volume=247 |pages=26–39 |doi=10.1016/j.revpalbo.2017.08.001 }}
114. ^{{Cite journal|author1=Silvia C. Gnaedinger |author2=Ana M. Zavattieri |year=2017 |title=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 |journal=Ameghiniana |volume=54 |issue=2 |pages=224–246 |doi=10.5710/AMGH.18.10.2016.2986 }}
115. ^{{Cite journal|author1=Silvia C. Gnaedinger |author2=Ana M. Zavattieri |year=2017 |title=A new name for Baiera taeniata Geinitz, Ginkgo taeniata (Geinitz) Frenguelli, and Sphenobaiera taeniata (Geinitz) Morel, Ganuza and Zúñiga |journal=Ameghiniana |volume=54 |issue=2 |pages=252–254 |doi=10.5710/AMGH.18.10.2016.3058 }}
116. ^{{Cite journal|author1=Neeru Prakash |author2=Neelam Das |year=2017 |title=First record of microsporophyll genus Caytonanthus Thomas from Early Cretaceous beds of South Rewa Gondwana Basin, India: Its evolutionary and palaeogeographical significance |journal=Island Arc |volume=26 |issue=1 |pages=e12163 |doi=10.1111/iar.12163 }}
117. ^{{Cite journal|author1=A. Abu Hamad |author2=P. Blomenkemper |author3=H. Kerp |author4=B. Bomfleur |year=2017 |title=Dicroidium bandelii sp. nov. (corystospermalean foliage) from the Permian of Jordan |journal=PalZ |volume=91 |issue=4 |pages=641–648 |doi=10.1007/s12542-017-0384-2 }}
118. ^{{Cite journal|author1=Mingli Wan |author2=Wan Yang |author3=Lujun Liu |author4=Jun Wang |year=2017 |title=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 |journal=Review of Palaeobotany and Palynology |volume=241 |pages=13–25 |doi=10.1016/j.revpalbo.2017.02.004 }}
119. ^{{Cite journal|author1=Mario Coiro |author2=Christian Pott |year=2017 |title=Eobowenia gen. nov. from the Early Cretaceous of Patagonia: indication for an early divergence of Bowenia? |journal=BMC Evolutionary Biology |volume=17 |issue=1 |pages=97 |doi=10.1186/s12862-017-0943-x |pmid=28388891 |pmc=5383990 }}
120. ^{{Cite journal|author1=Gabriela G. Puebla |author2=Ari Iglesias |author3=María A. Gómez |author4=Mercedes B. Prámparo |year=2017 |title=Fossil record of Ephedra in the Lower Cretaceous (Aptian), Argentina |journal=Journal of Plant Research |volume=130 |issue=6 |pages=975–988 |doi=10.1007/s10265-017-0953-1 |pmid=28528483 }}
121. ^{{Cite journal|author1=Rebecca A. Koll |author2=William A. DiMichele |author3=Steven R. Manchester |year=2017 |title=Reevaluation and taxonomic clarification of Gigantopteridium and Cathaysiopteris of western equatorial Pangea and their biogeographical significance |journal=Journal of Paleontology |volume=91 |issue=5 |pages=859–870 |doi=10.1017/jpa.2017.25 }}
122. ^{{Cite journal|author1=Johanna H.A. van Konijnenburg-van Cittert |author2=Evelyn Kustatscher |author3=Christian Pott |author4=Günter Dütsch |author5=Stefan Schmeißner |year=2017 |title=First record of the pollen-bearing reproductive organ Hydropterangium from the Rhaetian of Germany (Wüstenwelsberg, Upper Franconia) |journal=Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen |volume=284 |issue=2 |pages=139–151 |doi=10.1127/njgpa/2017/0655 }}
123. ^{{Cite journal|author=Serge V. Naugolnykh |year=2017 |title=Kizelopteris, a new genus of climbing pteridosperms from the Lower Carboniferous of the Urals, Russia |journal=Wulfenia |volume=24 |pages=241–254 |url=https://www.researchgate.net/publication/321919785 }}
124. ^{{Cite journal|author1=Yong Yang |author2=Long-Biao Lin |author3=David K. Ferguson |author4=Shou-Zhou Zhang |author5=Tao Wan |year=2017 |title=A new gnetalean macrofossil from the Early Cretaceous and its evolutionary significance |journal=Cretaceous Research |volume=74 |pages=56–64 |doi=10.1016/j.cretres.2017.02.007 }}
125. ^{{Cite journal|author1=Johanna H.A. van Konijnenburg-van Cittert |author2=Christian Pott |author3=Christopher J. Cleal |author4=Gea Zijlstra |year=2017 |title=Differentiation of the fossil leaves assigned to Taeniopteris, Nilssoniopteris and Nilssonia with a comparison to similar genera |journal=Review of Palaeobotany and Palynology |volume=237 |pages=100–106 |doi=10.1016/j.revpalbo.2016.11.009 }}
126. ^{{cite book |author =Xin Wang |year=2017 |chapter=Fossil Plants Possibly Related to Angiosperms |editor=Xin Wang |title=The Dawn Angiosperms. Uncovering the Origin of Flowering Plants |publisher=Springer |volume= |pages=259–291 |isbn=978-3-319-58324-2 |doi=10.1007/978-3-319-58325-9_7 |series=Springer Geology }}
