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Stable oxygen isotope chemostratigraphy and paleotemperature regime of mosasaurs at Bentiaba, Angola

Published online by Cambridge University Press:  18 February 2015

C. Strganac*
Affiliation:
Roy M. Huffington Department of Earth Sciences, Southern Methodist University, Dallas, Texas 75275, USA Perot Museum of Nature and Science, Dallas, Texas 75201, USA
L.L. Jacobs
Affiliation:
Roy M. Huffington Department of Earth Sciences, Southern Methodist University, Dallas, Texas 75275, USA
M.J. Polcyn
Affiliation:
Roy M. Huffington Department of Earth Sciences, Southern Methodist University, Dallas, Texas 75275, USA
K.M. Ferguson
Affiliation:
Roy M. Huffington Department of Earth Sciences, Southern Methodist University, Dallas, Texas 75275, USA
O. Mateus
Affiliation:
GeoBioTec, Faculdade de Ciências e Tecnologia, Universidade Nova de Lisboa, Caparica, Portugal Museu da Lourinhã, Rua João Luis de Moura, 2530-157, Lourinhã, Portugal
A. Olímpio Gonçalves
Affiliation:
Departamento de Geologia, Faculdade de Ciencas, Universidade Agostinho Neto, Avenida 4 de Fevereiro 7, Luanda, Angola
M.-L. Morais
Affiliation:
Departamento de Geologia, Faculdade de Ciencas, Universidade Agostinho Neto, Avenida 4 de Fevereiro 7, Luanda, Angola
T. da Silva Tavares
Affiliation:
Departamento de Geologia, Faculdade de Ciencas, Universidade Agostinho Neto, Avenida 4 de Fevereiro 7, Luanda, Angola Université de Bourgogne, Dijon, France
*
*Corresponding author. Email: christopher.strganac@perotmuseum.org

Abstract

Stable oxygen isotope values of inoceramid marine bivalve shells recovered from Bentiaba, Angola, are utilised as a proxy for paleotemperatures during the Late Cretaceous development of the African margin of the South Atlantic Ocean. The δ18O values derived from inoceramids show a long-term increase from –3.2‰ in the Late Turonian to values between –0.8 and –1.8‰ in the Late Campanian. Assuming a constant oceanic δ18O value, an ∼2‰ increase may reflect cooling of the shallow marine environment at Bentiaba by approximately 10°. Bentiaba values are offset by about +1‰ from published records for bathyal Inoceramus at Walvis Ridge. This offset in δ18O values suggests a temperature difference of ∼5° between coastal and deeper water offshore Angola. Cooler temperatures implied by the δ18O curve at Bentiaba coincide with the stratigraphic distribution of diverse marine amniotes, including mosasaurs, at Bentiaba.

Information

Type
Original Article
Copyright
© Netherlands Journal of Geosciences Foundation 2015 
Figure 0

Fig. 1. Location map of Bentiaba, Angola. Inset shows location of Angola within Africa, offshore basins labelled in capital letters. Note location of DSDP Hole 530A, which is discussed in the text. Modified from Strganac et al. (2014a).

Figure 1

Fig. 2. Section at Bentiaba with δ13C and inoceramid δ18O stratigraphic curves. Red bones and ‘19’ indicate marine amniote-bearing horizons and Bench 19. Note that the δ13C curve is composite of inoceramid and other bivalve data in Strganac et al. (2014a).

Figure 2

Table 1. Stable isotope values of inoceramid shells for the Bentiaba δ18O stratigraphy. Paleotemperature calculated using calcite–temperature equation of Kim & O’Neil (1997).

Figure 3

Fig. 3. Comparison of Bentiaba δ18O stratigraphy to Inoceramus (Barron et al., 1984) and benthic foraminifera (Li & Keller, 1998; Friedrich et al., 2012) from Walvis Ridge and the Pacific Ocean compilation (Friedrich et al., 2012; their supplemental). Figure is as follows left to right: Bentiaba section with stable oxygen- and magnetostratigraphy, Bentiaba δ18O curve calibrated with δ13C (horizontal shaded areas) and paleomagnetic (dashed lines) correlations from Strganac et al. (2014a), Walvis Ridge and Pacific δ18O curves.