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2. Widespread late Mesozoic to Recent remagnetization of Paleozoic and lower Triassic sedimentary rocks from South China
3. Widespread formation of cherts during the early Eocene climate optimum
4. Well Logging Results from the Newark Rift Basin Coring Project
5. Weaker axially dipolar time-averaged paleomagnetic field based on multidomain-corrected paleointensities from Galapagos lavas
6. VRM Studies in Leg 37 Igneous Rocks
7. Volume II: Paleomagnetism and Confirmation of Drift (H.R. Frankel)
8. Viscous Remanent Magnetization in Basalt Samples
9. Variations in layer 2A thickness and the origin of the central anomaly magnetic high
10. Upper Eocene to Oligocene isotope (^87Sr/^86Sr, δ^18O, δ^13C) standard section, Deep Sea Drilling Project Site 522
11. U-Pb zircon geochronology and depositional age models for the Upper Triassic Chinle Formation (Petrified Forest National Park, Arizona, USA): implications for Late Triassic paleoecological and paleoenvironmental change
12. Ultrahigh Resolution Marine Magnetic Anomaly Profiles: A Record of Continuous Paleointensity Variations?
13. Triassic lithostratigraphy of the Jameson Land Basin (central East Greenland), with emphasis on the new Fleming Fjord Group
14. Tracking the Late Jurassic apparent (or true) polar shift in U-Pb-dated kimberlites from cratonic North America (Superior Province of Canada)
15. Towards a better definition of the Middle Triassic magnetostratigraphy and biostratigraphy in the Tethyan realm
16. Toward a Revised Paleogene Geochronology
17. Timing of volcanism along the northern East Pacific Rise based on paleointensity experiments on basaltic glasses
18. The time-averaged paleomagnetic field
19. Thermoviscous remagnetization in some Appalachian limestones
20. The relative stabilities of the reverse and normal polarity states of the earth's magnetic field
21. The Paleomagnetism of Red Beds and Basalts of the Hettangian Extrusive Zone, Newark Basin, New Jersey
22. The Paleomagnetic Field from Equatorial Deep-Sea Sediments: Axial Symmetry and Polarity Asymmetry
23. The Paleocene/Eocene boundary Global Standard Stratotype-section and Point (GSSP): Criteria for Characterisation and Correlation
24. The Neogene: Part 2: Neogene geochronology and chronostratigraphy
25. The magnetic fabric of surficial deep-sea sediments in the HEBBLE area (Nova Scotian continental rise)
26. The Global Standard Stratotype-section and Point (GSSP) for the base of the Eocene Series in the Dababiya section (Egypt)
27. The Early Carboniferous paleomagnetic field of North America and its bearing on tectonics of the Northern Appalachians
28. The Dababiya Quarry section: Lithostratigraphy, clay mineralogy, geochemistry and paleontology
29. The Dababiya corehole, Upper Nile Valley, Egypt: Preliminary Results
30. The Colorado Plateau Coring Project (CPCP): 100 Million Years of Earth System History
31. The base of the Anisian. A candidate global stratotype section and point from Chios Island (Greece)
32. Tethyan magnetostratigraphy from Pizzo Mondello (Sicily) and correlation to the Late Triassic Newark astrochronological polarity time scale
33. Testing the occurrence of Late Jurassic true polar wander using the La Negra volcanics of northern Chile
34. Testing models of the Tertiary paleomagnetic field
35. Testing corrections for paleomagnetic inclination error in sedimentary rocks: A comparative approach
36. Testing Cenozoic Eustatic Changes: The Critical Role of Stratigraphic Resolution
37. Temporal and Stratigraphic Framework for Paleoanthropology Sites Within East-Central Area 130, Koobi Fora, Kenya
38. Tectonic Implications of Paleomagnetic Results from Marie Byrd Land, West Antarctica
39. Tectonic Implications of a Remagnetization Event in the Newark Basin
40. Synfolding and prefolding magnetizations in the Upper Devonian Catskill Formation of eastern Pennsylvania
41. Synchrony between the Central Atlantic magmatic province and the Triassic-Jurassic mass-extinction event? Reply to Marzoli et al.
42. Synchrony between the Central Atlantic magmatic province and the Triassic-Jurassic mass-extinction event?
43. Summary of palaeomagnetic results from West Antarctica: implications for the tectonic evolution of the Pacific margin of Gondwana during the Mesozoic
44. Statistical structure of geomagnetic reversals
45. Stable isotopic response to late Eocene extraterrestrial impacts
46. Stability of anhysteretic remanent magnetization in fine and coarse magnetite and maghemite particles
47. Source of oceanic magnetic anomalies and the geomagnetic polarity time scale
48. Slow apparent polar wander for North America in the Late Triassic and large Colorado Plateau rotation
49. Site Selected for Colorado Plateau Coring: Colorado Plateau Coring Project Workshop, Phase 2: 100 Million Years of Climatic, Tectonic, and Biotic Evolution From Continental Coring . . .