127. ^{{Cite journal|author1=Alan R.T. Spencer |author2=Russell J. Garwood |author3=Andrew R. Rees |author4=Robert J. Raine |author5=Gar W. Rothwell |author6=Neville T.J. Hollingworth |author7=Jason Hilton |year=2017 |title=New insights into Mesozoic cycad evolution: an exploration of anatomically preserved Cycadaceae seeds from the Jurassic Oxford Clay biota |journal=PeerJ |volume=5 |pages=e3723 |doi=10.7717/peerj.3723 |pmid=28875075 |pmc=5578371 }}
128. ^{{Cite journal|author1=Grzegorz Pacyna |author2=Maria Barbacka |author3=Danuta Zdebska |author4=Jadwiga Ziaja |author5=Anna Fijałkowska-Mader |author6=Károly Bóka |author7=Tomasz Sulej |year=2017 |title=A new conifer from the Upper Triassic of Southern Poland linking the advanced voltzialean type of ovuliferous scale with Brachyphyllum/Pagiophyllum-like leaves |journal=Review of Palaeobotany and Palynology |volume=245 |pages=28–54 |doi=10.1016/j.revpalbo.2017.05.015 }}
129. ^¹{{Cite journal|author1=Natalya Nosova |author2=Johanna H.A. van Konijnenburg-van Cittert |author3=Anna Kiritchkova |year=2017 |title=New data on the epidermal structure of the leaves of Podozamites Braun |journal=Review of Palaeobotany and Palynology |volume=238 |pages=88–104 |doi=10.1016/j.revpalbo.2016.11.005 }}
130. ^{{Cite journal|author1=Yong Yang |author2=Lei Xie |author3=David K. Ferguson |year=2017 |title=Protognetaceae: A new gnetoid macrofossil family from the Jurassic of northeastern China |journal=Perspectives in Plant Ecology, Evolution and Systematics |volume=28 |pages=67–77 |doi=10.1016/j.ppees.2017.08.001 }}
131. ^{{Cite journal|author1=Xuezhi He |author2=Tianming Shi |author3=Mingli Wan |author4=Shijun Wang |author5=Jason Hilton |author6=Peng Tang |author7=Jun Wang |year=2017 |title=Peltaspermalean seed ferns with preserved cuticle from the Upper Triassic Karamay Formation in the Junggar Basin, northwestern China |journal=Review of Palaeobotany and Palynology |volume=247 |pages=68–82 |doi=10.1016/j.revpalbo.2017.08.002 }}
132. ^{{Cite journal|author1=Wei Huang |author2=David L. Dilcher |author3=Hongshan Wang |author4=Yu-Ling Na |author5=Yun-Feng Li |author6=Tao Li |author7=Chun-Lin Sun |year=2017 |title=First record of Sphenarion (Czekanowskiales) with epidermal structures from the Middle Jurassic of Inner Mongolia, China |journal=Palaeoworld |volume=26 |issue=3 |pages=510–518 |doi=10.1016/j.palwor.2016.05.005 }}
133. ^¹²³{{Cite journal|author1=A.V. Gomankov |author2=M.K. Kiuntzel |author3=S.V. Meyen |year=2017 |title=Новые данные о растительных остатках из верхней перми и нижнего триаса Русской платформы |journal=Lethaea Rossica |volume=14 |pages=28–63 |url=http://paleobot.ru/pdf/02_2017_14.pdf }}
134. ^{{Cite journal|author1=Xiao Shi |author2=Jianxin Yu |author3=Jean Broutin |author4=Denise Pons |author5=Camille Rossignol |author6=Sylvie Bourquin |author7=Sylvie Crasquin |author8=Qiang Li |author9=Wenchao Shu |year=2017 |title=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 |journal=Palaeogeography, Palaeoclimatology, Palaeoecology |volume=468 |pages=314–326 |doi=10.1016/j.palaeo.2016.12.026 }}
135. ^{{Cite journal|author1=Fabiany Herrera |author2=Gongle Shi |author3=Niiden Ichinnorov |author4=Masamichi Takahashi |author5=Eugenia V. Bugdaeva |author6=Patrick S. Herendeen |author7=Peter R. Crane |year=2017 |title=The presumed ginkgophyte Umaltolepis has seed-bearing structures resembling those of Peltaspermales and Umkomasiales |journal=Proceedings of the National Academy of Sciences of the United States of America |volume=114 |issue=12 |pages=E2385–E2391 |doi=10.1073/pnas.1621409114 |pmid=28265050 |pmc=5373332 }}
136. ^{{Cite journal|author1=Mingli Wan |author2=Wan Yang |author3=Xuezhi He |author4=Weiming Zhou |author5=Lujun Liu |author6=Jun Wang |year=2017 |title=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 |journal=Palaeogeography, Palaeoclimatology, Palaeoecology |volume=479 |pages=115–125 |doi=10.1016/j.palaeo.2017.04.022 }}
