Phase-contrast X-ray microtomography links Cretaceous seeds with Gnetales and Bennettitales.
about
X-ray Synchrotron Microtomography of a silicified Jurassic Cheirolepidiaceae (Conifer) cone: histology and morphology of Pararaucaria collinsonae sp. novStudy of the Histology of Leafy Axes and Male Cones of Glenrosa carentonensis sp. nov. (Cenomanian Flints of Charente-Maritime, France) Using Synchrotron Microtomography Linked with PalaeoecologyA new early Cretaceous relative of Gnetales: Siphonospermum simplex gen. et sp. nov. from the Yixian formation of northeast ChinaTomographic techniques for the study of exceptionally preserved fossilsPlant tissues in 3D via X-ray tomography: simple contrasting methods allow high resolution imagingFossilized nuclei and chromosomes reveal 180 million years of genomic stasis in royal fernsThe early evolution of land plants, from fossils to genomics: a commentary on Lang (1937) 'On the plant-remains from the Downtonian of England and Wales'Applying microCT and 3D visualization to Jurassic silicified conifer seed cones: A virtual advantage over thin-sectioning.Computed 3D visualisation of an extinct cephalopod using computer tomographs.Chengia laxispicata gen. et sp. nov., a new ephedroid plant from the Early Cretaceous Yixian Formation of western Liaoning, Northeast China: evolutionary, taxonomic, and biogeographic implicationsThe earliest fleshy cone of Ephedra from the early cretaceous Yixian Formation of northeast ChinaAngiosperm ovules: diversity, development, evolutionA duplicate gene rooting of seed plants and the phylogenetic position of flowering plants.Complex embryos displaying bilaterian characters from Precambrian Doushantuo phosphate deposits, Weng'an, Guizhou, ChinaVirtual taphonomy using synchrotron tomographic microscopy reveals cryptic features and internal structure of modern and fossil plantsAn uncorrelated relaxed-clock analysis suggests an earlier origin for flowering plantsSkull and brain of a 300-million-year-old chimaeroid fish revealed by synchrotron holotomography.Novelties of the flowering plant pollen tube underlie diversification of a key life history stageRevealing letters in rolled Herculaneum papyri by X-ray phase-contrast imaging.The presumed ginkgophyte Umaltolepis has seed-bearing structures resembling those of Peltaspermales and UmkomasialesA novel noninvasive procedure for high-throughput screening of major seed traits.Early Cretaceous Umkomasia from Mongolia: implications for homology of corystosperm cupules.Improved performance of diatomite-based dental nanocomposite ceramics using layer-by-layer assembly.Palaeobotanical redux: revisiting the age of the angiosperms.Two early eudicot fossil flowers from the Kamikitaba assemblage (Coniacian, Late Cretaceous) in northeastern Japan.The evolution of seeds.Cryptospores and cryptophytes reveal hidden diversity in early land floras.The fossil Osmundales (Royal Ferns)-a phylogenetic network analysis, revised taxonomy, and evolutionary classification of anatomically preserved trunks and rhizomes.Scanning electron microscopy and synchrotron radiation x-ray tomographic microscopy of 330 million year old charcoalified seed fern fertile organs.100-million-year-old conifer tissues from the mid-Cretaceous amber of Charente (western France) revealed by synchrotron microtomography.Multiscale 3D virtual dissections of 100-million-year-old flowers using X-ray synchrotron micro- and nanotomography.Origins. On the origin of flowering plants.First beetle elytra, abdomen (Coleoptera) and a mine trace from Lunz (Carnian, Late Triassic, Lunz-am-See, Austria) and their taphonomical and evolutionary