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Universität Heidelberg
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Publikationen
58 Publikationen
Waelbroeck, C. u. a., 2018. Relative timing of precipitation and ocean circulation changes in the western equatorial Atlantic over the last 45 kyr.
Climate of the past
, 14(9), S.1315–1330.
Lippold, J., 2008.
Die Anwendung des 231 Pa, 230 Th Verhältnisses zur Rekonstruktion der atlantischen Zirkulation
.
O A, 2012. Strength and geometry of the glacial Atlantic meridional overturning circulation.
Nature geoscience
, 5, S.813–816.
Lippold, J., 2012. Boundary scavenging at the East Atlantic margin does not negate use of 231Pa/230Th to trace Atlantic overturning.
Earth and planetary science letters
, 333/334, S.317–331.
Bouimetarhan, I. & Lippold, J., 2012. Sahel megadrought during Heinrich Stadial 1: evidence for a three-phase evolution of the low- and mid-level West African wind system.
Quaternary science reviews
, 58, S.66–76.
Voigt, I., Lippold, J. & Antz, B., 2017. Variability in mid-depth ventilation of the western Atlantic Ocean during the last deglaciation.
Paleoceanography
, 32(9), S.948–965.
Lippold, J. u. a., 2017. Corrigendum to „Deep water provenance and dynamics of the (de)glacial Atlantic meridional overturning circulation“ [Earth Planet. Sci. Lett. 445 (2016) 68-78].
Earth and planetary science letters
, 458, S.444–448.
Lippold, J. u. a., 2016. Deep water provenance and dynamics of the (de)glacial Atlantic meridional overturning circulation.
Earth and planetary science letters
, 445, S.68–78.
Mulitza, S. u. a., 2017. Synchronous and proportional deglacial changes in Atlantic meridional overturning and northeast Brazilian precipitation.
Paleoceanography
, 32(6).
Xu, Q. u. a., 2021. Driving mechanisms of sedimentary 230Th and 231Pa variability in the Western Arctic Ocean through the last glacial cycle.
Paleoceanography and paleoclimatology
, 36(7), S.1–18.
Ronge, T. u. a., 2021. Deglacial patterns of South Pacific overturning inferred from 231Pa and 230Th.
Scientific reports
, 11, S.1–11.
Süfke, F. u. a., 2020. Inverse response of 231Pa/230Th to variations of the Atlantic meridional overturning circulation in the North Atlantic intermediate water.
Geo-marine letters
, 40(1), S.75–87.
Gottschalk, J. u. a., 2016. Biological and physical controls in the Southern Ocean on past millennial-scale atmospheric CO2 changes.
Nature Communications
, 7.
Blaser, P. u. a., 2019. The resilience and sensitivity of Northeast Atlantic deep water [epsilon]Nd to overprinting by detrital fluxes over the past 30,000 years.
Geochimica et cosmochimica acta
, 245, S.79–97.
Obert, J.C. & Lippold, J., 2019. Improved constraints on open-system processes in fossil reef corals by combined Th/U, Pa/U and Ra/Th dating: a case study from Aqaba, Jordan.
Geochimica et cosmochimica acta
, 245, S.459–478.
Waelbroeck, C. & Lippold, J., 2018. Relative timing of precipitation and ocean circulation changes in the western equatorial Atlantic over the last 45 kyr.
Climate of the past
, 14(9), S.1315–1330.
Studer, A. & Lippold, J., 2018. Increased nutrient supply to the Southern Ocean during the Holocene and its implications for the pre-industrial atmospheric CO2 rise.
Nature geoscience
, 11(10), S.756–760.
Süfke, F. & Lippold, J., 2018. Improved separation of Pa from Th and U in marine sediments with TK400 resin.
Analytical chemistry
, 90(2), S.1395–1401.
Pöppelmeier, F. u. a., 2022. Neodymium isotopes as a paleo-water mass tracer: a model-data reassessment.
Quaternary science reviews
, 279, S.1–19.