137. ^{{Cite journal|author1=L.C.A. Martínez |author2=A. Iglesias |author3=A.E. Artabe |author4=A.N. Varela |author5=S. Apesteguía |year=2017 |title=A new Encephalarteae trunk (Cycadales) from the Cretaceous of Patagonia (Mata Amarilla Formation, Austral Basin), Argentina |journal=Cretaceous Research |volume=72 |pages=81–94 |doi=10.1016/j.cretres.2016.12.008 }}
138. ^{{Cite journal|author=Anne-Laure Decombeix |author2=Jean Galtier |year=2017 |title=Ahnetia, a new lignophyte stem from the Lower Carboniferous of southern Algeria |journal=Review of Palaeobotany and Palynology |volume=237 |pages=62–74 |doi=10.1016/j.revpalbo.2016.11.003 }}
139. ^{{Cite journal|author1=Christopher J. Cleal |author2=Giovanni G. Scanu |author3=Carla Buosi |author4=Paola Pittau |author5=Evelyn Kustatscher |year=2017 |title=Middle Pennsylvanian vegetation of the San Giorgio Basin, southern Sardinia (Italy) |journal=Geological Magazine |volume=154 |issue=5 |pages=1155–1170 |doi=10.1017/S0016756816000765 }}
140. ^{{Cite journal|author1=Carmen Álvarez-Vázquez |author2=Robert H. Wagner |year=2017 |title=A revision of Annularia and Asterophyllites species from the lower Westphalian (Middle Pennsylvanian) of the Maritime Provinces of Canada |journal=Atlantic Geology |volume=53 |pages=17–62 |doi=10.4138/atlgeol.2017.002 |url=https://www.researchgate.net/publication/315466218 }}
141. ^¹{{Cite journal|author1=Rodrigo Neregato |author2=Ronny Rößler |author3=Roberto Iannuzzi |author4=Robert Noll |author5=Rosemarie Rohn |year=2017 |title=New petrified calamitaleans from the Permian of the Parnaíba Basin, central-North Brazil, part II, and phytogeographic implications for late Paleozoic floras |journal=Review of Palaeobotany and Palynology |volume=237 |pages=37–61 |doi=10.1016/j.revpalbo.2016.11.001 }}
142. ^{{Cite journal|author1=Kewang Xu |author2=Wenbo Liao |author3=Jianhua Jin |author4=Xiaoyan Liu |year=2017 |title=Asplenium sanshuiense sp. nov.: the lowest latitude fossil record of the genus |journal=Acta Geologica Sinica (English Edition) |volume=91 |issue=4 |pages=1179–1189 |url=http://www.geojournals.cn/dzxben/ch/reader/view_abstract.aspx?file_no=2017endzxb04002&flag=1 |doi=10.1111/1755-6724.13353 }}
143. ^{{Cite journal|author1=Patricia Vallati |author2=Andrea De Sosa Tomas |author3=Gabriel Casal |author4=Marcos Calo |year=2017 |title=Salviniales from the Late Cretaceous of the Golfo San Jorge Basin |journal=Cretaceous Research |volume=74 |pages=45–55 |doi=10.1016/j.cretres.2017.02.004 }}
144. ^{{Cite journal|author1=Petr Kraft |author2=Zlatko Kvaček |year=2017 |title=Where the lycophytes come from? – A piece of the story from the Silurian of peri-Gondwana |journal=Gondwana Research |volume=45 |pages=180–190 |doi=10.1016/j.gr.2017.02.001 }}
145. ^{{Cite journal|author1=Bruno R. C. Granier |author2=Ana C. Azerêdo |author3=Miguel M. Ramalho |year=2017 |title=Taxonomic revision of Cylindroporella ? lusitanica Ramalho, 1970: In search for the origins of the Family Dasycladaceae |journal=Island Arc |volume=26 |issue=3 |pages=e12176 |doi=10.1111/iar.12176 }}
146. ^¹{{Cite journal|author1=Jana Frojdová |author2=Josef Pšenička |author3=Jiří Bek |author4=Christopher J. Cleal |year=2017 |title=Revision of the Pennsylvanian fern Boweria Kidston and the establishment of the new genus Kidstoniopteris |journal=Review of Palaeobotany and Palynology |volume=236 |pages=33–58 |doi=10.1016/j.revpalbo.2016.08.011 }}
147. ^{{Cite journal|author1=Benjamin Bomfleur |author2=Guido W. Grimm |author3=Stephen McLoughlin |year=2017 |title=The fossil Osmundales (Royal Ferns)—a phylogenetic network analysis, revised taxonomy, and evolutionary classification of anatomically preserved trunks and rhizomes |journal=PeerJ |volume=5 |pages=e3433 |doi=10.7717/peerj.3433 |pmid=28713650 |pmc=5508817 }}
148. ^¹²³⁴{{Cite journal|author1=Caiqing Guo |author2=Jianxin Yao |author3=Jianwei Zhang |author4=Pengcheng Wu |author5=Chengsen Li |year=2017 |title=New fossil liverworts from the Lower Cretaceous of Western Liaoning, China |journal=Acta Geologica Sinica (English Edition) |volume=91 |issue=5 |pages=1542–1552 |url=http://www.geojournals.cn/dzxben/ch/reader/view_abstract.aspx?file_no=2017endzxb05003&flag=1 |doi=10.1111/1755-6724.13399 }}
