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Farley, K. A. et al. (2012): A record of the extraterrestrial (super 3) He flux through the Late Cretaceous
Leg/Site/Hole:
Related Expeditions:
ODP 122
ODP 122 762
Identifier:
ID:
2012-061440
Type:
georefid
ID:
10.1016/j.gca.2012.01.015
Type:
doi
Creator:
Name:
Farley, K. A.
Affiliation:
California Technical Institute, Division Geological and Planetary Sciences, Pasadena, CA, United States
Role:
author
Name:
Montanari, A.
Affiliation:
Osservatorio Geologico di Coldigioco, Italy
Role:
author
Name:
Coccioni, R.
Affiliation:
Universita di Urbino Carlo Bo, Italy
Role:
author
Identification:
Title:
A record of the extraterrestrial (super 3) He flux through the Late Cretaceous
Year:
2012
Source:
Geochimica et Cosmochimica Acta
Publisher:
Elsevier, New York, NY, International
Volume:
84
Issue:
Pages:
314-328
Abstract:
Late Cretaceous (100-73 Ma) pelagic limestones were measured for helium concentration and isotopic composition to characterize the interplanetary dust flux using (super 3) He as a tracer. In the Bottaccione section near Gubbio, Italy, three intervals of elevated (super 3) He concentration were detected: K1 in the Campanian stage at approximately 79 Ma, K2 in the Santonian stage at approximately 85 Ma, and K3 in the Turonian stage at approximately 91 Ma. All three of these episodes are associated with high (super 3) He/ (super 4) He and (super 3) He/non-carbonate ratios, consistent with their derivation from an enhanced extraterrestrial (super 3) He flux rather than decreased carbonate sedimentation or dissolution. While K2 is modest in magnitude and duration and thus is of limited significance, K1 and K3 are each identified by a few myr interval with an approximately 4-fold enhancement in mean (super 3) He flux compared with pre-event levels. Samples from ODP Hole 762C in the Indian Ocean spanning both K2 and K3 (93-83 Ma) confirm the presence of a peak in the Turonian stage, suggesting that K3 is a global event. The K1 and K3 (super 3) He events are similar in most respects to the two peaks previously detected in the Cenozoic, suggesting a similar origin. These have been attributed to a major asteroid collision in the Late Miocene and to a shower of either comets or asteroids in the Late Eocene. Based on the age and temporal evolution of K1, we suggest that it most likely records the collision which produced the Baptistina asteroid family independently dated at approximately 80 Ma. The K3 event is less easily explained. It is characterized by an unusually spiky and erratic temporal progression, suggesting an unusual abundance of very (super 3) He rich particles not previously seen in the sedimentary (super 3) He record. We suggest this episode arises either from a comet shower or from an asteroid shower possibly associated with dust-producing lunar impacts. Abstract Copyright (2012) Elsevier, B.V.
Language:
English
Genre:
Serial
Rights:
URL:
Coverage:
Geographic coordinates:
North:43.4000
West:11.5000
East: 112.1515
South:-19.5315
Keywords:
Isotope geochemistry; Stratigraphy; asteroids; biostratigraphy; Bottaccione Italy; carbonate rocks; Cenozoic; chemical composition; comets; cosmochemistry; Cretaceous; Europe; Exmouth Plateau; Foraminifera; geochemistry; Gubbio Italy; He-3; helium; impacts; Indian Ocean; Invertebrata; isotopes; Italy; Leg 122; limestone; Marches Italy; Mesozoic; microfossils; Miocene; Neogene; noble gases; Ocean Drilling Program; ODP Site 762; Perugia Italy; Protista; Santonian; sedimentary rocks; Senonian; Southern Europe; stable isotopes; Tertiary; Turonian; Umbria Italy; Upper Cretaceous; upper Miocene;
.
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