Pja. Mccausland et Jp. Hodych, PALEOMAGNETISM OF THE 550 MA SKINNER COVE VOLCANICS OF WESTERN NEWFOUNDLAND AND THE OPENING OF THE IAPETUS OCEAN, Earth and planetary science letters, 163(1-4), 1998, pp. 15-29
The Skinner Cove Formation of western Newfoundland is an alkali volcan
ic suite transported in the Ordovician onto Laurentia's Iapetus Ocean
margin. It has previously yielded a U-Pb zircon age of 550.5(-2)(+3) M
a, has no penetrative deformation and has only been affected by zeolit
e facies metamorphism. At 10 sites, flows and dykes of the Skinner Cov
e Formation exhibit a stable characteristic 'A' remanence carried by m
agnetite. This 'A' remanence is shown to be primary by an intraformati
onal conglomerate test using 20 trachybasalt clasts (whereas 11 alkali
basalt clasts were overprinted, probably because they originally cont
ained titanomagnetite from which rutile exsolved soon after burial by
overlying flows). After tilt-correction, the mean 'A' remanence direct
ion is southeast and down (D = 144 degrees, I = 32 degrees; alpha(95)
= 11 degrees, k = 21, N = 10 sites). The paleolatitude calculated from
the ten 'A' site virtual geomagnetic poles is 19 degrees S +/- 9 degr
ees, which likely represents the paleolatitude of Laurentia's Iapetan
margin at similar to 550 Ma. Evidence that the Skinner Cove Formation
originated at this margin includes its structural position within the
Humber Arm Allochthon, its within-plate trace element geochemistry, an
d its similarity in age to other alkali magmatism that more certainly
represents Laurentia's Iapetan margin. Comparison with other Laurentia
n paleomagnetic data implies that Laurentia drifted very rapidly north
ward from the south polar region to the equator between similar to 570
and 550 Ma. We suggest that the start of this rapid northward drift a
t similar to 570 Ma marked the onset of Iapetus sea-floor spreading be
tween Laurentia and West Gondwana. Further well-constrained paleomagne
tic data of similar to 570 to similar to 550 Ma age are needed from La
urentia to test its high rate of northward drift, and from West Gondwa
nan cratons to test that they remained relatively stationary. (C) 1998
Elsevier Science B.V. All rights reserved.