149. ^{{Cite journal|author1=Mário Miguel Mendes |author2=Eduardo Barrón |author3=David J. Batten |author4=João Pais |year=2017 |title=A new species of the spore genus Costatoperforosporites from Early Cretaceous deposits in Portugal and its taxonomic and palaeoenvironmental significance |journal=Grana |volume=56 |issue=6 |pages=401–409 |doi=10.1080/00173134.2016.1269189 }}
150. ^{{Cite journal|author1=Mathilde Evreïnoff |author2=Brigitte Meyer-Berthaud |author3=Anne-Laure Decombeix |author4=Renaud Lebrun |author5=Philippe Steemans |author6=Paul Tafforeau |year=2017 |title=A new Late Devonian isoetalean lycopsid from New South Wales, Australia: Cymastrobus irvingii gen. et sp. nov. |journal=Palaeontologia Electronica |volume=20 |issue=3 |pages=Article number 20.3.47A |url=http://palaeo-electronica.org/content/2017/2012-devonian-lycopsid-cone |doi=10.26879/767 }}
151. ^{{Cite journal|author1=Ledis Regalado |author2=Alexander R. Schmidt |author3=Marc S. Appelhans |author4=Bork Ilsemann |author5=Harald Schneider |author6=Michael Krings |author7=Jochen Heinrichs |year=2017 |title=A fossil species of the enigmatic early polypod fern genus Cystodium (Cystodiaceae) in Cretaceous amber from Myanmar |journal=Scientific Reports |volume=7 |issue=1 |pages=Article number 14615 |doi=10.1038/s41598-017-14985-7 |pmid=29097728 |pmc=5668433 }}
152. ^{{Cite journal|author1=Shi-Jun Wang |author2=Richard M. Bateman |author3=Alan R. T. Spencer |author4=Jun Wang |author5=Longyi Shao |author6=Jason Hilton |year=2017 |title=Anatomically preserved "strobili" and leaves from the Permian of China (Dorsalistachyaceae, fam. nov.) broaden knowledge of Noeggerathiales and constrain their possible taxonomic affinities |journal=American Journal of Botany |volume=104 |issue=1 |pages=127–149 |doi=10.3732/ajb.1600371 |pmid=28062406 }}
153. ^{{Cite journal|author1=Hong-He Xu |author2=Yao Wang |author3=Peng Tang |author4=Yi Wang |year=2017 |title=A new diminutive euphyllophyte from the Middle Devonian of West Junggar, Xinjiang, China and its evolutionary implications |journal=Alcheringa: An Australasian Journal of Palaeontology |volume=41 |issue=4 |pages=524–531 |doi=10.1080/03115518.2017.1321685 }}
154. ^{{Cite journal|author1=Bruno R.C. Granier |author2=Alexandre Lethiers |year=2017 |title=Draconisella mortoni sp. nov., a Mizzia-like Dasycladalean alga from the Lower Cretaceous of Oman |journal=Palaeontologia Electronica |volume=20 |issue=1 |pages=Article number 20.1.6A |url=http://palaeo-electronica.org/content/2017/1745-a-mizzia-like-alga |doi=10.26879/743 }}
155. ^{{Cite journal|author1=Jochen Heinrichs |author2=Kathrin Feldberg |author3=Patrick Müller |author4=Alfons Schäfer-Verwimp |author5=Matt von Konrat |author6=Bork Ilsemann |author7=Michael Krings |year=2017 |title=Frullania pinnata spec. nov. (Frullaniaceae, Porellales), a new leafy liverwort in mid-Cretaceous Burmese amber from Myanmar |journal=Cretaceous Research |volume=78 |pages=56–60 |doi=10.1016/j.cretres.2017.05.030 }}
156. ^{{Cite journal|author1=Yuriy S. Mamontov |author2=Jörn Hentschel |author3=Nadezhda A. Konstantinova |author4=Evgeny E. Perkovsky |author5=Michael S. Ignatov |year=2017 |title=Hepatics from Rovno amber (Ukraine), 6. Frullania rovnoi, sp. nov. |journal=Journal of Bryology |volume=39 |issue=4 |pages=336–341 |doi=10.1080/03736687.2017.1343220 }}
157. ^{{Cite journal|author1=Cong-Li Xu |author2=Jian Huang |author3=Tao Su |author4=Xian-Chun Zhang |author5=Shu-Feng Li |author6=Zhe-Kun Zhou |year=2017 |title=The first megafossil record of Goniophlebium (Polypodiaceae) from the Middle Miocene of Asia and its paleoecological implications |journal=Palaeoworld |volume=26 |issue=3 |pages=543–552 |doi=10.1016/j.palwor.2017.01.006 }}
158. ^{{Cite journal|author1=Fabiany Herrera |author2=Robbin C. Moran |author3=Gongle Shi |author4=Niiden Ichinnorov |author5=Masamichi Takahashi |author6=Peter R. Crane |author7=Patrick S. Herendeen |year=2017 |title=An exquisitely preserved filmy fern (Hymenophyllaceae) from the Early Cretaceous of Mongolia |journal=American Journal of Botany |volume=104 |issue=9 |pages=1370–1381 |doi=10.3732/ajb.1700246 |pmid=29885232 }}
