Composition and Origin of Jurassic Ammonite Concretions at Gerzen, Germany

Geraghty, Michael David

04 1900

<p> Study of the ecology of concretion and host sediment fossils from a shell bed in middle Bajocian clays of northwestern Germany indicates a predominantly epifaunal suspension-feeding community living on a firm mud bottom. The shell bed, firm bottom and low turbidity required by suspension feeders suggests a hiatus or reduced sedimentation at the time. Depth estimates of 50 to 150 m are indicated by ammonite and belemnite siphuncle and septal strength indices.</p> <p> Preservation of calcitic fossils is excellent in both concretions and host sediments. Aragonitic fossils show good preservation in the concretions. Aragonite has been replaced by at least two generations of calcite. Preservation in the host sediments is poor. Pyrite is common in void spaces of concretion fossils but less so in those from the host sediments.</p> <p> Eight concretions were studied, containing numerous Stephanoceras mutabile (macroconch) and Stephanoceras quenstedti (microconch). These are of opposite sexes but are not a dimorphic pair.</p> <p> Distribution of shell debris and other fossils within the concretions suggests that the ammonites were swept by currents into shallow depressions in the sea floor lined with shell debris. Such depressions have been observed in modern sediments as the result of the feeding activity of rays. The presence of currents is indicated by the southwest orientation of belemnite rostra in the host sediments. Carbonate content of concretion matrix is high indicating concretion growth in very fluid muds. This contrast with the firm bottom indicated by fossil ecology suggests rapid burial of the benthic community by either a mudflow or a sudden, large increase in sedimentation. Concretion growth was initiated by decomposition of organic matter within the mud.</p> / Thesis / Master of Science (MSc)

The Ability of Mosasaurs to Produce Unique Puncture Marks on Ammonite Shells

King, Steven Daniel

29 July 2009

No description available.

Paleontology

mosasaur

ammonite

puncture mark

tooth morphometrics

skull replica

The molluscan and brachiopod fauna of the Late Cretaceous Pierre Shale (Baculites compressus/Baculites cuneatus biozones) near Kremmling, Colorado

Sava, Lanora Ann

01 June 2007

The Kremmling Paleontological Resource Area (KPRA) contains one of the most fossiliferous units within the Late Cretaceous Western Interior Seaway of North America. It was deposited during the late Campanian Baculites compressus/cuneatus ammonite biozones ((\approx) 72.5 Ma) and records slightly less than one million years of depositional history. Examination of the fauna, its dominant preservational mode and taphonomy as well as the lithologic evidence from measured stratigraphic sections strongly suggests that the depositional environment of the KPRA was a shallow, relatively nearshore environment. A detailed taxonomic examination of the molluscan fauna was undertaken in order to re-evaluate past work as well as to more thoroughly document the fauna. Samples were collected from 79 locations within the (\approx) 1 km² study area. The molluscan fauna from the KPRA consists of 47 bivalve, 22 gastropod, and 13 cephalopod species; ten of these species are new. In addition, two inarticulate brachiopods and one serpulid are described. This highly diverse assemblage points to an increase in nearshore diversity as compared to faunas described from earlier intervals with similar environmental settings. The timing of this increase in species richness remains elusive, but may have initiated in the late Campanian and continued into the early Maastrichtian.

Paleontology

Campanian

Ammonite

Bivalves

Western Interior Seaway

American Studies

Arts and Humanities