Precisely locating the Ordovician equator in Laurentia

Jisuo Jin; David A. T. Harper; L. Robin M. Cocks; Phil J. A. McCausland; Christian Mac Ørum Rasmussen; Peter M. Sheehan

doi:10.1130/G33688.1

Precisely locating the Ordovician equator in Laurentia

Jisuo Jin, David A. T. Harper, L. Robin M. Cocks, Phil J. A. McCausland, Christian Mac Ørum Rasmussen, Peter M. Sheehan

57 Citationer (Scopus)

Abstract

The Late Ordovician equatorial zone, like the zone today, had few hurricane-grade storms within 100 of the equator, as emphasized by the preservation of massive-bedded Thalassinoides ichnofacies in a trans-Laurentian belt more than 6000 km long, from the southwestern United States to North Greenland. That belt also includes nonamalgamated shell beds dominated by the brachiopod Proconchidium, which would not have been preserved after hurricane-grade storms. The belt lacks such storm-related sedimentary features as rip-up clasts, hummocky cross-stratification, or large channels. In contrast, other contemporaneous Laurentian Thalassinoides facies and shell beds on either side of the belt have been disturbed by severe storms below fair-weather wave base. The position of the biofacies-defined equatorial belt coincides with the Late Ordovician equator deduced from paleomagnetic data from Laurentia, thus providing both a high-precision equatorial location and an independent test of the geocentric axial dipole hypothesis for that time.

Originalsprog	Engelsk
Tidsskrift	Geology
Vol/bind	41
Udgave nummer	2
Sider (fra-til)	107-110
Antal sider	4
ISSN	0091-7613
DOI	https://doi.org/10.1130/G33688.1
Status	Udgivet - feb. 2013

Adgang til dokumentet

10.1130/G33688.1

Citationsformater

@article{18cb0d5756284fd38ef804ee64feb0b3,

title = "Precisely locating the Ordovician equator in Laurentia",

abstract = "The Late Ordovician equatorial zone, like the zone today, had few hurricane-grade storms within 10o of the equator, as emphasized by the preservation of massive-bedded Thalassinoides ichnofacies in a trans-Laurentian belt more than 6000 km long, from the southwestern United States to North Greenland. That belt also includes nonamalgamated shell beds dominated by the brachiopod Proconchidium, which would not have been preserved after hurricane-grade storms. The belt lacks such storm-related sedimentary features as rip-up clasts, hummocky cross-stratification, or large channels. In contrast, other contemporaneous Laurentian Thalassinoides facies and shell beds on either side of the belt have been disturbed by severe storms below fair-weather wave base. The position of the biofacies-defined equatorial belt coincides with the Late Ordovician equator deduced from paleomagnetic data from Laurentia, thus providing both a high-precision equatorial location and an independent test of the geocentric axial dipole hypothesis for that time.",

author = "Jisuo Jin and Harper, {David A. T.} and Cocks, {L. Robin M.} and McCausland, {Phil J. A.} and Rasmussen, {Christian Mac {\O}rum} and Sheehan, {Peter M.}",

year = "2013",

month = feb,

doi = "10.1130/G33688.1",

language = "English",

volume = "41",

pages = "107--110",

journal = "Geology",

issn = "0091-7613",

publisher = "GeoScienceWorld",

number = "2",

}

TY - JOUR

T1 - Precisely locating the Ordovician equator in Laurentia

AU - Jin, Jisuo

AU - Harper, David A. T.

AU - Cocks, L. Robin M.

AU - McCausland, Phil J. A.

AU - Rasmussen, Christian Mac Ørum

AU - Sheehan, Peter M.

PY - 2013/2

Y1 - 2013/2

N2 - The Late Ordovician equatorial zone, like the zone today, had few hurricane-grade storms within 10o of the equator, as emphasized by the preservation of massive-bedded Thalassinoides ichnofacies in a trans-Laurentian belt more than 6000 km long, from the southwestern United States to North Greenland. That belt also includes nonamalgamated shell beds dominated by the brachiopod Proconchidium, which would not have been preserved after hurricane-grade storms. The belt lacks such storm-related sedimentary features as rip-up clasts, hummocky cross-stratification, or large channels. In contrast, other contemporaneous Laurentian Thalassinoides facies and shell beds on either side of the belt have been disturbed by severe storms below fair-weather wave base. The position of the biofacies-defined equatorial belt coincides with the Late Ordovician equator deduced from paleomagnetic data from Laurentia, thus providing both a high-precision equatorial location and an independent test of the geocentric axial dipole hypothesis for that time.

AB - The Late Ordovician equatorial zone, like the zone today, had few hurricane-grade storms within 10o of the equator, as emphasized by the preservation of massive-bedded Thalassinoides ichnofacies in a trans-Laurentian belt more than 6000 km long, from the southwestern United States to North Greenland. That belt also includes nonamalgamated shell beds dominated by the brachiopod Proconchidium, which would not have been preserved after hurricane-grade storms. The belt lacks such storm-related sedimentary features as rip-up clasts, hummocky cross-stratification, or large channels. In contrast, other contemporaneous Laurentian Thalassinoides facies and shell beds on either side of the belt have been disturbed by severe storms below fair-weather wave base. The position of the biofacies-defined equatorial belt coincides with the Late Ordovician equator deduced from paleomagnetic data from Laurentia, thus providing both a high-precision equatorial location and an independent test of the geocentric axial dipole hypothesis for that time.

U2 - 10.1130/G33688.1

DO - 10.1130/G33688.1

M3 - Journal article

SN - 0091-7613

VL - 41

SP - 107

EP - 110

JO - Geology

JF - Geology

IS - 2

ER -

Precisely locating the Ordovician equator in Laurentia

Abstract

Adgang til dokumentet

Fingeraftryk

Citationsformater