159. ^¹{{Cite journal|author1=Josef Pšenička |author2=Pedro Correia |author3=Zbynĕk Šimůnek |author4=Artur A. Sá |author5=J. Brendan Murphy |author6=Deolinda Flores |year=2017 |title=Revision of Ilfeldia and establishment of Ovulepteris gen. nov. from the Pennsylvanian of Europe, with a discussion on their concepts |journal=Review of Palaeobotany and Palynology |volume=236 |pages=59–73 |doi=10.1016/j.revpalbo.2016.09.001 }}
160. ^{{Cite journal|author1=John G. Conran |author2=Joseph A. Jackson |author3=Daphne E. Lee |author4=Elizabeth M. Kennedy |year=2017 |title=Gleichenia-like Korallipteris alineae sp. nov. macrofossils (Polypodiophyta) from the Miocene Landslip Hill silcrete, New Zealand |journal=New Zealand Journal of Botany |volume=55 |issue=3 |pages=258–275 |doi=10.1080/0028825X.2017.1317278 }}
161. ^{{Cite journal|author1=Andrea De Sosa Tomas |author2=Patricia Vallati |author3=Carles Martín-Closas |year=2017 |title=Biostratigraphy and biogeography of charophytes from the Cerro Barcino Formation (upper Aptian–lower Albian), Cañadón Asfalto Basin, central Patagonia, Argentina |journal=Cretaceous Research |volume=79 |pages=1–11 |doi=10.1016/j.cretres.2017.07.004 }}
162. ^¹²{{Cite journal|author1=Gaik Ee Lee |author2=Laura Kolberg |author3=Julia Bechteler |author4=Alfons Schäfer-Verwimp |author5=Matthew A.M. Renner |author6=Alexander R. Schmidt |author7=Jochen Heinrichs |year=2017 |title=The leafy liverwort genus Lejeunea (Porellales, Jungermanniopsida) in Miocene Dominican amber |journal=Review of Palaeobotany and Palynology |volume=238 |pages=144–150 |doi=10.1016/j.revpalbo.2016.11.013 }}
163. ^¹{{Cite journal|author1=O. A. Orlova |author2=A. V. Tevelev |author3=D. A. Mamontov |author4=E. V. Anikeeva |year=2017 |title=Late Carboniferous lycopsids of the Karantrav locality (the Southern Urals) |journal=Moscow University Geology Bulletin |volume=72 |issue=1 |pages=28–36 |doi=10.3103/S0145875217010100 }}
164. ^{{Cite journal|author1=Andrew C. Rozefelds |author2=Mary E. Dettmann |author3=H. Trevor Clifford |author4=Raymond J. Carpenter |year=2017 |title=Lygodium (Schizaeaceae) in southern high latitudes during the Cenozoic — A new species and new insights into character evolution in the genus |journal=Review of Palaeobotany and Palynology |volume=247 |pages=40–52 |doi=10.1016/j.revpalbo.2017.07.001 }}
165. ^{{Cite journal|author1=Alexander C. Bippus |author2=Ruth A. Stockey |author3=Gar W. Rothwell |author4=Alexandru M. F. Tomescu |year=2017 |title=Extending the fossil record of Polytrichaceae: Early Cretaceous Meantoinea alophosioides gen. et sp. nov., permineralized gametophytes with gemma cups from Vancouver Island |journal=American Journal of Botany |volume=104 |issue=4 |pages=584–597 |doi=10.3732/ajb.1700002 |pmid=28424206 }}
166. ^{{Cite journal|author1=Jochen Heinrichs |author2=Kathrin Feldberg |author3=Julia Bechteler |author4=Patrick Müller |author5=Matthew A.M. Renner |author6=Jiří Váňa |author7=Alfons Schäfer-Verwimp |author8=Alexander R. Schmidt |year=2017 |title=A fossil genus of the Frullaniaceae (Porellales, Jungermanniopsida) from the mid-Cretaceous of Myanmar |journal=Cretaceous Research |volume=74 |pages=223–226 |doi=10.1016/j.cretres.2017.02.023 }}
167. ^{{Cite journal|author1=Julia Bechteler |author2=Alexander R. Schmidt |author3=Matthew A. M. Renner |author4=Bo Wang |author5=Oscar Alejandro Pérez-Escobar |author6=Alfons Schäfer-Verwimp |author7=Kathrin Feldberg |author8=Jochen Heinrichs |year=2017 |title=A Burmese amber fossil of Radula (Porellales, Jungermanniopsida) provides insights into the Cretaceous evolution of epiphytic lineages of leafy liverworts |journal=Fossil Record |volume=20 |issue=2 |pages=201–213 |doi=10.5194/fr-20-201-2017 }}
168. ^{{Cite journal|author=Jing Ma|author2=Shi-Jun Wang|author3=Ke-Qin Sun|last-author-amp=yes |year=2017 |title=Rhabdoxylon taiyuanense n. sp.: A new botryopterid fern from the Lower Permian of Shanxi Province, North China |journal=Palaeoworld |volume=26 |issue=3 |pages=489–499 |doi=10.1016/j.palwor.2016.05.002 }}
