Works matching Cosmogenic nuclides
Results: 808
Dating deglaciation with in-situ cosmogenic nuclides.
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- Revista de Geomorfologie, 2023, v. 25, p. 29
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Remote Mapping of Bedrock for Future Cosmogenic Nuclide Exposure Dating Studies in Unvisited Areas of Antarctica.
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- Remote Sensing, 2025, v. 17, n. 2, p. 314, doi. 10.3390/rs17020314
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Production rates of cosmogenic nuclides in extraterrestrial material using GEANT4 software.
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- Journal of Radioanalytical & Nuclear Chemistry, 2023, v. 332, n. 11, p. 4403, doi. 10.1007/s10967-023-09135-5
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Cosmogenic nuclide exposure ages for moraines in the Lago San Martin Valley, Argentina
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- Quaternary Research, 2011, v. 75, n. 3, p. 636, doi. 10.1016/j.yqres.2010.11.005
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Deciphering non-steady landscape evolution by in-situ cosmogenic nuclide depth profile.
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- SCIENCE CHINA Earth Sciences, 2022, v. 65, n. 3, p. 490, doi. 10.1007/s11430-021-9856-x
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Evolution and degradation of flat‐top mesas in the hyper‐arid Negev, Israel revealed from <sup>10</sup>Be cosmogenic nuclides.
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- Earth Surface Processes & Landforms, 2014, v. 39, n. 12, p. 1611, doi. 10.1002/esp.3551
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Quantifying effects of deep and near-surface chemical erosion on cosmogenic nuclides in soils, saprolite, and sediment.
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- Earth Surface Processes & Landforms, 2013, v. 38, n. 5, p. 523, doi. 10.1002/esp.3339
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Degradation of glacial deposits quantified with cosmogenic nuclides, Quartermain Mountains, Antarctica.
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- Earth Surface Processes & Landforms, 2011, v. 36, n. 2, p. 217, doi. 10.1002/esp.2039
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Sediment Residence Times in Large Rivers Quantified Using a Cosmogenic Nuclides Based Transport Model and Implications for Buffering of Continental Erosion Signals.
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- Journal of Geophysical Research. Earth Surface, 2022, v. 127, n. 5, p. 1, doi. 10.1029/2021JF006417
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Episodic Erosion With a Power Law Probability Density, and the Accumulation of Cosmogenic Nuclides.
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- Journal of Geophysical Research. Earth Surface, 2019, v. 124, n. 9, p. 2345, doi. 10.1029/2019JF005095
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Determining topographic shielding from digital elevation models for cosmogenic nuclide analysis: a GIS approach and field validation.
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- Journal of Mountain Science, 2013, v. 10, n. 3, p. 355, doi. 10.1007/s11629-013-2564-1
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Erratics selection for cosmogenic nuclide exposure dating - an optimization approach.
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- Baltica, 2018, v. 31, n. 2, p. 100, doi. 10.5200/baltica.2018.31.10
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Geochronological investigations using a combination of luminescence and cosmogenic nuclide burial dating of drill cores from the Vienna Basin.
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- Journal of Applied & Regional Geology / Zeitschrift der Deutschen Gesellschaft für Geowissenschaften (ZDGG), 2017, v. 168, n. 1, p. 115, doi. 10.1127/zdgg/2017/0081
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Reconstructing fluvial landscape evolution using terrestrial cosmogenic nuclide dating: achievements, limitations and applications.
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- Journal of Applied & Regional Geology / Zeitschrift der Deutschen Gesellschaft für Geowissenschaften (ZDGG), 2017, v. 168, n. 1, p. 169, doi. 10.1127/zdgg/2016/0062
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Age determination of glacially-transported boulders in Ireland and Scotland using Schmidt-hammer exposure-age dating (SHD) and terrestrial cosmogenic nuclide (TCN) exposure-age dating.
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- Quaternary Research, 2019, v. 92, n. 2, p. 570, doi. 10.1017/qua.2019.12
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Cosmogenic nuclide constraints on late Quaternary glacial chronology on the Dalijia Shan, northeastern Tibetan Plateau.
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- Quaternary Research, 2013, v. 79, n. 3, p. 439, doi. 10.1016/j.yqres.2013.01.004
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Cosmogenic nuclides (<sup>10</sup>Be and <sup>26</sup>Al) erosion rate constraints in the Badain Jaran Desert, northwest China: implications for surface erosion mechanisms and landform evolution.
