Timing of the Last Glacial Maximum from observed sea-level minima
about
Melithaeidae of Japan (Octocorallia, Alcyonacea) re-examined with descriptions of 11 new speciesPleistocene glacial refugia across the Appalachian Mountains and coastal plain in the millipede genus Narceus: evidence from population genetic, phylogeographic, and paleoclimatic dataMolecular phylogeny of Burkholderia pseudomallei from a remote region of Papua New GuineaAnalyses of pig genomes provide insight into porcine demography and evolutionMitochondrial population genomics supports a single pre-Clovis origin with a coastal route for the peopling of the AmericasThe Last Glacial MaximumPhylogeography of Arenaria balearica L. (Caryophyllaceae): evolutionary history of a disjunct endemic from the Western Mediterranean continental islandsFirst freshwater coralline alga and the role of local features in a major biome transitionPhylogeny and historical demography of endemic fishes in Lake Biwa: the ancient lake as a promoter of evolution and diversification of freshwater fishes in western JapanPopulation subdivision of the surf clam Mactra chinensis in the East China Sea: Changjiang River outflow is not the sole driver60,000 years of interactions between Central and Eastern Africa documented by major African mitochondrial haplogroup L2Were sea level changes during the Pleistocene in the South Atlantic Coastal Plain a driver of speciation in Petunia (Solanaceae)?Fossils reject climate change as the cause of extinction of Caribbean batsSea level and global ice volumes from the Last Glacial Maximum to the HoloceneThe past and present of an estuarine-resident fish, the "four-eyed fish" Anableps anableps (Cyprinodontiformes, Anablepidae), revealed by mtDNA sequencesDisentangling environmental correlates of vascular plant biodiversity in a Mediterranean hotspotDeglaciation explains bat extinction in the CaribbeanGlobal climate evolution during the last deglaciationTemporal latitudinal-gradient dynamics and tropical instability of deep-sea species diversityThe 26.5 ka Oruanui eruption, New Zealand: A review of the roles of volcanism and climate in the post‐eruptive sedimentary responseThe influence of Pleistocene climatic changes and ocean currents on the phylogeography of the southern African barnacle, Tetraclita serrata (Thoracica; Cirripedia)Temperature impacts on deep-sea biodiversity.Forest ecosystems of temperate climatic regions: from ancient use to climate change.Spatial genetic structure in Beta vulgaris subsp. maritima and Beta macrocarpa reveals the effect of contrasting mating system, influence of marine currents, and footprints of postglacial recolonization routes.Resolving postglacial phylogeography using high-throughput sequencing.Evolutionary mechanisms shaping the genetic population structure of coastal fish: insight from populations of Coilia nasus in Northwestern Pacific.Replicate phylogenies and post-glacial range expansion of the pitcher-plant mosquito, Wyeomyia smithii, in North AmericaA draft de novo genome assembly for the northern bobwhite (Colinus virginianus) reveals evidence for a rapid decline in effective population size beginning in the Late PleistoceneThe possible physical barrier and coastal dispersal strategy for Japanese grenadier anchovy, Coilia nasus in the East China Sea and Yellow Sea: evidence from AFLP markers.Combining marine macroecology and palaeoecology in understanding biodiversity: microfossils as a model.The Effect of Pleistocene Climate Fluctuations on Distribution of European Abalone (Haliotis tuberculata), Revealed by Combined Mitochondrial and Nuclear Marker Analyses.Phylogeny and biogeography of Alyssum (Brassicaceae) based on nuclear ribosomal ITS DNA sequences.Population structure of Cicada barbara Stål (Hemiptera, Cicadoidea) from the Iberian Peninsula and Morocco based on mitochondrial DNA analysis.Using dense locality sampling resolves the subtle genetic population structure of the dispersive fish species Plecoglossus altivelis.Annotated Draft Genome Assemblies for the Northern Bobwhite (Colinus virginianus) and the Scaled Quail (Callipepla squamata) Reveal Disparate Estimates of Modern Genome Diversity and Historic Effective Population SizeDiet and feeding behaviour of longnosed skate Dipturus oxyrinchus.Genotype by sequencing identifies natural selection as a driver of intraspecific divergence in Atlantic populations of the high dispersal marine invertebrate, Macoma petalumCoralgal reef morphology records punctuated sea-level rise during the last deglaciation.Impact of glacial/interglacial sea level change on the ocean nitrogen cycle.Global warming preceded by increasing carbon dioxide concentrations during the last deglaciation.