169. ^¹{{Cite journal|author1=Nicolás Pérez-Consuegra |author2=Aura Cuervo-Gómez |author3=Camila Martínez |author4=Camilo Montes |author5=Fabiany Herrera |author6=Santiago Madriñán |author7=Carlos Jaramillo |year=2017 |title=Paleogene Salvinia (Salviniaceae) from Colombia and their paleobiogeographic implications |journal=Review of Palaeobotany and Palynology |volume=246 |pages=85–108 |doi=10.1016/j.revpalbo.2017.06.003 }}
170. ^{{Cite journal|author1=Don G. Benson Jr |author2=Merrell A. Miller |author3=Gordon D. Wood |year=2017 |title=A new Upper Jurassic species of Scenedesmus from the Bossier Formation, Texas, USA |journal=Palynology |volume=41 |issue=Supplement 1 |pages=262–270 |doi=10.1080/01916122.2017.1360632 }}
171. ^{{Cite journal|author1=Branko Sokač |author2=Tonći Grgasović |year=2017 |title=On the species of the genus Selliporella SARTONI & CRESCENTI, 1962 from the Middle Jurassic of the coastal Dinarides of Croatia |journal=Geologia Croatica |volume=70 |issue=3 |pages=115–161 |doi=10.4154/gc.2017.15 }}
172. ^{{Cite journal|author1=Kelly K. S. Matsunaga |author2=Alexandru M. F. Tomescu |year=2017 |title=An organismal concept for Sengelia radicans gen. et sp. nov. – morphology and natural history of an Early Devonian lycophyte |journal=Annals of Botany |volume=119 |issue=7 |pages=1097–1113 |doi=10.1093/aob/mcw277 |pmid=28334100 |pmc=5604611 }}
173. ^¹²{{Cite journal|author1=Yu.V. Mosseichik |author2=I.A. Ignatiev |year=2017 |title=Viséan lycopods from the Moscow Basin: New species and suprageneric affiliation |journal=Lethaea Rossica |volume=15 |pages=1–19 |url=http://paleobot.ru/pdf/01_2017_15.pdf }}
174. ^{{Cite journal|author1=David John Cantrill |author2=Allan C. Ashworth |author3=Adam R. Lewis |year=2017 |title=Megaspores of an early Miocene aquatic lycopod (Isoetales) from Antarctica |journal=Grana |volume=56 |issue=2 |pages=112–123 |doi=10.1080/00173134.2016.1144784 }}
175. ^{{Cite journal|author1=Borja Cascales-Miñana |author2=PhIlippe Gerrienne |year=2017 |title=Teruelia diezii gen. et sp. nov.: an early polysporangiophyte from the Lower Devonian of the Iberian Peninsula |journal=Palaeontology |volume=60 |issue=2 |pages=199–212 |doi=10.1111/pala.12277 }}
176. ^{{Cite journal|author1=Sibelle Maksoud |author2=Bruno Granier |author3=Dany Azar |year=2017 |title=Triploporella ? edgelli n. sp., a new Dasycladalean alga from the Lower Cretaceous of Lebanon |journal=Island Arc |volume=26 |issue=3 |pages=e12189 |doi=10.1111/iar.12189 }}
177. ^{{cite book |author=Serge V. Naugolnykh |year=2017 |chapter=Colonization of drylands: Producents of the first terrestrial ecosystems |title=Russian Academy of Sciences, Moscow. Scientific reports of professors of RAS, 2017 |pages=3–25 |isbn=978-5-906906-10-6 |chapter-url=https://www.researchgate.net/publication/322917381 }}
178. ^{{Cite journal|author1=Steven T. LoDuca |author2=Denis K. Tetreault |year=2017 |title=Ontogeny and reproductive functional morphology of the macroalga Wiartonella nodifera n. gen. n. sp. (Dasycladales, Chlorophyta) from the Silurian Eramosa Lagerstätte of Ontario, Canada |journal=Journal of Paleontology |volume=91 |issue=1 |pages=1–11 |doi=10.1017/jpa.2016.144 }}
179. ^{{Cite journal|author1=Hong-He Xu |author2=Christopher M. Berry |author3=William E. Stein |author4=Yi Wang |author5=Peng Tang |author6=Qiang Fu |year=2017 |title=Unique growth strategy in the Earth's first trees revealed in silicified fossil trunks from China |journal=Proceedings of the National Academy of Sciences of the United States of America |volume=114 |issue=45 |pages=12009–12014 |doi=10.1073/pnas.1708241114 |pmid=29078324 |pmc=5692553 }}
180. ^{{Cite journal|author1=Zhong-Jian Liu |author2=Xin Wang |year=2017 |title=Yuhania: a unique angiosperm from the Middle Jurassic of Inner Mongolia, China |journal=Historical Biology: An International Journal of Paleobiology |volume=29 |issue=4 |pages=431–441 |doi=10.1080/08912963.2016.1178740 |pmid=28392623 |pmc=5359780 }}
181. ^{{Cite journal|author1=Patrick S. Herendeen |author2=Else Marie Friis |author3=Kaj Raunsgaard Pedersen |author4=Peter R. Crane |year=2017 |title=Palaeobotanical redux: revisiting the age of the angiosperms |journal=Nature Plants |volume=3 |issue=3 |pages=Article number 17015 |doi=10.1038/nplants.2017.15 |pmid=28260783 |url=http://urn.kb.se/resolve?urn=urn:nbn:se:nrm:diva-2274 |type=Submitted manuscript }}
