Late Cenozoic uplift of mountain ranges and global climate change: chicken or egg?
about
Constraints on mountain building in the northeastern Tibet: Detrital zircon records from synorogenic deposits in the Yumen BasinLate Oligocene-early Miocene birth of the Taklimakan DesertPacific freshening drives Pliocene cooling and Asian monsoon intensificationIncreased sedimentation rates and grain sizes 2-4 Myr ago due to the influence of climate change on erosion rates.Long-term stability of global erosion rates and weathering during late-Cenozoic cooling.A seven-million-year hornblende mineral record from the central Chinese Loess Plateau.River history and tectonics.Diversification of Rosaceae since the Late Cretaceous based on plastid phylogenomics.Erosion by an Alpine glacier.Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment.Regional crustal thickness and precipitation in young mountain chains.Tectonic control of Yarlung Tsangpo Gorge revealed by a buried canyon in Southern Tibet.Hydrogen isotopes in Eocene river gravels and paleoelevation of the Sierra Nevada.A high-density consensus linkage map of white lupin highlights synteny with narrow-leafed lupin and provides markers tagging key agronomic traits.Geochemistry: How rain affects rock and rivers.Earth science: Erosion by cooling.Origin of the highly elevated Pyrenean peneplainSynthesis of the Nature and Causes of Rapid Climate Transitions During the QuaternaryA mechanistic model for river incision into bedrock by saltating bed loadDeglaciation and glacial erosion: A joint control on magma productivity by continental unloadingMarine sedimentary evidence for monsoon strengthening, Tibetan uplift and drainage evolution in East AsiaSimulating the evolution of the Asian and African monsoons during the past 30 Myr using an atmospheric general circulation modelThe trajectory of geomorphologyFluvial responses to climate and sea-level change: a review and look forwardUplift and erosion of the San Bernardino Mountains associated with transpression along the San Andreas fault, California, as constrained by radiogenic helium thermochronometryQuaternary tectonic response to intensified glacial erosion in an orogenic wedgePaliurus(Paliureae, Rhamnaceae) from the Miocene of East China and its Macrofossil-based Phylogenetic and Phytogeographical HistoryStable isotopic evidence for a Pre-Middle Miocene rain shadow in the western Basin and Range: Implications for the paleotopography of the Sierra NevadaMeso-Cenozoic morphotectonic evolution of southern Norway: Neogene domal uplift inferred from apatite fission track thermochronologyQuaternary structural partitioning within the rigid Tarim plate inferred from magnetostratigraphy and sedimentation rate in the eastern Tarim Basin in ChinaMagnetostratigraphic dating of river terraces: Rapid and intermittent incision by the Yellow River of the northeastern margin of the Tibetan Plateau during the QuaternaryGlobal Land Ice Measurements from Space (GLIMS): Remote Sensing and GIS Investigations of the Earth's CryosphereField calibration of sediment flux dependent river incisionCorrelation between the structural pattern and the development of the hydrographic network in a portion of the Western Thessaly Basin (Greece)Crustal Shortening on the Margins of the Tien Shan, Xinjiang, ChinaLate