EARLY LIASSIC TRACE FOSSIL ASSEMBLAGES FROM THE HOLY CROSS MOUNTAINS, POLAND: THEIR DISTRIBUTION IN CONTINENTAL AND MARGINAL MARINE ENVIRONMENTS

The Hanneh Member (Cambrian Stage 5) of the Burj Formation and the Umm Ishrin Formation of Jordan represent a transgressive-regressive succession that contains twenty-eight ichnotaxa, including vertical burrows (Arenicolitesisp.,Diplocraterionisp.,Gyrolithes polonicus,Rosseliaisp.,Skolithos linearis, escape trace fossils), horizontal simple burrows and trails (Archaeonassa fossulata,Gordia marina,Helminthoidichnites tenuis,Palaeophycus tubularis,Planolites beverleyensis,P. montanus), plug-shaped burrows (Bergaueria sucta), horizontal branched burrows (Asterosomaisp.,Phycodesisp.,Treptichnuscf.T. pedum), bilobate structures (various ichnospecies ofCruzianaandRusophycus), and trackways and scratch marks (Diplichnitesisp.,Dimorphichnuscf.D. obliquus,Monomorphichnusisp.). Eleven trace-fossil assemblages are identified. TheArenicolitesisp. andDiplocraterionisp. assemblages occur in transgressive tidal dunes and bars whereas theRosseliaisp. assemblage characterizes areas between tidal dunes. TheCruziana salomonisassemblage reflects a wide variety of environmental settings including channels within tidal-bar complexes, bottomsets of tidal dunes, and interdune areas. TheGordia marinaassemblage is present between dune patches. TheGyrolithes polonicusassemblage penetrates into firmground mudstone below the maximum flooding surface. TheBergaueria sucta,Archaeonassa fossulata,Rusophycus aegypticusandCruziana problematicaassemblages occur in different subenvironments of the progradational delta.Cruziana salomonisandRusophycus burjensis, originally considered indicative of an early Cambrian age, are actually middle Cambrian in their type locality. Occurrences ofCruziana jordanicaandRusophycus aegypticusprovide evidence that these ichnospecies are of the same age in Jordan and may co-exist in terms of stratigraphic distribution withC. salomonisandR. burjensis.

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Microbialites in the shallow-water marine environments of the Holy Cross Mountains (Poland) in the aftermath of the Frasnian–Famennian biotic crisis

Global and Planetary Change ◽

10.1016/j.gloplacha.2015.12.001 ◽

2016 ◽

Vol 136 ◽

pp. 30-40 ◽

Cited By ~ 6

Author(s):

Michał Rakociński ◽

Grzegorz Racki

Keyword(s):

Shallow Water ◽

Marine Environments ◽

Biotic Crisis ◽

Holy Cross Mountains

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Middle Permian trace fossil assemblages from the Carnarvon Basin of Western Australia: Implications for the evolution of ichnofaunas in wave-dominated siliciclastic shoreface settings across the Permian-Triassic boundary

Global and Planetary Change ◽

10.1016/j.gloplacha.2020.103392 ◽

2021 ◽

Vol 197 ◽

pp. 103392

Author(s):

Xueqian Feng ◽

Zhong-Qiang Chen ◽

Laishi Zhao ◽

Zhongwu Lan

Keyword(s):

Western Australia ◽

Trace Fossil ◽

Middle Permian ◽

Triassic Boundary ◽

Fossil Assemblages ◽

Permian Triassic Boundary ◽

Carnarvon Basin

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NEW OCCURRENCES OF THE TRACE FOSSIL PALEODICTYON IN SHALLOW MARINE ENVIRONMENTS: EXAMPLES FROM THE TRIASSIC-JURASSIC OF IRAN

Palaios ◽

10.2110/palo.2006.p06-041r ◽

2007 ◽

Vol 22 (4) ◽

pp. 408-416 ◽

Cited By ~ 18

Author(s):

F. T. FURSICH ◽

J. TAHERI ◽

M. WILMSEN

Keyword(s):

Trace Fossil ◽

Marine Environments ◽

Shallow Marine ◽

New Occurrences

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The trace fossil Dactyloidites ottoi (Geinitz, 1849) from the Neogene August Town Formation of south-central Jamaica

