about
Molecular phylogenetics and evolution of maternal care in Membracine treehoppersInferring ancestral states without assuming neutrality or gradualism using a stable model of continuous character evolutionSystematics of myliobatoid elasmobranchs: with emphasis on the phylogeny and historical biogeography of neotropical freshwater stingrays (Potamotrygonidae: Rajiformes)The eyes have it: regulatory and structural changes both underlie cichlid visual pigment diversity.Fecundity increase supports adaptive radiation hypothesis in spider web evolution.Convergence, adaptation, and constraint.Carrion mimicry in a South African orchid: flowers attract a narrow subset of the fly assemblage on animal carcassesUsing phylogenetics to detect pollinator-mediated floral evolution.CLADOGRAM VERSATILITY: EVOLUTION AND BIOGEOGRAPHY OF ACANTHUROID FISHES.USING PHYLOGENIES TO TEST HYPOTHESES OF ADAPTATION: A CRITIQUE OF SOME CURRENT PROPOSALS.HISTORICAL EXAMINATION OF DELAYED PLUMAGE MATURATION IN THE SHOREBIRDS (AVES: CHARADRIIFORMES).PHYLOGENETIC ANALYSIS OF THE EVOLUTION OF ALTERNATIVE SOCIAL BEHAVIOR IN THE MANAKINS (AVES: PIPRIDAE).EVOLUTION, PHYLOGENY, SEXUAL DIMORPHISM AND MATING SYSTEM IN THE GRACKLES (QUISCALUS SPP.: ICTERINAE).SHELL MICROSTRUCTURE OF GASTROPODS FROM LAKE TANGANYIKA, AFRICA: ADAPTATION, CONVERGENT EVOLUTION, AND ESCALATION.Adaptation or exaptation? The case of the human hand.Phylogenetic analyses: comparing species to infer adaptations and physiological mechanisms.THE ORIGIN OF AN ORGAN: PHYLOGENETIC ANALYSIS OF EVOLUTIONARY INNOVATION IN THE DIGESTIVE TRACT OF FLIES (INSECTA: DIPTERA).A CLADISTIC ANALYSIS OF PHEROMONE EVOLUTION IN IPS BARK BEETLES (COLEOPTERA: SCOLYTIDAE).BUTTERFLIES AND PLANTS: A PHYLOGENETIC STUDY.ADAPTATION AND CONSTRAINT IN THE EVOLUTION OF THE PHYSIOLOGY AND BEHAVIOR OF THE NAMIB DESERT TENEBRIONID BEETLE GENUS ONYMACRIS.THE EFFECT OF BIASED INCLUSION OF TAXA ON THE CORRELATION BETWEEN DISCRETE CHARACTERS IN PHYLOGENETIC TREES.Molecular characterization and phylogeny of whipworm nematodes inferred from DNA sequences of cox1 mtDNA and 18S rDNA.TESTING ADAPTIVE RADIATION AND KEY INNOVATION HYPOTHESES IN SPIDERS.Mitochondrial DNA as a tool for reconstructing past life-history traits in mammals.A METHOD FOR TESTING THE CORRELATED EVOLUTION OF TWO BINARY CHARACTERS: ARE GAINS OR LOSSES CONCENTRATED ON CERTAIN BRANCHES OF A PHYLOGENETIC TREE?SPERMATOPHORE SIZE IN BUSHCRICKETS: COMPARATIVE EVIDENCE FOR NUPTIAL GIFTS AS A SPERM PROTECTION DEVICE.On the reversibility of mandibular symphyseal fusion.Correlated evolution in fig pollination.PHYLOGENIES AND THE ANALYSIS OF EVOLUTIONARY SEQUENCES, WITH EXAMPLES FROM SEED PLANTS.COMPARATIVE ANALYSIS OF GALL MORPHOLOGY IN AUSTRALIAN GALL THRIPS: THE EVOLUTION OF EXTENDED PHENOTYPES.The relationship between morphology, escape behaviour and microhabitat occupation in the lizard clade Liolaemus (Iguanidae: Tropidurinae: Liolaemini).Historical ecology