Newsletters on Stratigraphy

Papers
(The median citation count of Newsletters on Stratigraphy is 2. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2021-05-01 to 2025-05-01.)
ArticleCitations
Comment on “Yin, J. (2022), A revision and new data on the Jurassic ammonites from the Biluoco area, southern Qiangtang block (North Tibet)”22
Lithostratigraphy: Formation of the Formation19
A condensed Cretaceous succession from the Beyaz Aladağ Unit (Aladağlar, Eastern Taurides, South Türkiye): calpionellids and planktonic foraminiferal biozones15
A new age model and chemostratigraphic framework for the Maastrichtian type area (southeastern Netherlands, northeastern Belgium)15
Bio- and chemostratigraphy of the Posidonia Shale: a new database for the Toarcian Oceanic Anoxic Event from northern Germany13
Permian and Triassic paleosols in the fluvial-lacustrine record of the central Pyrenees Basin, Spain: A stratigraphic tool for interpreting syn-tectonic sedimentary evolution and paleoclimate11
Dinoflagellate cysts of the upper Campanian–basal Maastrichtian (Upper Cretaceous) of the Middle Vistula River section (central Poland): stratigraphic succession, correlation potential and taxonomy10
Reinvestigation of the Wordian-base GSSP section, West Texas, USA10
Jurassic–Cretaceous transition in the Transdanubian Range (Hungary): integrated stratigraphy and paleomagnetic study of the Hárskút and Lókút sections10
Middle Triassic carbon isotope fluctuations in the Mecsek Mountains, Hungary10
Age constraint of the Cenomanian (Late Cretaceous) Fossillagerstätte of Hjoûla (Lebanon) based on ammonites8
High-resolution bio- and chemostratigraphy of the Toarcian to Aalenian of Northern Switzerland with a focus on the Opalinus Clay8
Uranium-lead dates from Livian (middle Viséan) bentonites of the Namur-Dinant Basin, Belgium7
From Neo-Tethyan convergence to India-Asia collision: radiolarian biostratigraphy of the Cretaceous to Paleocene deep-water Tethys Himalaya7
Refinement of the lower Tournaisian (Mississippian) conodont, foraminiferal and carbon isotope stratigraphy of the Moravosilesian Basin (Czech Republic) and implications for global correlati7
Late Cretaceous Orbitolinidae (Larger Benthic Foraminifera): Taxonomy, determination, biostratigraphy and palaeobiogeography6
Multidisciplinary re-assessment of the Ediacaran–Cambrian boundary interval in south-western Europe6
Erratum to “A detailed record of the C34n/C33r magnetozone boundary for the definition of the base of the Campanian Stage at the Bottaccione section (Gubbio, Italy)” (Newsletters on Stratigraphy, Vol.6
High-resolution integrated stratigraphy of Upper Ordovician to lower Silurian strata: applications to black shale drill cores in South China6
Critical revision and new proposals on the Aptian–Albian zonation of the Standard Mediterranean Ammonite Zonal Scheme6
Astrochronology of the Miocene Climatic Optimum record from Ocean Drilling Program Site 959 in the eastern equatorial Atlantic6
Preface – 19th International Congress on the Carboniferous and Permian, Cologne 2019. Stratigraphic contributions5
Improved chronostratigraphy for the Messel Formation (Hesse, Germany) provides insight into early to middle Eocene climate variability5
Calcareous nannofossils from the Paleogene Southern Ocean (IODP Site U1553, Campbell Plateau)5
Early Jurassic carbon-isotope perturbations in a shallow-water succession from the Tethys Himalaya, southern hemisphere4
Calcareous nannofossils across the Eocene-Oligocene transition at Site 756 (Ninetyeast Ridge, Indian Ocean): implications for biostratigraphy and paleoceanographic clues4
Towards the ammonite zonation of the Jurassic/Cretaceous transition: new data from ammonitico rosso/biancone sections of the Transdanubian Range (Hungary)4
A summary of upper Pennsylvanian regional substages defined in NW Spain – the chronostratigraphic legacy of Robert H. Wagner4
Composite ages of pelagic clay enriched in rare-earth elements in the Pacific Ocean based on Sr isotope chemostratigraphy and ichthyolith biostratigraphy4
Stratigraphy, conodont biostratigraphy and correlation of the San Juan Formation (Lower-Middle Ordovician) in the Villicum Range, Eastern Precordillera, Argentina4
The early depositional history of the Pisco Formation (Middle to Upper Miocene, Peru)4
Rolling back the ‘mudstone blanket’: complex geometric and facies responses to basin architecture in the epicontinental Oxford Clay Formation (Jurassic, UK)3
Conodont biostratigraphy and carbon isotope chemostratigraphy of the Furongian (Cambrian) and Lower Ordovician in the Zhejiang Province, southeast China3
The conodont species Rhachistognathus minutus and the mid-Carboniferous boundary3
Case study on Hangenberg Crisis equivalent deposits and associated conodont faunas including Siphonodella progenitors from late Devonian island arc settings (Indert Formation, Shine Jinst region, sout2
Quantitative biochronology by unitary associations of late Albian ammonites from Europe and their biodiversity2
Chronostratigraphy of the mixed Upper Cretaceous deposits at the northern margin of the Arabian Plate (Jordan)2
Strontium isotope ratios from the Swabo-Franconian Basin (Germany) and a new compilation of marine 87Sr/86Sr signatures for the Upper Sinemurian to Toarcian: global uniformity and driving forces for m2
High-resolution cyclochronology of the lowermost Ypresian Arnakatxa section (Basque-Cantabrian basin, western Pyrenees)2
Condensation and channelling in Cenomanian chalks of the northern Anglo-Paris Basin; The Totternhoe Stone and related deposits2
Rethinking the Carboniferous Chronostratigraphic scale2
Permian stratigraphy and palynology of the Lower Karoo Group in Mozambique – a 2020 perspective2
Permian autochthony of northwestern Mexico based on conodont paleogeographic relationships with southwestern Laurentia2
Magnetostratigraphy of the Pikermian fauna-bearing late Miocene Sivas Basin (central Anatolia, Turkey): fluvio-lacustrine sedimentation under stable climatic conditions across the Tortonian-Messinian 2
Division of Přídolí Series in Central Bohemia: graptolite and conodont biostratigraphy, faunal changes, and geochemical record2
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