The beetle tree of life reveals that Coleoptera survived end-Permian mass extinction to diversify during the Cretaceous terrestrial revolution
about
Review of Dolichostyrax Aurivillius (Cerambycidae, Lamiinae) in Borneo, with descriptions of three new genera and the first case of (ovo)viviparity in the long-horned beetlesGlobal patterns of insect diversification: towards a reconciliation of fossil and molecular evidence?Progress, pitfalls and parallel universes: a history of insect phylogeneticsA review and phylogeny of Scarabaeine dung beetle fossils (Coleoptera: Scarabaeidae: Scarabaeinae), with the description of two Canthochilum species from Dominican amberIf Dung Beetles (Scarabaeidae: Scarabaeinae) Arose in Association with Dinosaurs, Did They Also Suffer a Mass Co-Extinction at the K-Pg Boundary?Spider phylogenomics: untangling the Spider Tree of LifeFamily-Level Sampling of Mitochondrial Genomes in Coleoptera: Compositional Heterogeneity and PhylogeneticsGenome of the Asian longhorned beetle (Anoplophora glabripennis), a globally significant invasive species, reveals key functional and evolutionary innovations at the beetle-plant interfaceGenomic Mining of Phylogenetically Informative Nuclear Markers in Bark and Ambrosia BeetlesWorld reclassification of the Cardiophorinae (Coleoptera, Elateridae), based on phylogenetic analyses of morphological charactersSynopsis of the pelidnotine scarabs (Coleoptera, Scarabaeidae, Rutelinae, Rutelini) and annotated catalog of the species and subspeciesGeometric morphometrics analysis of the hind wing of leaf beetles: proximal and distal parts are separate modules.Overcoming the loss of blue sensitivity through opsin duplication in the largest animal group, beetlesTranscriptome sequencing and phylogenetic analysis of four species of luminescent beetles.Molecular phylogeny reveals food plasticity in the evolution of true ladybird beetles (Coleoptera: Coccinellidae: Coccinellini)Molecular evolution of a widely-adopted taxonomic marker (COI) across the animal tree of life.Tip-dated phylogeny of whirligig beetles reveals ancient lineage surviving on Madagascar.The adipokinetic hormone of the coleopteran suborder Adephaga: Structure, function, and comparison of distribution in other insects.Genome-wide survey of nuclear protein-coding markers for beetle phylogenetics and their application in resolving both deep and shallow-level divergences.The head morphology of Clambidae and its implications for the phylogeny of Scirtoidea (Coleoptera: Polyphaga).Strongest grip on the rod: tarsal morphology and attachment of Japanese pine sawyer beetlesLate Permian wood-borings reveal an intricate network of ecological relationships.Reconstruction of mitogenomes by NGS and phylogenetic implications for leaf beetles.Evolutionary timescale of monocots determined by the fossilized birth-death model using a large number of fossil records.Evolutionary history of Coleoptera revealed by extensive sampling of genes and species.The discovery of Iberobaeniidae (Coleoptera: Elateroidea): a new family of beetles from Spain, with immatures detected by environmental DNA sequencing.The first fossil Athyreini beetle (Coleoptera: Geotrupidae)Phylogeny and evolution of the superfamily Chrysomeloidea (Coleoptera: Cucujiformia)The oldest known clerid fossils from the Middle Jurassic of China, with a review of Cleridae systematics (Coleoptera)Palaeoboganium gen. nov. from the Middle Jurassic of China (Coleoptera: Cucujoidea: Boganiidae): the first cycad pollinators?Evolution of lacewings and allied orders using anchored phylogenomics (Neuroptera, Megaloptera, Raphidioptera)Early Cretaceous origin of pollen-feeding beetles (Insecta: Coleoptera: Oedemeridae)†Peltosynidae, a new beetle family from the