Journal of Paleontology ◽

10.1017/s0022336000025415 ◽

1993 ◽

Vol 67 (6) ◽

pp. 1070-1074 ◽

Cited By ~ 12

Author(s):

Ron K. Pickerill ◽

Stephen K. Donovan ◽

Harold L. Dixon

Keyword(s):

Detailed Analysis ◽

Trace Fossils ◽

Trace Fossil ◽

Marine Environments ◽

Biogenic Origin ◽

South Central ◽

Rock Record ◽

Distinctive Morphology ◽

Detailed Interpretation ◽

Deposit Feeding

Rosette-shaped problematica are relatively common structures in the Phanerozoic rock record. Historically, they have been accorded a variety of names and documented from various shallow to deep marine environments. Unfortunately, the detailed interpretation of many such structures as biogenic (trace fossils, medusoids, or other body fossils; see, for example, Häntzschel, 1970, 1975) or nonbiogenic (for example, Pickerill and Harris, 1979) in origin still remains to be resolved. However, a detailed analysis of one such structure by Fürsich and Bromley (1985), namely Dactyloidites Hall, 1886, convincingly demonstrated its biogenic origin. The distinctive morphology of Dactyloidites and its synonyms was interpreted by Fürsich and Bromley (1985) to result from successive probings of an essentially stationary deposit-feeding, worm-like organism, possibly possessing a proboscis, to produce a rosetted, vertical spreiten with a centrally located, vertical or subvertical shaft.

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Analysis of Upper Cretaceous Trace-Fossil Assemblages, U.S. Western Interior: ABSTRACT

AAPG Bulletin ◽

10.1306/03b59b7a-16d1-11d7-8645000102c1865d ◽

1982 ◽

Vol 66 ◽

Author(s):

Allen W. Archer, Donald E. Hattin

Keyword(s):

Upper Cretaceous ◽

Trace Fossil ◽

Fossil Assemblages

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New ichnofabrics of the Cenomanian–Danian Chalk Group

Journal of Sedimentary Research ◽

10.2110/jsr.2020.37 ◽

2020 ◽

Vol 90 (7) ◽

pp. 701-712

Author(s):

Kasper H. Blinkenberg ◽

Bodil W. Lauridsen ◽

Dirk Knaust ◽

Lars Stemmerik

Keyword(s):

Trace Fossils ◽

Trace Fossil ◽

Shelf Area ◽

Fine Grained ◽

Fossil Assemblages ◽

Facies Types ◽

Body Fossil ◽

Substrate Hardness ◽

Nw Europe ◽

Different Levels

ABSTRACT The Cenomanian–Danian Chalk Group of NW Europe is characterized by distinct trace-fossil assemblages dominated by Thalassinoides isp., Planolites isp., Zoophycos isp., and Chondrites isp., whereas ichnogenera such as Taenidium and Phycosiphon are rare. The trace fossils form a complex tiering arrangement, which reflects burrowing activities of diverse benthic associations that operate at different levels in the sediment column, dynamic sedimentation rates, and changes in substrate hardness during progressive burial, forming intricate ichnofabrics. In the Danish Basin, studies of chalk ichnofabrics have focused mainly on the Maastrichtian. Studies of the shallower, grain-rich Danian chalk have revealed similar trace-fossil assemblages, whereas the ichnology of the fine-grained, deeper-water Danian deposits is poorly known. Based on detailed facies and ichnofabric analysis of a mid-Danian silica-rich, pelagic chalk located in the central, deeper shelf area of the Danish Basin, four facies types, eight ichnotaxa, and two ichnofabrics are recognized. Most conspicuous and abundant are randomly distributed, variously sized meniscate burrows attributed to Bichordites isp. and Taenidium isp., whereas other common chalk trace fossils are rare or absent. This trace-fossil assemblage outlines two new ichnofabrics in the NW European chalk, which are dominated principally by upper-tier traces. The producer of the abundant Bichordites isp. and Taenidium isp. burrows is identified as a sea urchin on the basis of an exceptionally preserved Bichordites isp. trace aligned with an irregular echinoid body fossil. The identified ichnofabrics controlled early silicification and produced a more complex distribution of silica concretions compared with chalk successions elsewhere. This results in volumetrically thick silica concretion-rich units rather than distinctive silica bands as seen in other Upper Cretaceous and Danian chalk units.

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