Confluence, synnovation, and depauperons in plant diversification
about
The abiotic and biotic drivers of rapid diversification in Andean bellflowers (Campanulaceae)Phylogenomics Reveals Three Sources of Adaptive Variation during a Rapid RadiationAre sympatrically speciating Midas cichlid fish special? Patterns of morphological and genetic variation in the closely related species Archocentrus centrarchusNon-equilibrium dynamics and floral trait interactions shape extant angiosperm diversityUplift-driven diversification in the Hengduan Mountains, a temperate biodiversity hotspot.Back to the past: a new take on the timing of flowering plant diversification.Using targeted enrichment of nuclear genes to increase phylogenetic resolution in the neotropical rain forest genus Inga (Leguminosae: Mimosoideae).The evolutionary history of Eugenia sect. Phyllocalyx (Myrtaceae) corroborates historically stable areas in the southern Atlantic forests.Resolution of deep eudicot phylogeny and their temporal diversification using nuclear genes from transcriptomic and genomic datasets.Secrets of succulence.Recent origin and rapid speciation of Neotropical orchids in the world's richest plant biodiversity hotspotWidespread adaptive evolution during repeated evolutionary radiations in New World lupins.Increased diversification rates follow shifts to bisexuality in liverworts.Temperate radiations and dying embers of a tropical past: the diversification of Viburnum.Barrier Displacement on a Neutral Landscape: Toward a Theory of Continental Biogeography.Detecting Hidden Diversification Shifts in Models of Trait-Dependent Speciation and Extinction.Seed size and its rate of evolution correlate with species diversification across angiosperms.Trade-off between soluble protein production and nutritional storage in Bromeliaceae.Plant size: a key determinant of diversification?Phylogenetic tests for evolutionary innovation: the problematic link between key innovations and exceptional diversification.Disparity, diversity, and duplications in the Caryophyllales.How bird clades diversify in response to climatic and geographic factors.Evolutionary plant radiations: where, when, why and how?Approaches to Macroevolution: 1. General Concepts and Origin of Variation.Hummingbird pollination and the diversification of angiosperms: an old and successful association in Gesneriaceae.Accelerated diversification is related to life history and locomotion in a hyperdiverse lineage of microbial eukaryotes (Diatoms, Bacillariophyta).Tales of dracula ants: the evolutionary history of the ant subfamily Amblyoponinae (Hymenoptera: Formicidae)
P2860
Q28596111-31CCB23F-A7CB-470B-B6C1-8E5F39A42742Q28600841-30994190-6946-43CC-BAE0-E92D34B8AECDQ28602335-021C46C9-D9D1-46BE-B70B-662A8E22DDD9Q28602428-161B56D5-354D-4924-8A8E-E36498D87886Q33620073-0B1B3568-6B37-49E3-AAC8-8D1D3D353CA8Q35669972-5A743AF1-AC96-4B59-8323-AFCD8875B138Q36097442-1B1533DC-C817-4C78-8FCA-E77AFBFB5714Q36224112-B0DC0F8A-E413-4B5B-BE0F-28F89E75C420Q36308252-CE7D53FD-8002-41F3-95AF-D15EB5FB8E0AQ36332210-864D73B2-6B8C-48E4-B8E0-69BA1229E304Q36410008-4550BE6A-C763-490A-B926-BC1F49F2452DQ37163441-2DCC3169-5622-449C-9BE7-C2600097AAA5Q38381850-0FA62D58-D192-4162-B8D9-7B6282A08708Q38393646-B61E6807-A6E7-42EB-9847-6CE2DDAD362DQ39427166-593EC0D4-6FC8-4A33-9870-E4BBEC42C457Q39887706-07822699-1E38-4F09-8066-43FAE40E43C7Q41186424-167F24EF-684C-4E7C-8E99-0C8A0BAB3AF9Q42729414-7A5BE3A2-99D2-4095-8488-8EC8BF7A2D3CQ46179578-0C43948A-651B-4E64-827C-5C2CBBD64D9CQ46276807-C43C40DF-A750-40C1-9758-7E597B224478Q46309136-FEB1F076-F56C-4D19-8032-C507F2A2644FQ46336408-07AAF37C-CA33-4C6E-89E6-BDBE257820CCQ46711952-E9AF96D8-A96A-46B8-BF50-ED013B061190Q47155057-16FC887C-F255-4FA0-BEF8-C1A0995DB97DQ51217942-887A1DD4-8CA1-42A1-A86F-67E50B9AEEC5Q52330070-CBCAC558-A095-48EF-9D34-BAFD31638883Q54577872-BC327409-31DB-4098-BDF3-197CBDBD705F
P2860
Confluence, synnovation, and depauperons in plant diversification
description
2015 nî lūn-bûn
@nan
2015 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Confluence, synnovation, and depauperons in plant diversification
@ast
Confluence, synnovation, and depauperons in plant diversification
@en
Confluence, synnovation, and depauperons in plant diversification
@nl
type
label
Confluence, synnovation, and depauperons in plant diversification
@ast
Confluence, synnovation, and depauperons in plant diversification
@en
Confluence, synnovation, and depauperons in plant diversification
@nl
prefLabel
Confluence, synnovation, and depauperons in plant diversification
@ast
Confluence, synnovation, and depauperons in plant diversification
@en
Confluence, synnovation, and depauperons in plant diversification
@nl
P2860
P3181
P356
P1433
P1476
Confluence, synnovation, and depauperons in plant diversification
@en
P2093
Michael J. Donoghue
Michael J. Sanderson
P2860
P304
P3181
P356
10.1111/NPH.13367
P407
P577
2015-07-01T00:00:00Z