400 million years on six legs: on the origin and early evolution of Hexapoda.
about
Tomographic reconstruction of neopterous carboniferous insect nymphsAt last, a Pennsylvanian stem-stonefly (Plecoptera) discoveredGenealogical correspondence of a forebrain centre implies an executive brain in the protostome-deuterostome bilaterian ancestor.Molecular phylogenetic analyses support the monophyly of Hexapoda and suggest the paraphyly of EntognathaWhere taxonomy based on subtle morphological differences is perfectly mirrored by huge genetic distances: DNA barcoding in Protura (Hexapoda)The Hox genes Ultrabithorax and abdominal-A specify three different types of abdominal appendage in the springtail Orchesella cincta (Collembola).Decisive data sets in phylogenomics: lessons from studies on the phylogenetic relationships of primarily wingless insectsExpression of collier in the premandibular segment of myriapods: support for the traditional Atelocerata concept or a case of convergence?Parametric and non-parametric masking of randomness in sequence alignments can be improved and leads to better resolved treesEarly Terrestrial Animals, Evolution, and UncertaintyAnimal Aloft: The Origins of Aerial Behavior and FlightBiotic and environmental dynamics through the Late Jurassic-Early Cretaceous transition: evidence for protracted faunal and ecological turnover.Midgut transcriptome profiling of Anoplophora glabripennis, a lignocellulose degrading cerambycid beetle.A phylogenomic approach to resolve the arthropod tree of life.The complete mitochondrial genomes of three bristletails (Insecta: Archaeognatha): the paraphyly of Machilidae and insights into archaeognathan phylogeny.A transcriptomic survey of Migdolus fryanus (sugarcane rhizome borer) larvaeCentral nervous system and muscular bundles preserved in a 240 million year old giant bristletail (Archaeognatha: Machilidae).A quantitative review of pollination syndromes: do floral traits predict effective pollinators?The springtail cuticle as a blueprint for omniphobic surfaces.The structure and function of thioester-containing proteins in arthropods.Serotonin-containing neurons in basal insects: In search of ground patterns among tetraconata.The presumed oldest flying insect: more likely a myriapod?An evolutionary analysis of flightin reveals a conserved motif unique and widespread in Pancrustacea.Terrestrial invertebrates in the Rhynie chert ecosystem.Handling and Use of Oxygen by Pancrustaceans: Conserved Patterns and the Evolution of Respiratory Structures.The origin of terrestrial isopods (Crustacea: Isopoda: Oniscidea)Diversity and potential correlations to the function of Collembola cuticle structuresSpecies living in harsh environments have low clade rank and are localized on former Laurasian continents: a case study ofWillemia(Collembola)
P2860
Q21134029-4CF436E9-6CD4-4C35-BBFC-C82F4BBCB0B3Q21284055-14BFB9E1-5460-46F4-A943-081E834D113BQ28603830-333D1612-6A43-48C2-AF18-53E98C835EECQ28652355-6E1F9510-7816-4818-9989-38C91EEF9BF6Q28658073-37235AF6-A95D-4336-B82A-DA7F79A739BFQ28659636-83516DF2-B124-4B60-B0C6-A0403FD78589Q28660877-8DA46C70-F6CD-41E6-9BF7-E8B723E2D0B0Q28742078-4A340D50-24B0-44EA-A44B-60200EBDD460Q28752255-5C18C2DC-5F7B-4DB8-B391-07D2F12B3047Q29396995-E6994FF5-4B6F-4629-AE24-7E47D197498DQ30047778-65EA1C40-FE0B-40D4-9D25-2CBA84F8EA46Q31047379-4EBAF04F-7421-4314-B9B4-C5816EC60F14Q33715603-82746722-2263-487E-8FBF-D9C3B1848DDEQ34119871-A75D1EAB-D7BA-4599-8661-5B09169DE864Q35069258-7A2B8FFB-2AE3-477E-83EC-14D8BD7EF878Q36293934-515DB0DF-0DDC-480C-A10A-45F83011A415Q36339437-0AC1CC09-F273-4FA5-BD2D-8D0CFD909B42Q38176098-2AE1EAA7-228A-4009-8F4D-DE05277F36E7Q38560275-683145E2-1C03-4195-A108-AC91D5CB44EBQ39217886-833E242A-A2ED-4C80-81BA-F8231645A516Q39749662-B8980EBA-BF4D-4B94-9861-AA1C10761DF5Q41890915-380918FA-75DD-44F5-B6ED-EDF7C02FCEDBQ42005783-851CF52F-E94A-4857-A34F-C6C8A2F1BDE7Q46237189-43CF5367-0C26-4849-891B-8B62424D3C07Q46724892-097BE1B9-C367-4E94-BCCB-CE5B0FF424B2Q56429115-94AC7294-8944-4F03-844D-062DFDAFE0C8Q56814584-EBEF5F9D-08B5-4713-95F3-26C1C75D5A42Q56814587-1A1A1DB8-D573-412C-8D01-D4CBB390EEAF
P2860
400 million years on six legs: on the origin and early evolution of Hexapoda.
description
2009 nî lūn-bûn
@nan
2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
400 million years on six legs: on the origin and early evolution of Hexapoda.
@ast
400 million years on six legs: on the origin and early evolution of Hexapoda.
@en
400 million years on six legs: on the origin and early evolution of Hexapoda.
@nl
type
label
400 million years on six legs: on the origin and early evolution of Hexapoda.
@ast
400 million years on six legs: on the origin and early evolution of Hexapoda.
@en
400 million years on six legs: on the origin and early evolution of Hexapoda.
@nl
prefLabel
400 million years on six legs: on the origin and early evolution of Hexapoda.
@ast
400 million years on six legs: on the origin and early evolution of Hexapoda.
@en
400 million years on six legs: on the origin and early evolution of Hexapoda.
@nl
P1476
400 million years on six legs: on the origin and early evolution of Hexapoda.
@en
P2093
David A Grimaldi
P304
P356
10.1016/J.ASD.2009.10.008
P577
2009-11-18T00:00:00Z