Middle–Late Triassic of Kyrgyzstan: its affinities with Polyphaga (Insecta, Coleoptera) and the groundplan of this megadiverse suborderAt the dawn of the great rise: †Ponomarenkia belmonthensis (Insecta: Coleoptera), a remarkable new Late Permian beetle from the Southern HemisphereThe first Mesozoic Jacobson's beetle (Coleoptera: Jacobsoniidae) in Cretaceous Burmese amber and biogeographical stasisMitochondrial phylogenomics illuminates the evolutionary history of NeuropteridaPhylogeny of Myrmeleontiformia based on larval morphology (Neuropterida: Neuroptera)Cephalic anatomy and three-dimensional reconstruction of the head of Catops ventricosus (Weise, 1877) (Coleoptera: Leiodidae: Cholevinae)Ultraconserved elements show utility in phylogenetic inference of Adephaga (Coleoptera) and suggest paraphyly of ‘Hydradephaga’The peril of dating beetles
P2860
Q24200138-EC2C06DC-F579-4BEC-AF6D-A2F15A504CECQ27301933-95AA1C31-2F5B-4E91-B489-4CC7E473E501Q28072935-6CA1D7FD-55D7-4A6F-ADB5-D6C7C8633276Q28597794-2BC1FFC1-D990-4137-8403-B1FF4B647ED0Q28603271-DADE7249-8E1B-4E22-A4F4-0E65C14E6429Q28603676-CBF4B8D0-DCE1-4222-B1EA-A3757A5E7950Q28604118-31D246EE-B93A-4B03-9B03-02B26698D302Q28821588-3F2B303A-336A-4497-8575-C8DA53EA6047Q28828976-5FA4C58D-1071-424F-B5A5-CBF82408D79FQ28937291-06C36416-1164-4D47-B820-30AE7C1D06C2Q33129173-36BFFA21-D06A-496A-AC7B-32D8B5A98B2BQ33129329-5A1CCBF9-AC94-4A6F-844A-953778141CE2Q33671537-34C8A628-877F-409E-8B96-DC13B52FE257Q33687470-19566775-37ED-4CE6-854B-9215D52667CBQ33837519-B2F7D712-D4D0-4575-932E-44F36E99D388Q36162199-0345C7FD-D8A9-48DB-BCE2-FBC553A52E6EQ38368051-2263E59A-8CCE-4BCA-8852-70EB81E87A52Q38722888-D4675A04-3620-463A-8FF2-C03B8E07458FQ38930153-B08028D6-3766-4972-B22B-A18D87637DD8Q39943998-88220918-E050-421E-8377-24DA3DF5B278Q41465757-F2223DDA-C136-4798-9EC4-88D257DEBE74Q41701413-19BF3414-2F60-41D6-B572-6F643C29A3CFQ46250887-EB504AB3-57E8-43A8-9121-745796205C2AQ46566623-616E799B-1896-4D29-B5A9-301265B29797Q50042798-B6D2E913-2831-4899-8839-F5A638301631Q52848378-8A38862E-AA1D-44F2-BF6D-586445CA24F5Q54563458-04D12DCD-CD2C-4776-9DB5-315BB7474FD1Q56475383-D9097AB3-A354-454D-8D71-4E031DB2C388Q56689985-59D0E0D0-96C8-49BC-804D-8FDC59364AF6Q56838748-CA87CF82-3363-44D2-B801-5C752ADB729CQ56922735-A4D637C0-25EE-4D9D-B474-69B0C5B90B9CQ57276813-BFA48766-7566-425D-8FF8-AE7417121654Q57276816-6754563F-2AB3-4214-B64F-2A7334C8ED01Q57276835-A7046684-CF0A-4DF9-94DB-A3BB7B684DFBQ57276839-444AF0BC-A70C-4FED-810B-2B38FF2B1681Q57399781-A575AB0E-306F-4642-9940-489127A59A04Q57399782-50F4531A-CA87-48B4-98FB-3E397AC608BDQ57834116-B8F4DD81-4E65-4D65-82DD-A0A5654E72CFQ58493792-E607E82E-DE31-4AD9-B513-D00219D7FCE4Q59241198-5DA6E629-0C51-40DA-BD60-151808E9542F
P2860
The beetle tree of life reveals that Coleoptera survived end-Permian mass extinction to diversify during the Cretaceous terrestrial revolution
description
article
@en
im Juli 2015 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в липні 2015
@uk
ലേഖനം
@ml
name
The beetle tree of life reveal ...... taceous terrestrial revolution
@en
The beetle tree of life reveal ...... taceous terrestrial revolution
@nl
type
label
The beetle tree of life reveal ...... taceous terrestrial revolution
@en
The beetle tree of life reveal ...... taceous terrestrial revolution
@nl
prefLabel
The beetle tree of life reveal ...... taceous terrestrial revolution
@en
The beetle tree of life reveal ...... taceous terrestrial revolution
@nl
P2093
P2860
P921
P356
P1476
The beetle tree of life reveal ...... taceous terrestrial revolution
@en
P2093
ADAM ŚLIPIŃSKI
ALEXANDER L. WILD
ALFRED F. NEWTON
BRIAN D. FARRELL
CHARLES L. BELLAMY
CHARLES W. FARNUM
DAVID C. HAWKS
DAVID R. MADDISON
DUANE D. MCKENNA
JAMES A. ROBERTSON
P2860
P304
P356
10.1111/SYEN.12132
P577
2015-07-06T00:00:00Z