182. ^{{cite journal |author1=Rimas A. Kubilius |author2=Adrian Bölz |author3=Kathrin Feldberg |author4=Lars Hedenäs |author5=Alfons Schäfer-Verwimp |author6=Alexander R. Schmidt |author7=Jochen Heinrichs |year=2017 |title=The moss Helicophyllum torquatum (Bryopsida: Helicophyllaceae) has survived since at least the Miocene |journal=Botanical Journal of the Linnean Society |volume=185 |issue=1 |pages=56–64 |doi=10.1093/botlinnean/box041 }}
183. ^{{Cite journal|author=Graham McLean |year=2017 |title=A "mystery fossil" is evidence for massive Devonian trees in Australia |journal=Records of the Australian Museum |volume=69 |issue=2 |pages=101–118 |doi=10.3853/j.2201-4349.69.2017.1661 }}
184. ^{{cite journal |author1=Vivi Vajda |author2=Milda Pucetaite |author3=Stephen McLoughlin |author4=Anders Engdahl |author5=Jimmy Heimdal |author6=Per Uvdal |year=2017 |title=Molecular signatures of fossil leaves provide unexpected new evidence for extinct plant relationships |journal=Nature Ecology & Evolution |volume=1 |issue=8 |pages=1093–1099 |doi=10.1038/s41559-017-0224-5 |pmid=29046567 }}
185. ^{{cite journal |author1=Le Liu |author2=Deming Wang |author3=Meicen Meng |author4=Jinzhuang Xue |year=2017 |title=Further study of Late Devonian seed plant Cosmosperma polyloba: its reconstruction and evolutionary significance |journal=BMC Evolutionary Biology |volume=17 |issue=1 |pages=149 |doi=10.1186/s12862-017-0992-1 |pmid=28651518 |pmc=5485708 }}
186. ^{{cite journal |author1=Zhuo Feng |author2=Yong Lv |author3=Yun Guo |author4=Hai-Bo Wei |author5=Hans Kerp |year=2017 |title=Leaf anatomy of a late Palaeozoic cycad |journal=Biology Letters |volume=13 |issue=11 |pages=20170456 |doi=10.1098/rsbl.2017.0456 |pmid=29093177 |pmc=5719380 }}
187. ^{{cite journal |author1=W. K. Soh |author2=I. J. Wright |author3=K. L. Bacon |author4=T. I. Lenz |author5=M. Steinthorsdottir |author6=A. C. Parnell |author7=J. C. McElwain |year=2017 |title=Palaeo leaf economics reveal a shift in ecosystem function associated with the end-Triassic mass extinction event |journal=Nature Plants |volume=3 |issue=8 |pages=Article number 17104 |doi=10.1038/nplants.2017.104|pmid=28714942 }}{{open access}}
188. ^{{Cite journal|author1=Elisabeth A. Wheeler |author2=Rashmi Srivastava |author3=Steven R. Manchester |author4=Pieter Baas |year=2017 |title=Surprisingly modern Latest Cretaceous–earliest Paleocene woods of India |journal=IAWA Journal |volume=38 |issue=4 |pages=456–542 |doi=10.1163/22941932-20170174 }}
189. ^{{cite journal |author1=Anna Lena Möller |author2=Uwe Kaulfuss |author3=Daphne E. Lee |author4=Torsten Wappler |year=2017 |title=High richness of insect herbivory from the early Miocene Hindon Maar crater, Otago, New Zealand |journal=PeerJ |volume=5 |pages=e2985 |doi=10.7717/peerj.2985 |pmid=28224051 |pmc=5316282 }}
190. ^{{cite journal |author1=Suryendu Dutta |author2=Rakesh C. Mehrotra |author3=Swagata Paul |author4=R. P. Tiwari |author5=Sharmila Bhattacharya |author6=Gaurav Srivastava |author7=V. Z. Ralte |author8=C. Zoramthara |year=2017 |title=Remarkable preservation of terpenoids and record of volatile signalling in plant-animal interactions from Miocene amber |journal=Scientific Reports |volume=7 |issue=1 |pages=Article number 10940 |doi=10.1038/s41598-017-09385-w |pmid=28887448 |pmc=5591258 }}
191. ^{{Cite journal|author1=Ledis Regalado |author2=Alexander R. Schmidt |author3=Patrick Müller |author4=Max J. Kobbert |author5=Harald Schneider |author6=Jochen Heinrichs |year=2017 |title=The first fossil of Lindsaeaceae (Polypodiales) from the Cretaceous amber forest of Myanmar |journal=Cretaceous Research |volume=72 |pages=8–12 |doi=10.1016/j.cretres.2016.12.003 }}
192. ^{{cite journal |author1=Zhuo Feng |author2=Jun Wang |author3=Ronny Rößler |author4=Adam Ślipiński |author5=Conrad Labandeira |year=2017 |title=Late Permian wood-borings reveal an intricate network of ecological relationships |journal=Nature Communications |volume=8 |issue=1 |pages=Article number 556 |doi=10.1038/s41467-017-00696-0 |pmid=28916787 |pmc=5601472 }}
193. ^{{Cite journal|author1=Ludwig Luthardt |author2=Ronny Rößler |year=2017 |title=Fossil forest reveals sunspot activity in the early Permian |journal=Geology |volume=45 |issue=3 |pages=279–282 |doi=10.1130/G38669.1 }}