aspectsDynamic 13C/1H NMR imaging uncovers sugar allocation in the living seedThe diversity of Australian Mesozoic bennettitopsid reproductive organsWelwitschioid diversity in the Early Cretaceous: evidence from fossil seeds with pollen from Portugal and eastern North AmericaAnatomically preserved Early Cretaceous bennettitalean leaves:Nilssoniopteris corrugatan. sp. from Vancouver Island, CanadaThree-dimensional visualization of fossil flowers, fruits, seeds, and other plant remains using synchrotron radiation X-ray tomographic microscopy (SRXTM): new insights into Cretaceous plant diversityErdtmanitheca portucalensis, a new pollen organ from the Early Cretaceous (Aptian–Albian) of Portugal withEucommiidites-type pollenRaunsgaardispermum lusitanicumgen. et sp. nov., a new seed within situpollen from the Early Cretaceous (probably Berriasian) of Portugal: Further support for the Bennettitales‐Erdtmanithecales‐Gnetales link
P2860
Q21128709-1D7D8338-2861-4873-A0DE-43A7425687B6Q21131726-185D54EE-D32D-4DDF-B3BE-0FE96635173EQ21284124-3EB2EB9E-D23F-4001-8380-1596DA6949CFQ24668309-241A445C-CB6E-41F0-929A-826A8FAAD1E1Q27305355-DE6CD6A5-4B57-41AE-8042-4C88F06111ADQ28236425-272D8E41-FEE3-4237-9631-D02F089AC3DFQ28652366-678206A3-9C68-462E-A77D-9F7FDAC91B40Q28655541-F8F4818E-E2F8-46DA-8813-82A478D1541EQ28660184-A4C400BB-3A6D-4078-9131-6C2411796714Q28709045-A4EDC9D2-A60A-4986-BBEF-56CCBC127DC9Q28709985-D2453A0E-6C4E-4003-A306-A932E746076DQ28743945-51C5D929-7F4A-4921-8E1A-310D80D844DAQ28748516-E11A2568-10A5-444B-A830-E92029C6D7BAQ28750189-95C9FE43-1780-4216-8BDF-23DFD3473993Q28752156-93DD8031-EAB6-48F7-9936-C8A4DA0B733DQ28752634-DFECB095-6C69-49CB-B4B2-ED63E5522CDAQ28755211-D73603D4-2116-40EC-A6FD-26C20061F16FQ28757407-3FFE22DE-2D3A-47E3-82AB-3407E3F37E4CQ30370915-143EEC3C-2642-4502-9E40-216CFF5DD797Q30843346-2225AF4D-ABB7-4377-BC30-BBA4E84BA09EQ30848699-221A3CF7-F278-4908-B0CB-161B0BBB0AA1Q31042639-85482DC2-1E22-4082-AB5E-7C61B20DFCE8Q35972709-45A20A3C-C6F7-4855-BFF2-07E350A83055Q36297596-AF0954F1-F276-49E0-A38B-D73E611032F4Q36369897-046D0E1F-B364-4362-AF92-D0028F59EC53Q37734588-70A88524-DDA4-482B-8C11-7696A0896250Q38177373-A49CCF49-778E-4F67-9FA2-54BE82FB6A25Q38369220-708BD884-AAA2-4B6B-9774-FE2E20CAA074Q39877617-2CB199B7-219F-431C-9B6B-A8E5DFEFF4D3Q46447520-2DAED895-7018-48D4-823C-007C89F6DCC3Q46950011-B4FD52B6-D33B-4C8E-B1EB-4DE4FCDFB92DQ47605579-A72110DB-9EAB-49DC-8556-00327922F6F3Q54619034-194C7E60-6F1C-4647-98B3-30A95249F883Q56027565-E862C1A3-4145-4C51-B823-2D1AE63B738BQ56554610-F84E1662-933E-4878-BA5A-E010351B6E86Q56658339-F3A80C1F-1091-4727-9A5D-7CA163AB4C80Q56658345-B6984928-BEF0-4C2E-AA64-078BC8AE61E8Q56950132-9450B762-2E9F-4EDE-AAAF-4CA1F3D7A03BQ56950226-771842BB-98AC-4ADF-9AAC-8CE3DDD82700Q56950298-7687686E-D985-47D9-B624-5777BE5EA767
P2860
Phase-contrast X-ray microtomography links Cretaceous seeds with Gnetales and Bennettitales.
description
2007 nî lūn-bûn
@nan
2007 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@ast
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@en
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@nl
type
label
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@ast
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@en
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@nl
prefLabel
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@ast
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@en
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@nl
P50
P356
P1433
P1476
Phase-contrast X-ray microtomo ...... th Gnetales and Bennettitales.
@en
P2093
Marco Stampanoni
P2888
P304
P356
10.1038/NATURE06278
P407
P577
2007-11-01T00:00:00Z
P5875
P6179
1016389513