of sub-Antarctic weevils (Coleoptera: Curculionidae): patterns and processes on isolated islandsSystematic relationships and the evolution of some life history aspects in the mite genusEnsliniellaVitzthum, 1925 (Acari: Winterschmidtiidae)The Evolution of Dental Eruption Sequence in ArtiodactylsCapture thread extensibility of orb-weaving spiders: testing punctuated and associative explanations of character evolutionEvolution and maintenance of sexual size dimorphism: aligning phylogenetic and experimental evidenceMonoPhy: a simple R package to find and visualize monophyly issues
P2860
Q28289554-7D600955-EFB2-4072-BFDC-C8C28052B137Q28649785-95797CAF-BD28-4033-9204-FCB69D5E2988Q29392598-C537FDE9-8F27-4C07-AD5E-CDC2060A0FF4Q33520200-B1D61E44-C7FB-4DE0-A627-4A5A9248B122Q33693248-BA4D7580-4ED0-43D7-A733-35C7D7892D49Q33950826-232D30D3-965E-4211-AABD-98FEFFE35564Q34829847-16D7191E-DAED-482D-8209-409111E060DBQ35034287-F1204463-655B-4687-AB91-CB694855C04AQ36387544-0BA1D7FE-2529-4090-AB30-3C07DF05E3B4Q36388266-15DF9CBB-6133-466D-A3B2-D85EE4208AA9Q36388524-22BF6225-4D1B-48BF-91B4-B3BA35E86EC3Q36388580-C4F7FB83-E31B-4132-827B-1716C8791600Q36388667-548BA7C4-1975-4125-97EB-B92D09CC10A6Q36388708-76C0B9CA-55DF-4828-9F4A-FAAB26416EE3Q37920538-0DF80728-3519-46E8-9D13-29887D850E8FQ38111285-5E1E30F5-9409-475D-8D02-67176DD6B41CQ38751730-DF3A4DD4-F516-4C30-A155-2EB94BFD92A3Q38751735-9195B9CA-AE3F-426A-852C-E66951D079EDQ38751884-C18ABD8D-3E4D-4E5D-990A-6CC86D1398F8Q38753253-0675863B-B1F9-4886-82E5-B33DC86D4A36Q38753584-4FEBE428-0A23-49B4-B087-769FDC391496Q43717069-DEA7D65D-8734-4BC0-A42F-1930AFCE4432Q45060439-1BA88509-25A7-4392-8C6B-D24CB55B994DQ45369038-DA99C3D8-78BA-43C7-8EE0-BC37DA7A1696Q46006085-5D9A4FC5-A08C-4012-B98F-75D9CAC6988CQ47389536-D3B0C0C4-7992-4F95-9F0E-40CEC3E60265Q50786854-C6F7936D-99F3-41BB-ADE3-09B278911141Q51035333-4237A88D-BF72-44EB-B471-108BF65764CEQ52244948-5B7BD99E-9346-4500-A357-6B18DF722679Q52869529-A4F0D85B-2087-4BDE-A88C-B5A80347572BQ53847225-6A826E3A-928B-406E-9AC8-941F674F04E2Q54582671-9A486913-FA8C-46CB-8579-5E5A74E22160Q54621335-D3D47512-05F2-4EEA-AC69-16E02E3A7509Q56928063-1B78DE69-E625-42C9-8C04-B7A78124229FQ56991971-D616139E-69C0-4BD3-9804-C68744159077Q57898361-F7426F4A-D02D-4383-AC1E-414F5441716EQ58046454-B5D6648C-04FC-4B5E-91E8-C45DFA649A2E
P2860
description
1988 nî lūn-bûn
@nan
1988 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1988 թվականի մարտին հրատարակված գիտական հոդված
@hy
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
name
CLADISTIC TESTS OF ADAPTATIONAL HYPOTHESES
@ast
CLADISTIC TESTS OF ADAPTATIONAL HYPOTHESES
@en
type
label
CLADISTIC TESTS OF ADAPTATIONAL HYPOTHESES
@ast
CLADISTIC TESTS OF ADAPTATIONAL HYPOTHESES
@en
prefLabel
CLADISTIC TESTS OF ADAPTATIONAL HYPOTHESES
@ast
CLADISTIC TESTS OF ADAPTATIONAL HYPOTHESES
@en
P1433
P1476
CLADISTIC TESTS OF ADAPTATIONAL HYPOTHESES
@en
P2093
Jonathan A. Coddington
P2860
P356
10.1111/J.1096-0031.1988.TB00465.X
P577
1988-03-01T00:00:00Z