Reference health

Oscillations of global sea-level elevation during the Paleogene correspond to 1.2-Myr amplitude modulation of orbital obliquity cycles

https://doi.org/10.1016/j.epsl.2019.06.023
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32/32 checkable references clean · checked 2026-07-14

Every reference with a DOI in the deposited reference list resolved to a known work in Crossref or DataCite at the dated check, and none carried a publisher retraction, withdrawal, or removal notice.

22 without a DOI — not checked. A reference deposited without a DOI is never matched by title or guessed at; it stays outside the checked set, and this line discloses that.

The 32 checked references that resolve
resolves10.1029/2004PA001129
Long‐period orbital control on middle Miocene global cooling: Integrated stratigraphy and astronomical tuning of the Blue Clay Formation on Malta
resolves10.1016/j.earscirev.2011.09.003
On the origin of Cenozoic and Mesozoic “third-order” eustatic sequences
resolves10.1126/science.1093726
New Zealand Maritime Glaciation: Millennial-Scale Southern Climate Change Since 3.9 Ma
resolves10.1080/01621459.1979.10481038
Robust Locally Weighted Regression and Smoothing Scatterplots
resolves10.1016/0031-0182(89)90155-7
The origin of rhythmic bedding in the Pliocene Trubi Formation of Sicily, southern Italy
resolves10.1016/j.epsl.2009.12.021
Orbital chronology of Early Eocene hyperthermals from the Contessa Road section, central Italy
resolves10.1029/2000RG000092
ADVANCED SPECTRAL METHODS FOR CLIMATIC TIME SERIES
resolves10.1130/B25994.1
Mode and tempo of the Paleocene-Eocene thermal maximum in an expanded section from the Venetian pre-Alps
resolves10.1126/science.235.4793.1156
Chronology of Fluctuating Sea Levels Since the Triassic
resolves10.2113/geoarabia1002127
Phanerozoic cycles of sea-level change on the Arabian Platform
resolves10.1016/j.epsl.2010.09.044
Evaluation of the astronomical time scale for the Paleocene and earliest Eocene
resolves10.1038/nature03401
Obliquity pacing of the late Pleistocene glacial terminations
resolves10.1029/92PA02253
On the Structure and Origin of Major Glaciation Cycles 1. Linear Responses to Milankovitch Forcing
resolves10.1002/2016PA002963
Optimizing significance testing of astronomical forcing in cyclostratigraphy
resolves10.1111/j.1365-2117.2008.00354.x
Late Cretaceous to Miocene sea‐level estimates from the New Jersey and Delaware coastal plain coreholes: an error analysis
resolves10.5194/cp-4-205-2008
Amplification of obliquity forcing through mean annual and seasonal atmospheric feedbacks
resolves10.1038/s41467-018-03454-y
Sedimentary noise and sea levels linked to land–ocean water exchange and obliquity forcing
resolves10.1016/j.palaeo.2017.10.030
High-resolution astrochronological record for the Paleocene-Oligocene (66–23 Ma) from the rapidly subsiding Bohai Bay Basin, northeastern China
resolves10.1016/S1040-6182(96)00060-2
Long-periodic variations in the earth's obliquity and their relation to third-order eustatic cycles and late Neogene glaciations
resolves10.1038/nature03814
Astronomical pacing of late Palaeocene to early Eocene global warming events
resolves10.1007/BF00142586
Robust estimation of background noise and signal detection in climatic time series
resolves10.1130/0091-7613(1997)025<0807:OFOGCT>2.3.CO;2
Orbital forcing of global change throughout the Phanerozoic: A possible stratigraphic solution to the eccentricity phase problem
resolves10.1126/science.1116412
The Phanerozoic Record of Global Sea-Level Change
resolves10.1016/0031-0182(90)90107-I
Astronomical forcing of meandering river behaviour: Milankovitch cycles in Devonian of East Greenland
resolves10.1098/rsta.1999.0400
Long-period Milankovitch cycles from the Late Triassic and Early Jurassic of eastern North America and their implications for the calibration of the Early Mesozoic time–scale and the long–term behaviour of the planets
resolves10.1111/j.1365-3121.1997.tb00018.x
Translating Milankovitch climate forcing into eustatic fluctuations via thermal deep water expansion: a conceptual link
resolves10.1016/j.palaeo.2018.01.006
Terrestrial sedimentary responses to astronomically forced climate changes during the Early Paleogene in the Bohai Bay Basin, eastern China
resolves10.1046/j.1365-3121.2000.00315.x
Third‐order depositional sequences reflecting Milankovitch cyclicity
resolves10.1190/1.1440994
Complex seismic trace analysis
resolves10.1016/j.palaeo.2015.08.029
What drove sea-level fluctuations during the mid-Cretaceous greenhouse climate?
resolves10.1029/2006PA001322
On the duration of magnetochrons C24r and C25n and the timing of early Eocene global warming events: Implications from the Ocean Drilling Program Leg 208 Walvis Ridge depth transect
resolves10.1126/science.1058288
Climate Response to Orbital Forcing Across the Oligocene-Miocene Boundary
The 22 references without a DOI — listed, not checked
no DOI — not checkedAstronomical theory of climate change
no DOI — not checkedControls on coal distribution in transgressive-regressive cycles, Upper Cretaceous, Western Interior, U.S.A
no DOI — not checkedSequence-stratigraphic framework on Mesozoic and Paleogene of the East China Sea Shelf Basin
no DOI — not checkedThe origin of high-frequency platform carbonate cycles and third-order sequences (Lower Ordovician El Paso Gp. West Texas); constraints from outcrop data and stratigraphic modeling
no DOI — not checked10.1016/j.epsl.2019.06.023_br0120
no DOI — not checkedCretaceous sequence chronostratigraphy
no DOI — not checkedCharacteristic of tectonic evolution and petroleum geology in Lishui Sag, East China Sea Basin
no DOI — not checked10.1016/j.epsl.2019.06.023_br0200
no DOI — not checkedLong-term solution for the insolation quantities of the Earth
no DOI — not checkedA new orbital solution for the long-term motion of the Earth
no DOI — not checkedThe geological structure and tectonic evolution of the East China Sea Shelf Basin
no DOI — not checkedAnalysis on sequence-tracts and distribution of depositional systems of Paleocene Mingyuefeng Formation in West Lishui Sag, East China Sea
no DOI — not checkedSequence stratigraphy model of Paleocene Mingyuefeng Formation in Lishui sag of the East China Sea Shelf Basin
no DOI — not checked10.1016/j.epsl.2019.06.023_br0340
no DOI — not checkedCenozoic calcareous nannofossils
no DOI — not checked10.1016/j.epsl.2019.06.023_br0400
no DOI — not checkedTheoretical study of Gamma ray index (Igr): shale content (Vsh) relationship for shaly sands
no DOI — not checkedSeismic stratigraphy and global changes of sea level
no DOI — not checked10.1016/j.epsl.2019.06.023_br0460
no DOI — not checkedTertiary sequence stratigraphic framework and sea-level changes in the East China Sea Shelf Basin
no DOI — not checkedProvenance analysis of the upper Paleocene in LiShui 36-1 structure of Lishui Sag, East China Sea Shelf Basin
no DOI — not checkedDivision and controlling factors of Paleocene sequence strata in Lishui Sag, East China Sea Shelf Basin
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