NASA Logo

NTRS

NTRS - NASA Technical Reports Server

Back to Results
Shell structure and distribution of Cloudina, a potential index fossil for the terminal ProterozoicCloudina-bearing biosparites and biomicrites in the lower part of the Nama Group, Namibia, contain a wide morphological diversity of shell fragments that can all be attributed to the two named species C. hartmannae and C. riemkeae. The curved to sinuous tubular shells of Cloudina were multi-layered. Each shell layer was 8 to 50 micrometers thick and in the form of a slightly flaring tube with one end open and the other closed. Growth appears to have been periodic with successive shell layers forming within older layers. Each added layer was slightly elevated from the previous layer at the proximal end and was asymmetrically placed within the older layer so that only a portion of the new shell layer was fused to the previous layer. This type of growth left a relatively large unminerialized area between the shell layers which was often partially or fully occluded by early marine cements. The thin shell layers exhibit both plastic and brittle deformation and were likely formed of a rigid CaCO3-impregnated organic-rich material. Often the shell layers are preferentially dolomitized suggesting an original mineralogy of high-magnesian calcite. Both species in the Nama Group formed thickets, or perhaps bioherms, and this sedentary and gregarious habit suggests that Cloudina was probably a filter-feeding metazoan of at least a cnidarian grade of organization. The unusual shell structure of Cloudina gives rise to a characteristic suite of taphonomic and diagenetic features that can be used to identify Cloudina-bearing deposits within the Nama Group and in other terminal Proterozoic deposits around the world. Species of Cloudina occur in limestones from Brazil, Spain, China, and Oman in sequences consistent with a latest Proterozoic age assignment. In addition, supposed lower Cambrian, pre-trilobitic, shelly fossils from northwest Mexico and the White-Inyo Mountains in California and Nevada, including Sinotubulites, Nevadatubulus, and Wyattia, are all either closely related to or con-generic with Cloudina. Hence, it is probable that these outcrops are latest Proterozoic in age, and that Cloudina or Cloudina-like organisms were widely distributed at that time. It is possible, moreover, to suggest that metazoan biomineralization occurred on a global scale by the latest Proterozoic, at the same time that evidence for complex multicellularity and locomotion in animals appears in siliciclastic "Ediacaran" rocks in the form of body and trace fossils.
Document ID
20040089978
Acquisition Source
Headquarters
Document Type
Reprint (Version printed in journal)
Authors
Grant, S. W.
(Botanical Museum, Harvard University Cambridge, Massachusetts 02138, United States)
Knoll, A. H.
Date Acquired
August 21, 2013
Publication Date
January 1, 1990
Publication Information
Publication: American journal of science
Volume: 290-A
ISSN: 0002-9599
Subject Category
Geosciences (General)
Funding Number(s)
CONTRACT_GRANT: NAGW-893
Distribution Limits
Public
Copyright
Other
Keywords
NASA Program Exobiology
Non-NASA Center
NASA Discipline Number 52-30
NASA Discipline Exobiology

Available Downloads

There are no available downloads for this record.
No Preview Available