First high-resolution luminescence dating of loess in Western Siberia

[1]  G. Guérin,et al.  Optically stimulated luminescence dating using quartz , 2021, Nature Reviews Methods Primers.

[2]  R. Kurbanov,et al.  Loess-paleosol record of MIS 3 - MIS 2 of north-east Cis-Salair plain, south of West Siberia , 2021, Quaternary International.

[3]  A. Murray,et al.  Measurement of natural radioactivity: Calibration and performance of a high-resolution gamma spectrometry facility , 2018, Radiation Measurements.

[4]  A. Murray,et al.  Ice-volume-forced erosion of the Chinese Loess Plateau global Quaternary stratotype site , 2018, Nature Communications.

[5]  A. Philippe,et al.  Absorbed dose, equivalent dose, measured dose rates, and implications for OSL age estimates: Introducing the Average Dose Model , 2017 .

[6]  A. Murray,et al.  A new irradiated quartz for beta source calibration , 2015 .

[7]  A. Murray,et al.  High resolution OSL and post-IR IRSL dating of the last interglacial–glacial cycle at the Sanbahuo loess site (northeastern China) , 2015 .

[8]  A. O. Sizikova,et al.  The dynamics of the Late Pleistocene loess formation, Lozhok section, Ob loess Plateau, SW Siberia , 2015 .

[9]  V. Zykina,et al.  The Middle and Late Pleistocene loess-soil record in the Iskitim area of Novosibirsk Priobie, south-eastern West Siberia , 2015 .

[10]  G. Guérin,et al.  On the use of the infinite matrix assumption and associated concepts: A critical review , 2012 .

[11]  A. Murray,et al.  A robust feldspar luminescence dating method for Middle and Late Pleistocene sediments , 2012 .

[12]  A. Murray,et al.  Luminescence dating of the Stratzing loess profile (Austria) – Testing the potential of an elevated temperature post-IR IRSL protocol , 2011 .

[13]  K. Thomsen,et al.  Review of optically stimulated luminescence (OSL) instrumental developments for retrospective dosimetry , 2010 .

[14]  V. Kravchinsky,et al.  Magnetic indicator of global paleoclimate cycles in Siberian loess–paleosol sequences , 2008 .

[15]  David S. G. Thomas,et al.  Sedimentation and diagenesis of Chinese loess: Implications for the preservation of continuous, high-resolution climate records , 2006 .

[16]  M. Frechen,et al.  The loess record from the section at Kurtak in Middle Siberia , 2005 .

[17]  A. Murray,et al.  The single aliquot regenerative dose protocol: potential for improvements in reliability , 2003 .

[18]  M. Frechen,et al.  Luminescence chronology of the Upper Pleistocene loess record at Kurtak in M iddle Siberia , 2003 .

[19]  Paul Martin,et al.  Analysis for naturally occuring radionuclides at environmental concentrations by gamma spectrometry , 1987 .

[20]  Р. Н. Курбанов,et al.  Первые результаты люминесцентного датирования лёссово-почвенных серий юга Западной Сибири (опорный разрез Ложок) , 2021 .

[21]  Андрей Георгиевич Фарков Потенциал развития нетрадиционных отраслей АПК на юге Западной Сибири , 2019 .

[22]  Bo Li A reply to the comments by Thomsen et al. on "Luminescence dating of K-feldspar from sediments: a protocol without anomalous fading correction" , 2016 .

[23]  Сизикова Анна Олеговна,et al.  Лессы верхнего плейстоцена опорного разреза Ложок (юг Западной Сибири), динамика природной среды и климата , 2013 .

[24]  David S. G. Thomas,et al.  Reinterpreting climate proxy records from late Quaternary Chinese loess : A detailed OSL investigation , 2007 .