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- Geosciences Journal, 2019, v. 23, n. 1, p. 59, doi. 10.1007/s12303-018-0010-7
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Development of cosmogenic nuclide capabilities in South Africa and applications in Southern African geomorphology.
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- South African Geographical Journal, 2021, v. 103, n. 1, p. 99, doi. 10.1080/03736245.2020.1775689
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Inherited terrestrial cosmogenic nuclides in landscapes of selective glacial erosion: lessons from Lochnagar, Eastern Grampian Mountains, Scotland.
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- Journal of Quaternary Science, 2024, v. 39, n. 4, p. 515, doi. 10.1002/jqs.3605
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Valley glaciers persisted in the Lake District, north‐west England, until ∼16–15 ka as revealed by terrestrial cosmogenic nuclide (<sup>10</sup>Be) dating: a response to Heinrich event 1?
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- Journal of Quaternary Science, 2018, v. 33, n. 5, p. 518, doi. 10.1002/jqs.3030
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Cosmogenic nuclide burial age of the Sanying Formation and its implications.
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- SCIENCE CHINA Earth Sciences, 2014, v. 57, n. 6, p. 1141, doi. 10.1007/s11430-013-4778-z
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Effects of long soil surface residence times on apparent cosmogenic nuclide denudation rates and burial ages in the Cradle of Humankind, South Africa.
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- Earth Surface Processes & Landforms, 2019, v. 44, n. 15, p. 2968, doi. 10.1002/esp.4723
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Plateau reduction by drainage divide migration in the Eastern Cordillera of Colombia defined by morphometry and <sup>10</sup>Be terrestrial cosmogenic nuclides.
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- Earth Surface Processes & Landforms, 2017, v. 42, n. 8, p. 1155, doi. 10.1002/esp.4079
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Complex multiple cosmogenic nuclide concentration and histories in the arid Rio Lluta catchment, northern Chile.
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- Earth Surface Processes & Landforms, 2009, v. 34, n. 3, p. 398, doi. 10.1002/esp.1748
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A Combined Cosmogenic Nuclides Approach for Determining the Temperature‐Dependence of Erosion.
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- Journal of Geophysical Research. Earth Surface, 2022, v. 127, n. 4, p. 1, doi. 10.1029/2021JF006580
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Determining topographic shielding from digital elevation models for cosmogenic nuclide analysis: a GIS model for discrete sample sites.
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- Journal of Mountain Science, 2018, v. 15, n. 5, p. 939, doi. 10.1007/s11629-018-4895-4
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Reconstruction of the history of the Palliser Rockslide based on Cl terrestrial cosmogenic nuclide dating and debris volume estimations.
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- Landslides, 2015, v. 12, n. 6, p. 1097, doi. 10.1007/s10346-014-0527-4
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Accuracy of <sup>9</sup>Be-data and its influence on <sup>10</sup>Be cosmogenic nuclide data.
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- Journal of Radioanalytical & Nuclear Chemistry, 2013, v. 298, n. 3, p. 1871, doi. 10.1007/s10967-013-2746-x
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Geomorphic and cosmogenic nuclide constraints on escarpment evolution in an intraplate setting, Darling Escarpment, Western Australia.
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- Earth Surface Processes & Landforms, 2011, v. 36, n. 4, p. 449, doi. 10.1002/esp.2058
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The Galactic Cosmic Ray Intensity over the Past 10-10 Years as Recorded by Cosmogenic Nuclides in Meteorites and Terrestrial Samples.
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- Space Science Reviews, 2013, v. 176, n. 1-4, p. 351, doi. 10.1007/s11214-011-9769-9
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Cosmogenic nuclide age estimate for Laurentide Ice Sheet recession from the terminal moraine, New Jersey, USA, and constraints on latest Pleistocene ice sheet history.
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- Quaternary Research, 2017, v. 87, n. 3, p. 482, doi. 10.1017/qua.2017.11
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Cosmogenic noble gas nuclides in zircons from the Estherville mesosiderite.
