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Titel	Climate of the Past ; 10, no. 1
Erscheinungsjahr	2014
Medientyp	Stücktitel
ISSN	1814-9324
Erschienen	In: Climate of the Past (CP) ; Nr. 10, no. 1 (2014)
Datensatznummer	116406


Teil von
Climate of the Past (CP)


Teil(e)
Evaluating climate field reconstruction techniques using improved emulations of real-world conditions \| J. Wang Quantitative reconstruction of precipitation changes on the NE Tibetan Plateau since the Last Glacial Maximum – extending the concept of pollen source area to pollen-based climate reconstructions from large lakes \| Y. Wang Mending Milankovitch's theory: obliquity amplification by surface feedbacks \| C. R. Tabor Reconstruction of Atlantic water variability during the Holocene in the western Barents Sea \| D. E. Groot Hindcasting the continuum of Dansgaard-Oeschger variability: mechanisms, patterns and timing \| L. Menviel Evaluating the dominant components of warming in Pliocene climate simulations \| D. J. Hill Sediment transport processes across the Tibetan Plateau inferred from robust grain-size end members in lake sediments \| E. Dietze Similarity estimators for irregular and age-uncertain time series \| K. Rehfeld Water mass evolution of the Greenland Sea since late glacial times \| M. M. Telesiński Limited response of peatland CH4 emissions to abrupt Atlantic Ocean circulation changes in glacial climates \| P. O. Hopcroft An inter-laboratory investigation of the Arctic sea ice biomarker proxy IP25 in marine sediments: key outcomes and recommendations \| S. T. Belt Late Pliocene lakes and soils: a global data set for the analysis of climate feedbacks in a warmer world \| M. J. Pound Holocene sub-centennial evolution of Atlantic water inflow and sea ice distribution in the western Barents Sea \| S. M. P. Berben Corrigendum to "The relative roles of CO2 and palaeogeography in determining late Miocene climate: results from a terrestrial model-data comparison" published in Clim. Past, 8, 1257-1285, 2012 \| C. D. Bradshaw Corrigendum to "Quantitative reconstruction of precipitation changes on the NE Tibetan Plateau since the Last Glacial Maximum – extending the concept of pollen source area to pollen-based climate reconstructions from large lakes" published in Clim. Past, 10, 21-39, 2014 \| Y. Wang Biogeochemical variability during the past 3.6 million years recorded by FTIR spectroscopy in the sediment record of Lake El'gygytgyn, Far East Russian Arctic \| C. Meyer-Jacob Using palaeo-climate comparisons to constrain future projections in CMIP5 \| G. A. Schmidt Salinity changes in the Agulhas leakage area recorded by stable hydrogen isotopes of C37 alkenones during Termination I and II \| S. Kasper Distinct lake level lowstand in Lake Prespa (SE Europe) at the time of the 74 (75) ka Toba eruption \| B. Wagner Modeling Northern Hemisphere ice-sheet distribution during MIS 5 and MIS 7 glacial inceptions \| F. Colleoni Deglacial intermediate water reorganization: new evidence from the Indian Ocean \| S. Romahn Qualitative and quantitative reconstructions of surface water characteristics and recent hydrographical changes in the Trondheimsfjord, central Norway \| G. Milzer Multidecadal to millennial marine climate oscillations across the Denmark Strait (~ 66° N) over the last 2000 cal yr BP \| J. T. Andrews Interdependence of the growth of the Northern Hemisphere ice sheets during the last glaciation: the role of atmospheric circulation \| P. Beghin Volcanic forcing for climate modeling: a new microphysics-based data set covering years 1600–present \| F. Arfeuille What controls the isotopic composition of Greenland surface snow? \| H. C. Steen-Larsen Accumulation reconstruction and water isotope analysis for 1736-1997 of an ice core from the Ushkovsky volcano, Kamchatka, and their relationships to North Pacific climate records \| T. Sato Persistent millennial-scale link between Greenland climate and northern Pacific Oxygen Minimum Zone under interglacial conditions \| O. Cartapanis