P2860
Q21185246-EC0BC471-B448-416D-B7CB-99ACE8F9DAE9Q21283834-0D5B0908-C87A-4C4A-BBFA-C60ABD4B1D0EQ21560842-2D5E8E02-3FB1-4AFD-BF71-EEB2D34F1CE5Q22122156-73F593DC-1D56-41E4-861A-72EB6F938205Q24655702-C6F2D068-F47C-4884-866E-78C681B6A10DQ28254056-4EEFC317-27C7-4273-AEE0-9367715049EAQ28596089-AB086116-7120-458C-A595-862D01917474Q28602018-6CD6EA4F-3105-4A77-966C-12BD6A460BDAQ28602416-8D36058F-4136-4834-9D36-E53B43609D70Q28606955-D2928D9B-1BE2-4FE2-B02A-B57B309AB3E6Q28646454-69C97D2C-89D0-4D73-A2A0-931C9F969074Q28647228-EA7A2CA2-E69F-46C7-8F97-B236D61EBBC1Q28651713-27B080C1-E1BF-40D4-A62A-2C1A167C678AQ28652807-97165D56-55EC-40F8-8038-98C9ADC4C8ECQ28655976-0A9B221B-2F54-4F1C-811C-E0E167C7BCF2Q28662064-A5308D18-1D31-4C75-91E3-91CC04B312C9Q28710070-5CF0404C-7BCB-472E-8014-A13CD798ABE3Q28729726-528073CA-B661-41BF-AC29-7AB2CE018E9DQ28749425-8F949A11-6BB7-4BCA-8B11-E134DBB2A737Q29031959-6BF41AFD-223B-45E0-8A69-8241D5EB6026Q30838136-54849F5C-70DA-4992-869D-38F12D43183CQ30880917-A153280F-87F2-46CF-8777-3A6E5B153B6DQ31139406-D5679BF8-1642-43AD-8582-90B8E6F42524Q33777871-C76B7670-C6B6-48CB-A073-37D2A4283AF6Q34136350-9391DA35-56B2-4EA6-A66E-203EA856CCF7Q34882584-891ACDB6-7813-444B-B536-51C2304BEEAEQ34988331-059B438B-F591-40B0-AEED-DA3B88D86CA9Q35118738-194AE38A-7BAA-4FD1-94D3-4F6E1DCD66CAQ35139028-86E6122A-95F4-452A-89C0-1F770B32B4BAQ35792645-0B36E6B5-8989-4630-8230-12F9964089BEQ36170173-7C0115DB-26E1-423D-8235-D3667B981AA2Q39177702-F1A09C6F-DECF-41BE-99D0-83BB62FAA09BQ39357567-5E073BF4-64C6-435E-81D3-6E8E07A6CF56Q39845835-F8DA4160-F270-4169-8AA1-EF729A84830BQ41384442-89D3A4FA-9CF9-496D-9260-05DAD9FF9879Q41627495-0EAC8A64-9666-4A9D-A2FC-CDB9600F6364Q42372722-6084473A-92E2-4BA4-8D86-1B84605F6B07Q42380551-FDC58616-DDB9-487E-B166-9A393125EEF3Q46135469-E5BDD73D-2461-4719-9278-F35D7F204F12Q47211837-BA4A72B4-DB04-4ED9-8A34-E6A742BEAA8F
P2860
Timing of the Last Glacial Maximum from observed sea-level minima
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
2000年论文
@zh
2000年论文
@zh-cn
name
Timing of the Last Glacial Maximum from observed sea-level minima
@en
type
label
Timing of the Last Glacial Maximum from observed sea-level minima
@en
prefLabel
Timing of the Last Glacial Maximum from observed sea-level minima
@en
P2093
P356
P1433
P1476
Timing of the Last Glacial Maximum from observed sea-level minima
@en
P2093
De Deckker P
Fifield LK
Johnston P
Yokoyama Y
P2888
P304
P356
10.1038/35021035
P407
P577
2000-08-01T00:00:00Z
P5875
P6179
1009647291