The punctuation in the evolution of orbitoides in the campanian of South-West France
Publication date
1985
Authors
Drooger, C.W.
Klerk, J.C. de
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DOI
Document Type
Research paper
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Abstract
For the Orbitoides assemblages analyzed from a number of closely
sampled sections of Campanian calcarenites in south-west France there is a
sudden change in the means of several parameters of the internal embryonicnepionic
stage. The direction of the change is in accordance with the nepionic
acceleration principle, known to be valid for all lineages of orbitoidallarger
foraminifera. Below and above the level of the morphological break we seem
to be dealing with two longer periods without any systematic change in the
morphology. In two of the sections the abrupt shift could be narrowed down
to a lithostratigraphic distance of about ten centimetres, an interval which is
thought to correspond to a time duration of less than a few thousand years.
In none of the sections could any evidence be found that might point to
a hiatus in the sedimentation or to a notable change in the open-marine,
shallow-water environment. Since the discontinuity was found in sections
about 90 km apart (Aubeterre and Meschers) the change must have occurred
simultaneously throughout the entire Aquitaine basin. If we take into account
that bioturbation must have had an obliterating effect on our data,
it seems safe to conclude that the modal morphological change was very
large and geologically instantaneous.
Because no comparable change in internal morphology could be detected
in the accompanying Lepidorbitoides lineage it is thought likely that the
fundamental change in the population composition of the Orbitoides was an
autonomous happening fitting into the evolutional theory of homeostasis
and punctuation. The pulsating pattern in the stasis parts of our data sets is
rather weak; phyletic gradualism is still thought to be an acceptable theory
to explain the gain of more advanced morphotypes and the loss of conservative
ones in our Orbitoides sequence.
At the end of our paper it is argued that the concept of sympatric speciation
passing through low-frequency bottlenecks in the suites of populations
is the one that would fit best to the evolutional history of the lineages of
orbitoidal foraminifera. This model would combine the random character
and the directional aspect of evolution, which are expressed in various ways
in all better known lineages.