50. Site 503: Eastern Equatorial Pacific
51. Site 502: Colombia Basin, Western Caribbean
52. Silurian-Permian palaeocontinental reconstructions and circum-Atlantic tectonics
53. Short polarity intervals within the Matuyama: transitional field records from hydraulic piston cored sediments from the North Atlantic
54. Shallow bias of paleomagnetic inclinations in the Paleozoic and Precambrian
55. Seafloor Spreading, Sea Level, and Ocean Chemistry Changes
56. Rhaetian magneto-biostratigraphy from the Southern Alps (Italy): Constraints on Triassic chronology
57. Revised Stratigraphy of Late Triassic Age Strata of the Dan River Basin (Virginia and North Carolina, USA) Based on Drill Core and Outcrop Data
58. Revised magnetostratigraphies confirm low sedimentation rates in Arctic Ocean cores
59. Revised magnetic polarity time scale for the Late Cretaceous and Cenozoic time
60. Revised chronology for late Pleistocene Mono Lake sediments based on paleointensity correlation to the global reference curve
61. Revised calibration of the geomagnetic polarity timescale for the Late Cretaceous and Cenozoic
62. Response to Comment on “Atmospheric PCo2 Perturbations Associated with the Central Atlantic Magmatic Province”
63. Response to Comment on "Ascent of Dinosaurs Linked to an Iridium Anomaly at the Triassic-Jurassic Boundary"
64. RESET: A Method to Monitor Thermoremanent Alteration in Thellier-Series Paleointensity Experiments
65. Reservoir and sealing properties of the Newark rift basin formations: Implications for carbon sequestration
66. Reply to Comment by Robert F. Butler, Steven R. May, and David R. Bazard on "High-Latitude Paleomagnetic Poles From Middle Jurassic Plutons and Moat Volcanics in New England . . ."
67. Reply to a comment on ‘‘A case for a comet impact trigger for the Paleocene/Eocene thermal maximum and carbon isotope excursion’’ by G.R. Dickens and J.M. Francis
68. Regional trends in the timing of Alleghanian remagnetization in the Appalachians
69. Redbeds and thermoviscous magnetization theory
70. Rapid emplacement of the Central Atlantic Magmatic Province as a net sink for CO2
71. Quantified abundance of magnetofossils at the Paleocene–Eocene boundary from synchrotron-based transmission X-ray microscopy
72. Properties of a detrital remanence carried by hematite from study of modern river deposits and laboratory redeposition experiments
73. Potential on-shore and off-shore reservoirs for CO2 sequestration in Central Atlantic magmatic province basalts
74. Post-depositional Remanent Magnetisation in Deep-sea Sediment
75. Post-depositional detrital remanent magnetism in reconstituted deep sea sediment
76. Pliocene-Pleistocene radiolarian events and magnetostratigraphic calibrations for the tropical Indian Ocean
77. Pleistocene magnetochronology of early hominin sites at Ceprano and Fontana Ranuccio, Italy
78. Planetary chaos and inverted climate phasing in the Late Triassic of Greenland
79. Pass-through core measurements of magnetic susceptibility and natural gamma ray, New Jersey Coastal Plain
80. Pangea B and the Late Paleozoic Ice Age
81. Paleomagnetism of Upper Triassic continental sedimentary rocks from the Dan River—Danville rift basin (eastern North America)
82. Paleomagnetism of upper Cretaceous rocks from South China
83. Paleomagnetism of the Upper Ordovician Juniata Formation of the central Appalachians revisited again
84. Paleomagnetism of the Upper Devonian Catskill Formation from the southern limb of the Pennsylvania Salient: Possible evidence of oroclinal rotation
85. Paleomagnetism of the Silurian-Devonian Andreas redbeds: Evidence for an Early Devonian supercontinent?
86. Paleomagnetism of the Lower Devonian Traveler Felsite and the Acadian orogeny in the New England Appalachians
87. Paleomagnetism of the Front Range (Colorado) Morrison Formation and an alternative model of Late Jurassic North American apparent polar wander
88. Paleomagnetism of the Devonian Onondaga Limestone Revisited
89. Paleomagnetism of the Devonian Catskill Red Beds: Evidence for Motion of the Coastal New England-Canadian Maritime Region Relative to Cratonic North America
90. Paleomagnetism of Some Neogene Sedimentary Rocks on Oga Peninsula, Japan
91. Paleomagnetism of Siluro-Devonian rocks from eastern Maine: Reply
92. Paleomagnetism of Siluro-Devonian rocks from eastern Maine
93. Paleomagnetism of Selected Devonian Age Plutons from Maine, Vermont and New York
94. Paleomagnetism of Permian and Triassic Rocks, Central Chilean Andes
95. Paleomagnetism of Miocene volcanics on Sao Tome: Paleosecular variation at the Equator and a comparison to its latitudinal dependence over the last 5 Myr
96. Paleomagnetism of Lower-Middle Devonian and Upper Proterozoic-Cambrian(?) Rocks from Mejeria (Mauritania, West Africa)
97. Paleomagnetism of Leg 115 Sediments: Implications for Neogene Magnetostratigraphy and Paleolatitude of the Réunion Hotspot
98. Paleomagnetism of latest Anisian (Middle Triassic) sections of the Prezzo Limestone and the Buchenstein Formation, Southern Alps, Italy
99. Paleomagnetism of Jurassic Rocks in the Western Sierra Nevada Metamorphic Belt and its Bearing on the Structural Evolution of the Sierra Nevada Block
100. Paleomagnetism of 122 Ma Plutons in New England and the Mid-Cretaceous Paleomagnetic Field in North America: True Polar Wander or Large-Scale Differential Mantle Motion?
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