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- Meteoritics & Planetary Science, 2021, v. 56, n. 5, p. 992, doi. 10.1111/maps.13660
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Cosmogenic nuclide and solute flux data from central Cuban rivers emphasize the importance of both physical and chemical mass loss from tropical landscapes.
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- Geochronology, 2022, v. 4, n. 2, p. 435, doi. 10.5194/gchron-4-435-2022
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Cosmogenic nuclide exposure age scatter records glacial history and processes in McMurdo Sound, Antarctica.
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- Geochronology, 2021, v. 3, n. 2, p. 505, doi. 10.5194/gchron-3-505-2021
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Technical note: A prototype transparent-middle-layer data management and analysis infrastructure for cosmogenic-nuclide exposure dating.
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- Geochronology, 2020, v. 2, n. 2, p. 169, doi. 10.5194/gchron-2-169-2020
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Escarpment retreat rates derived from detrital cosmogenic nuclide concentrations.
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- Earth Surface Dynamics, 2021, v. 9, n. 5, p. 1301, doi. 10.5194/esurf-9-1301-2021
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Modeling Cosmogenic Nuclides in Transiently Evolving Topography and Chemically Weathering Soils.
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- Journal of Geophysical Research. Earth Surface, 2023, v. 128, n. 10, p. 1, doi. 10.1029/2023JF007201
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Drill-site selection for cosmogenic-nuclide exposure dating of the bed of the Greenland Ice Sheet.
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- Cryosphere, 2022, v. 16, n. 10, p. 3933, doi. 10.5194/tc-16-3933-2022
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Cosmogenic nuclide dating of two stacked ice masses: Ong Valley, Antarctica.
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- Cryosphere, 2022, v. 16, n. 7, p. 2793, doi. 10.5194/tc-16-2793-2022
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Effects of meteoroid shape on cosmogenic nuclide production processes.
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- Meteoritics & Planetary Science, 2015, v. 50, n. 2, p. 318, doi. 10.1111/maps.12423
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Where to GreenDrill? Site selection for cosmogenic nuclide exposure dating of the bed of the Greenland Ice Sheet.
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- Cryosphere Discussions, 2022, p. 1, doi. 10.5194/egusphere-2022-264
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How significant is inheritance when dating rockslide boulders with terrestrial cosmogenic nuclide dating?—a case study of an historic event.
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- Landslides, 2019, v. 16, n. 4, p. 729, doi. 10.1007/s10346-018-01132-0
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What are Hoodoos and how do they form? Cosmogenic nuclide insights into Holocene landscape evolution in the Colorado Plateau.
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- Atlantic Geology, 2008, v. 44, p. 14
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Pleistocene landscape evolution of the southern Central Andes quantified with cosmogenic nuclide techniques.
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- Atlantic Geology, 2008, v. 44, p. 2
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Temporal evolution of headwall erosion rates derived from cosmogenic nuclide concentrations in the medial moraines of Glacier d'Otemma, Switzerland.
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- Earth Surface Processes & Landforms, 2022, v. 47, n. 10, p. 2437, doi. 10.1002/esp.5386
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Improved moraine age interpretations through explicit matching of geomorphic process models to cosmogenic nuclide measurements from single landforms
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- Quaternary Research, 2012, v. 77, n. 2, p. 293, doi. 10.1016/j.yqres.2011.12.002
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The origin of the potassium‐rich annular zones at the Bosumtwi impact structure, Ghana, investigated by field study, radiometric analysis, and first cosmogenic nuclide data.
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- Meteoritics & Planetary Science, 2022, v. 57, n. 3, p. 702, doi. 10.1111/maps.13788
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The history of the Tissint meteorite, from its crystallization on Mars to its exposure in space: New geochemical, isotopic, and cosmogenic nuclide data.
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- Meteoritics & Planetary Science, 2020, v. 55, n. 2, p. 294, doi. 10.1111/maps.13435
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Late Neogene terrestrial climate reconstruction of the central Namib Desert derived by the combination of U–Pb silcrete and terrestrial cosmogenic nuclide exposure dating.
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- Geochronology, 2023, v. 5, n. 2, p. 433, doi. 10.5194/gchron-5-433-2023
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Cosmogenic nuclide weathering biases: corrections and potential for denudation and weathering rate measurements.
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- Geochronology, 2022, v. 4, n. 2, p. 455, doi. 10.5194/gchron-4-455-2022
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