Pöppelmeier, F. u. a., 2021. Stable atlantic deep water mass sourcing on glacial-interglacial timescales.
Geophysical research letters
, 48(15), S.1–10.
Gutjahr, M. & Lippold, J., 2011. Early arrival of Southern Source water in the deep North Atlantic prior to Heinrich event 2.
Paleoceanography
, 26(2), S.1–9.
Luo, Y. u. a., 2021. The influence of deep water circulation on the distribution of 231Pa and 230Th in the Pacific Ocean.
Earth and planetary science letters
, 554.
Pöppelmeier, F., Blaser, P., Süfke, F., u. a., 2020. Water mass gradients of the mid-depth Southwest Atlantic during the past 25,000 years.
Earth and planetary science letters
, 531.
Lippold, J. u. a., 2019. Constraining the variability of the Atlantic Meridional Overturning Circulation during the Holocene.
Geophysical research letters
, 46(20), S.11338–11346.
Kienast, S. u. a., 2016. Tracing dust input to the global ocean using thorium isotopes in marine sediments: ThoroMap.
Global biogeochemical cycles
, 30(10), S.1526–1541.
Luo, Y. u. a., 2018. Atlantic deep water circulation during the last interglacial.
Scientific reports
, 8.
Thöle, L.M., Amsler, H.E. & Lippold, J., 2019. Glacial-interglacial dust and export production records from the Southern Indian Ocean.
Earth and planetary science letters
, 525.
Obert, J.C. u. a., 2018. Chemical separation and MC-ICPMS analysis of U, Th, Pa and Ra isotope ratios of carbonates.
Journal of analytical atomic spectrometry
, 33(8), S.1372–1383.
Pöppelmeier, F., Blaser, P. & Lippold, J., 2018. Origin of abyssal NW atlantic water masses since the last glacial maximum.
Paleoceanography and paleoclimatology
, 33(5), S.530–543.
Blaser, P. u. a., 2020. Labrador Sea bottom water provenance and REE exchange during the past 35,000 years.
Earth and planetary science letters
, 542.
Gutjahr, M. u. a., 2014. Peak Last Glacial weathering intensity on the North American continent recorded by the authigenic Hf isotope composition of North Atlantic deep-sea sediments.
Quaternary science reviews
, 99, S.97–111.
Pöppelmeier, F., Blaser, P., Gutjahr, M., u. a., 2020. Northern-sourced water dominated the Atlantic Ocean during the Last Glacial Maximum.
Geology
, 48(8), S.826–829.
Costa, K. u. a., 2020. 230Th normalization: new insights on an essential tool for quantifying sedimentary fluxes in the modern and quaternary ocean.
Paleoceanography and paleoclimatology
, 35(2).
Pöppelmeier, F. u. a., 2019. Influence of ocean circulation and benthic exchange on Deep Northwest Atlantic Nd isotope records during the past 30,000 years.
Geochemistry, geophysics, geosystems
, 20(9), S.4457–4469.
Gottschalk, J. & Lippold, J., 2018. Radiocarbon measurements of small-size Foraminiferal samples with the Mini Carbon Dating System (MICADAS) at the University of Bern: implications for paleoclimate reconstructions.
Radiocarbon
, 60(2), S.469–491.
Lippold, J., Gherardi, J.-M. & Luo, Y., 2011. Testing the 231Pa/230Th paleocirculation proxy: a data versus 2D model comparison.
Geophysical research letters
, 38(20), S.1–7.
Hayes, C.T. u. a., 2021. Global ocean sediment composition and burial flux in the deep sea.
Global biogeochemical cycles
, 35(4), S.1–25.
Nürnberg, D. u. a., 2021. Western boundary current in relation to Atlantic Subtropical Gyre dynamics during abrupt glacial climate fluctuations.
Global and planetary change
, 201, S.1–12.
Muglia, J. u. a., 2023. A global synthesis of high-resolution stable isotope data from benthic foraminifera of the last deglaciation.