194. ^{{Cite journal|author1=Scott St. George |author2=Richard J. Telford |year=2017 |title=Fossil forest reveals sunspot activity in the early Permian: COMMENT |journal=Geology |volume=45 |issue=10 |pages=e427 |doi=10.1130/G39414C.1 }}
195. ^{{Cite journal|author1=Ludwig Luthardt |author2=Ronny Rößler |year=2017 |title=Fossil forest reveals sunspot activity in the early Permian: REPLY |journal=Geology |volume=45 |issue=10 |pages=e428 |doi=10.1130/G39607Y.1 }}
196. ^{{Cite journal|author1=Chris Mays |author2=David J. Cantrill |author3=Joseph J. Bevitt |year=2017 |title=Polar wildfires and conifer serotiny during the Cretaceous global hothouse |journal=Geology |volume=45 |issue=12 |pages=1119–1122 |doi=10.1130/G39453.1 }}
197. ^{{Cite journal|author1=Jean-David Moreau |author2=Didier Néraudeau |author3=Vincent Perrichot |author4=Paul Tafforeau |year=2017 |title=100-million-year-old conifer tissues from the mid-Cretaceous amber of Charente (western France) revealed by synchrotron microtomography |journal=Annals of Botany |volume=119 |issue=1 |pages=117–128 |doi=10.1093/aob/mcw225 |pmid=27941095 |pmc=5218381 }}
198. ^{{Cite journal|author1=Yunjun Bai |author2=Xiaoqiang Li |year=2017 |title=Late Miocene Pseudolarix amabilis bract-scale complex from Zhejiang, East China |journal=PLoS ONE |volume=12 |issue=7 |pages=e0180979 |doi=10.1371/journal.pone.0180979 |pmid=28686672 |pmc=5501647 }}
199. ^{{Cite journal|author1=Maria Edenilce Peixoto Batista |author2=Delmira da Costa Silva |author3=Marcos A. F. Sales |author4=Artur A. Sá |author5=Antônio A. F. Saraiva |author6=Maria Iracema Bezerra Loiola |year=2017 |title=New data on the stem and leaf anatomy of two conifers from the Lower Cretaceous of the Araripe Basin, northeastern Brazil, and their taxonomic and paleoecological implications |journal=PLoS ONE |volume=12 |issue=3 |pages=e0173090 |doi=10.1371/journal.pone.0173090 |pmid=28257466 |pmc=5336239 }}
200. ^{{cite journal |author1=David Peris |author2=Ricardo Pérez-de la Fuente |author3=Enrique Peñalver |author4=Xavier Delclòs |author5=Eduardo Barrón |author6=Conrad C. Labandeira |year=2017 |title=False Blister Beetles and the Expansion of Gymnosperm-Insect Pollination Modes before Angiosperm Dominance |journal=Current Biology |volume=27 |issue=6 |pages=897–904 |doi=10.1016/j.cub.2017.02.009 |pmid=28262492 }}
201. ^{{Cite journal|author1=Qingqing Zhang |author2=Bo Wang |year=2017 |title=Evolution of lower brachyceran flies (Diptera) and their adaptive radiation with angiosperms |journal=Frontiers in Plant Science |volume=8 |pages=Article 631 |doi=10.3389/fpls.2017.00631 |pmid=28484485 |pmc=5401883 }}
202. ^{{cite journal |author1=Friðgeir Grímsson |author2=Paschalia Kapli |author3=Christa-Charlotte Hofmann |author4=Reinhard Zetter |author5=Guido W. Grimm |year=2017 |title=Eocene Loranthaceae pollen pushes back divergence ages for major splits in the family |journal=PeerJ |volume=5 |pages=e3373 |doi=10.7717/peerj.3373 |pmid=28607837 |pmc=5466002 }}
203. ^{{Cite journal|author1=Hemant Sonkusare |author2=Bandana Samant |author3=D. M. Mohabey |year=2017 |title=Microflora from sauropod coprolites and associated sediments of Late Cretaceous (Maastrichtian) Lameta Formation of Nand-Dongargaon basin, Maharashtra |journal=Journal of the Geological Society of India |volume=89 |issue=4 |pages=391–397 |doi=10.1007/s12594-017-0620-0 }}
204. ^{{Cite journal|author=Christopher E. Doughty |year=2017 |title=Herbivores increase the global availability of nutrients over millions of years |journal=Nature Ecology & Evolution |volume=1 |issue=12 |pages=1820–1827 |doi=10.1038/s41559-017-0341-1 |pmid=29038478 }}
205. ^{{Cite journal|author1=Karsten Salomo |author2=James F. Smith |author3=Taylor S. Feild |author4=Marie-Stéphanie Samain |author5=Laura Bond |author6=Christopher Davidson |author7=Jay Zimmers |author8=Christoph Neinhuis |author9=Stefan Wanke |year=2017 |title=The emergence of earliest angiosperms may be earlier than fossil evidence indicates |journal=Systematic Botany |volume=42 |issue=4 |pages=1–13 |doi=10.1600/036364417X696438 |pmid=29398773 |pmc=5792071 }}