Holocene Glacier Dynamics in the Miyar Basin, Lahaul Himalaya, IndiaCenozoic landscape evolution of the Kruger National Park as derived from cosmogenic nuclide analysesLinks between climate, erosion, uplift, and topography during intracontinental mountain building of the Hangay Dome, MongoliaPlio-Quaternary exhumation history of the central Nepalese Himalaya: 1. Apatite and zircon fission track and apatite [U-Th]/He analysesImpact of glacial erosion on10Be concentrations in fluvial sediments of the Marsyandi catchment, central Nepal
P2860
Q28601442-387EA4E9-D9DA-4598-91D5-A645182A397AQ28647813-ED237148-DA35-4736-90B1-0220B4232BF7Q28657385-59C45A13-852A-4ACF-8C58-5003B89C789AQ30648810-E83A61BA-0F75-4458-8DA3-A97883938D39Q33576598-8E0A5713-46BC-4697-82C0-F627CFD2CF8AQ33725901-0918ADAF-DDC3-4E74-84F5-1DB9CD41CC29Q34219783-AFE68564-92CD-4D1E-B098-563A20F3D944Q34551008-88D9BCFE-D725-44DB-95DF-162043DBCF17Q35801068-82D92308-C950-4867-AF1E-1ADD21B02194Q36250445-D0CC4AE2-D645-49EF-9376-2249715FBAEAQ37589756-8F868A85-2280-494D-89BD-9E0EB2451A39Q46423079-E8587708-B8A9-4E18-BEFF-92D7A764ED43Q46728834-9920DAFB-982F-467C-B6F8-E7C2B024F868Q47111094-0B266403-AFEB-4443-B182-0331FB7B65C3Q54275090-272CB16A-BD45-4076-B62A-80443820B7BEQ54420552-1D12CB50-E1DC-4522-8FAF-DAB4AE539E16Q55878081-69941029-275A-49C1-94D8-CEC72A447F10Q56016683-BD18E40C-852C-470E-992B-2A87A6387E7EQ56047571-BCFF5FD3-585B-4E0F-94F6-24DA9D61F0F9Q56092785-9DD4D4E8-F4AC-4FEF-90DA-A2A70012BC58Q56096029-081174D6-6E57-4262-A9B3-BC94CD4D5994Q56100567-D19A38BB-4F30-4F09-A0FB-E37DDB5C407FQ56113130-4E64925F-0320-438A-B670-18906E21F6EBQ56144231-C743C196-94D8-4D73-AC56-DE43B567615BQ56430236-47FEF195-49DF-4744-B1F4-523133528504Q56555129-D23DA952-0AD3-4E5A-A1DF-D20D2DF449C8Q56658333-D3689D92-86D0-4CF0-BB9F-6F7A9AEAC5ABQ56698143-9F97C579-74B9-441E-8AE0-D59E6EECBB03Q56814756-9ECCCC00-FBCA-40FF-A127-689F4117D659Q57144736-363FD6B5-2C61-4AC1-BFA6-FD80BEC3851FQ57240359-5DC0FF90-4BB5-4D73-B5B1-34A2CC224F7BQ57411090-C354727B-4CAC-4565-AA34-28C80F3C4496Q57455511-A96D2C37-9C6F-42A8-AA99-14C25F1AB3D4Q57530412-840D3A21-BCE6-45BF-B56D-3D72773DCDCDQ57538050-6F16CD2F-418A-46DE-8FCC-0EFA77C6E192Q57542211-C734B85B-EFF3-4ED3-8A0D-EFB873398A25Q57599113-F00653E5-EDDB-4427-965B-86104D93FB55Q57603888-50BE98A2-41BE-4D51-B69B-FB64E408EB20Q57604123-727B557E-66F5-4327-ACF1-D46050A60292Q57735071-061A1076-D558-4B13-88D0-CB0E46F2C8DA
P2860
Late Cenozoic uplift of mountain ranges and global climate change: chicken or egg?
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в липні 1990
@uk
name
Late Cenozoic uplift of mountain ranges and global climate change: chicken or egg?
@en
Late Cenozoic uplift of mountain ranges and global climate change: chicken or egg?
@nl
type
label
Late Cenozoic uplift of mountain ranges and global climate change: chicken or egg?
@en
Late Cenozoic uplift of mountain ranges and global climate change: chicken or egg?
@nl
prefLabel
Late Cenozoic uplift of mountain ranges and global climate change: chicken or egg?
@en
Late Cenozoic uplift of mountain ranges and global climate change: chicken or egg?
@nl
P356
P1433
P1476
Late Cenozoic uplift of mountain ranges and global climate change: chicken or egg?
@en
P2093
Peter Molnar
Philip England
P2888
P356
10.1038/346029A0
P407
P577
1990-07-01T00:00:00Z
P6179
1021704750