Mixing of siliciclastic and carbonate sediments in shallow shelf environments
Mixing of siliciclastic and carbonate sediments in shallow shelf environments
Geology (Boulder) (July 1984) 12 (7): 432-435
- algae
- Anthozoa
- bioclastic sedimentation
- carbonate rocks
- carbonate sediments
- clastic rocks
- clastic sediments
- Cnidaria
- Coelenterata
- composition
- continental shelf
- depositional environment
- ecology
- environment
- Foraminifera
- Invertebrata
- lithofacies
- marine environment
- marine sedimentation
- marine sediments
- microfossils
- mixing
- Mollusca
- oceanography
- paleoecology
- Phanerozoic
- Plantae
- processes
- Protista
- provenance
- sedimentary petrology
- sedimentary rocks
- sedimentation
- sediments
- shallow-water environment
- shelf environment
- storm environment
Processes responsible for mixing are: (1) punctuated mixing, where sporadic storms and other extreme periodic events transfer sediments from one depositional environment to another; (2) facies mixing, where sediments are mixed along the diffuse boundaries between contrasting facies; (3) in situ mixing, where the carbonate fraction consists of the autochthonous or parautochthonous death assemblages of calcareous organisms that accumulated on or within siliciclastic substrates; and (4) source mixing, where admixtures are formed by the uplift and erosion of nearby carbonate source terranes. The allochemical constituents of mixed sediments are both coralgal and foram-mollusc in composition. The foram-mollusc assemblage is the most common because of the effects of increased turbidity, unstable substrates, and the clogging of filter-feeding mechanisms associated with a siliciclastic influx.--Modified journal abstract.