New Zealand Journal of Geology and Geophysics abstracts
Paleoenvironmental changes across the Cretaceous/Tertiary boundary at
Flaxbourne River and Woodside Creek, eastern Marlborough, New Zealand
C. J. Hollis1
C. P. Strong1
K. A. Rodgers2
K. M. Rogers1
1Institute of Geological & Nuclear Sciences
P.O. Box 30 368
Lower Hutt, New Zealand
email: c.hollis@gns.cri.nz
2Australian Museum
College St
Sydney, NSW, Australia
Abstract An integrated study of variation in siliceous
microfossils, lithofacies, and other geochemical guides to environmental
conditions through the Cretaceous/Tertiary (K/T) boundary transition at Flaxbourne
River and Woodside Creek, coastal eastern Marlborough, indicates that the
K/T impact disrupted oceanic conditions along the continental margin of eastern
New Zealand for c. 1 m.y. Initial effects of the K/T event were a major reduction
in carbonate production, associated with calcareous plankton extinctions,
and significant increases in terrigenous clay and biogenic silica content.
An absence of radiolarian extinctions or significant negative excursions
in paleo-productivity indicators (Ba, δ13C) at the boundary, followed
by rapid increases in the abundance of diatoms and spumellarian radiolarians,
indicate that biogenic silica production partly compensated for the collapse
in calcareous plankton. The earliest Paleocene recovery of calcareous
plankton was short-lived, giving way to a progressive increase in siliceous
plankton abundance over c. 500 000 yr, which culminated in a c. 400 000 yr
episode of peak biogenic silica production. The dominance of siliceous facies,
coupled with the abundance of diatoms and spumellarian radiolarians, indicates
climatic or oceanic conditions were significantly cooler than in the Late
Cretaceous. Stepped increases in biogenic silica production show c. 100 000
yr periodicity, suggesting that early Paleocene lithofacies changes were
influenced by climate forcing agents at the eccentricity bandwidth.
Keywords Mead Hill Formation; Paleocene; K/T boundary;
radiolarians; diatoms; foraminifera; biostratigraphy; paleoecology; geochemistry;
silica; barium; carbon isotopes
G02029 Received 14 June 2002; accepted 6 March 2003; published 30 June
2003
New Zealand Journal of Geology & Geophysics, 2003, Vol. 46: 177-197
0028-8306/03/4602-0177 $7.00/0 © The Royal Society of New Zealand
2003
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