Scientific data
, 10, S.1–23.
Lippold, J. u. a., 2024. Contrasting paired benthic and planktonic foraminifera radiocarbon ages from Bermuda Rise ODP Site 1063 during Heinrich Stadials 1 and 2.
Radiocarbon
, 66(4), S.816–823.
Koutsodendris, A. u. a., 2025. Societal changes in Ancient Greece impacted terrestrial and marine environments.
Communications earth & environment
, 6, S.1–10.
Hu, L. u. a., 2025. Marine productivity controlled by oceanic circulation in the Northwest Pacific over the last glacial cycle.
Global and planetary change
, 245, S.1–11.
Scheen, J. u. a., 2025. Promising regions for detecting the overturning circulation in Atlantic 231Pa/230Th: a model-data comparison.
Paleoceanography and paleoclimatology
, 40(3), S.1–38.
Lippold, J., 2008.
Die Anwendung des 231-Pa/-230 Th Verhältnisses zur Rekonstruktion der Atlantischen Zirkulation
.
Pöppelmeier, F., Scheen, J., u. a., 2020. Influence of elevated Nd fluxes on the northern Nd isotope end member of the Atlantic during the early Holocene.
Paleoceanography and paleoclimatology
, 35(11).
Süfke, F. u. a., 2019. Constraints on the Northwestern Atlantic deep water circulation from 231Pa/230Th during the last 30,000 years.
Paleoceanography and paleoclimatology
, 34(12), S.1945–1958.
Vogt-Vincent, N. u. a., 2020. Ice-rafted debris as a source of non-conservative behaviour for the [epsilon]Nd palaeotracer: insights from a simple model.
Geo-marine letters
, 40(3), S.325–340.
Rempfer, J. u. a., 2017. New insights into cycling of 231Pa and 230Th in the Atlantic Ocean.
Earth and planetary science letters
, 468, S.27–37.
Burckel, P. u. a., 2016. Changes in the geometry and strength of the Atlantic meridional overturning circulation during the last glacial (20-50 ka).
Climate of the past
, 12(11), S.2061–2075.
Vogel, H. u. a., 2016. Quantification of biogenic silica by means of Fourier transform infrared spectroscopy (FTIRS) in marine sediments.
Limnology and oceanography
, 14(12), S.828–838.
Burckel, P. u. a., 2015. Atlantic Ocean circulation changes preceded millennial tropical South America rainfall events during the last glacial.
Geophysical research letters
, 42(2), S.411–418.
Luo, Y. & Lippold, J., 2015. Controls on 231Pa and 230Th in the Arctic Ocean.
Geophysical research letters
, 42(14), S.5942–5949.
Wacker, L. u. a., 2013. Towards radiocarbon dating of single foraminifera with a gas ion source.
Nuclear instruments & methods in physics research
, 294, S.307–310.
Christl, M. u. a., 2010. 231Pa/230Th: a proxy for upwelling off the coast of West Africa.
Nuclear instruments & methods in physics research
, 268(7), S.1159–1162.
Süfke, F. u. a., 2022. Arctic drainage of Laurentide Ice Sheet meltwater throughout the past 14,700 years.
Communications earth & environment
, 3, S.1–11.
Lippold, J. u. a., 2023. Systematic analyses of radiocarbon ages of coexisting planktonic foraminifera.
Radiocarbon
, 65(4), S.876–898.
Mulitza, S. & Lippold, J., 2015.
Response of the Tropical Atlantic Ocean-Atmosphere System to Deglacial Changes in Atlantic Meridional Overturning
M. Sarnthein & G. H. Haug, hrsg., Halle (Saale) ; Stuttgart: Deutsche Akademie der Naturforscher Leopoldina, Nationale Akademie der Wissenschaften ; Wissenschaftliche Verlagsgesellschaft.
Burckel, P. u. a., 2015. Atlantic Ocean circulation changes preceded millennial tropical South America rainfall events during the last glacial.
Geophysical research letters
, 42(2), S.411–418.
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