Spatial interpretation of high‐resolution environmental proxy data of the Middle Pleistocene Palaeolithic faunal kill site Schöningen 13 II‐4, Germany

[1]  N. Conard,et al.  Fossil footprints at the late lower Paleolithic site of Schöningen (Germany): A new line of research to reconstruct animal and hominin paleoecology , 2023, Quaternary Science Reviews.

[2]  B. Urban,et al.  Landscape dynamics and chronological refinement of the Middle Pleistocene Reinsdorf Sequence of Schöningen, NW Germany , 2023, Quaternary Research.

[3]  Liping Zhu,et al.  Precipitation dynamics on the Tibetan Plateau during the Late Quaternary – Hydroclimatic sedimentary proxies versus lake level variability , 2021 .

[4]  B. Urban,et al.  Aquatic and terrestrial proxy evidence for Middle Pleistocene palaeolake and lake‐shore development at two Lower Palaeolithic sites of Schöningen, Germany , 2021, Boreas.

[5]  B. Urban,et al.  Evidence for the age and timing of environmental change associated with a Lower Palaeolithic site within the Middle Pleistocene Reinsdorf sequence of the Schöningen coal mine, Germany , 2021 .

[6]  E. Turner,et al.  A detailed analysis of the spatial distribution of Schöningen 13II-4 'Spear Horizon' faunal remains. , 2021, Journal of human evolution.

[7]  N. Conard,et al.  Author Correction: A 300,000-year-old throwing stick from Schöningen, northern Germany, documents the evolution of human hunting , 2020, Nature Ecology & Evolution.

[8]  Carl Peters,et al.  The site formation history of Schöningen 13II-4 (Germany): Testing different models of site formation by means of spatial analysis, spatial statistics and orientation analysis , 2020 .

[9]  E. Turner,et al.  Bone staining in waterlogged deposits: a preliminary contribution to the interpretation of near-shore find accumulation at the Schöningen 13II-4 ‘Spear-Horizon’ site, Lower Saxony, Germany , 2018 .

[10]  M. Frechen,et al.  Middle Pleistocene interglacial peat deposits from Northern Germany investigated by 230 Th/U and palynology: case studies from Wedel and Schöningen , 2017 .

[11]  B. Urban,et al.  Chronological investigations of Pleistocene interglacial, glacial and aeolian deposits from Schöningen (Germany) using post-IR IRSL dating and pollen analysis , 2017 .

[12]  Shiyong Yu,et al.  Response of organic carbon burial to trophic level changes in a shallow eutrophic lake in SE China. , 2016, Journal of environmental sciences.

[13]  C. Kabała,et al.  Holocene vegetation history and soil development reflected in the lake sediments of the Karkonosze Mountains (Poland) , 2016 .

[14]  B. Urban,et al.  Paleoenvironment and possibilities of plant exploitation in the Middle Pleistocene of Schöningen (Germany). Insights from botanical macro-remains and pollen. , 2015, Journal of human evolution.

[15]  J. Serangeli,et al.  The Spear Horizon: First spatial analysis of the Schöningen site 13 II-4. , 2015, Journal of human evolution.

[16]  Christopher E. Miller,et al.  The depositional environments of Schöningen 13 II-4 and their archaeological implications. , 2015, Journal of human evolution.

[17]  D. Richter,et al.  The age of the Lower Paleolithic occupation at Schöningen. , 2015, Journal of human evolution.

[18]  N. Conard,et al.  Excavations at Schöningen and paradigm shifts in human evolution. , 2015, Journal of human evolution.

[19]  N. Conard,et al.  The behavioral and cultural stratigraphic contexts of the lithic assemblages from Schöningen. , 2015, Journal of human evolution.

[20]  J. Serangeli,et al.  Lower Paleolithic bone tools from the 'Spear Horizon' at Schöningen (Germany). , 2015, Journal of human evolution.

[21]  T. van Kolfschoten,et al.  The larger mammal fauna from the Lower Paleolithic Schöningen Spear site and its contribution to hominin subsistence. , 2015, Journal of human evolution.

[22]  B. Urban,et al.  Environmental reconstruction and biostratigraphy of late Middle Pleistocene lakeshore deposits at Schöningen. , 2015, Journal of human evolution.

[23]  Liping Zhu,et al.  Hydrological variations on the Central Tibetan Plateau since the Last Glacial Maximum and their teleconnection to inter‐regional and hemispheric climate variations , 2015 .

[24]  T. Kolfschoten The Palaeolithic locality Schöningen (Germany): A review of the mammalian record , 2014 .

[25]  M. Frechen,et al.  New evidence for vegetation development and timing of Upper Middle Pleistocene interglacials in Northern Germany and tentative correlations , 2011 .

[26]  M. Kylander,et al.  High‐resolution X‐ray fluorescence core scanning analysis of Les Echets (France) sedimentary sequence: new insights from chemical proxies , 2011 .

[27]  Beat Müller,et al.  Mineralization pathways in lake sediments with different oxygen and organic carbon supply , 2009 .

[28]  G. Weltje,et al.  Calibration of XRF core scanners for quantitative geochemical logging of sediment cores: Theory and application , 2008 .

[29]  A. Lücke,et al.  Hydrological variability in southeastern Patagonia and explosive volcanic activity in the southern Andean Cordillera during Oxygen Isotope Stage 3 and the Holocene inferred from lake sediments of Laguna Potrok Aike, Argentina , 2008 .

[30]  D. Sauer,et al.  Soil formation in marine sediments and beach deposits of southern Norway: investigations of soil chronosequences in the Oslofjord region , 2007 .

[31]  A. Lotter,et al.  Do diatoms in the Swiss Alps reflect the length of ice-cover? , 2000, Aquatic Sciences.

[32]  H. Thieme Lower Palaeolithic hunting spears from Germany , 1997, Nature.

[33]  E. Grimm CONISS: a FORTRAN 77 program for stratigraphically constrained cluster analysis by the method of incremental sum of squares , 1987 .

[34]  R. Battarbee,et al.  The use of electronically counted microspheres in absolute diatom analysis , 1982 .

[35]  J. Stockmarr Tablets with spores used in absolute pollen analysis , 1971 .

[36]  G. Erdtman The acetolysis method-a revised description , 1960 .