Trace fossils of a cyclic chalk-marl succession; the upper Maastrichtian Rørdal Member, Denmark

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Standard

Trace fossils of a cyclic chalk-marl succession; the upper Maastrichtian Rørdal Member, Denmark. / Lauridsen, Bodil Wesenberg; Surlyk, Finn; Bromley, Richard Granville.

I: Cretaceous Research, Bind 32, Nr. 2, 2011, s. 194-202.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Lauridsen, BW, Surlyk, F & Bromley, RG 2011, 'Trace fossils of a cyclic chalk-marl succession; the upper Maastrichtian Rørdal Member, Denmark', Cretaceous Research, bind 32, nr. 2, s. 194-202. https://doi.org/10.1016/j.cretres.2010.12.002

APA

Lauridsen, B. W., Surlyk, F., & Bromley, R. G. (2011). Trace fossils of a cyclic chalk-marl succession; the upper Maastrichtian Rørdal Member, Denmark. Cretaceous Research, 32(2), 194-202. https://doi.org/10.1016/j.cretres.2010.12.002

Vancouver

Lauridsen BW, Surlyk F, Bromley RG. Trace fossils of a cyclic chalk-marl succession; the upper Maastrichtian Rørdal Member, Denmark. Cretaceous Research. 2011;32(2):194-202. https://doi.org/10.1016/j.cretres.2010.12.002

Author

Lauridsen, Bodil Wesenberg ; Surlyk, Finn ; Bromley, Richard Granville. / Trace fossils of a cyclic chalk-marl succession; the upper Maastrichtian Rørdal Member, Denmark. I: Cretaceous Research. 2011 ; Bind 32, Nr. 2. s. 194-202.

Bibtex

@article{a7fb4be6898c4fe38ad053df8e210aab,

title = "Trace fossils of a cyclic chalk-marl succession; the upper Maastrichtian R{\o}rdal Member, Denmark",

abstract = "Trace fossils from an upper Maastrichtian cyclic chalk–marl succession, the R{\o}rdal Member, exposed in the R{\o}rdal quarry, Denmark, are analysed in order to test whether the changes in substrate lithology exerted any control over the ichnodiversity, tiering complexity, and density of the infauna. The cyclicity is interpreted as caused by orbital changes within the Milankovitch frequency band. The carbonate content varies between 71 and 82 weight% in the marl and 82–92 weight% in the chalk beds. The material is based on 19 samples collected from six chalk and marl beds. The investigated bedding-normal sample surfaces vary in area between 29 and 155 cm2. Eight ichnogenera and two undetermined ichnogenera are recognised. The member is characterised by three ichnofabrics (A, B and C). The ichnofabric analysis is based on texture and internal structure of the sediments resulting from bioturbation. Ichnofabric A is found only in chalk samples and shows a poor preservation of trace fossils, whereas ichnofabric C is found in a few chalk and all marl samples and comprises a very dense, diverse and well preserved ichnofauna representing a high tiering complexity. Ichnofabric B represents an intermediate situation between ichnofabrics A and C and occurs in chalk samples immediately adjacent to marl beds. The observed changes in ichnofabrics between chalk and marl are related to the amount of clay in the samples and the differences in the occurrence of trace fossils are interpreted as due to differences in the visibility of traces between chalk and marl and not due to differences in ecological stress upon the endobenthic community of the two lithologies. The study thus provides an excellent example of how the effect of taphonomic factors may give a misleading and biased impression of apparent differences in the endobenthic community between chalk and marl. ",

author = "Lauridsen, {Bodil Wesenberg} and Finn Surlyk and Bromley, {Richard Granville}",

year = "2011",

doi = "10.1016/j.cretres.2010.12.002",

language = "English",

volume = "32",

pages = "194--202",

journal = "Cretaceous Research",

issn = "0195-6671",

publisher = "Academic Press",

number = "2",

}

RIS

TY - JOUR

T1 - Trace fossils of a cyclic chalk-marl succession; the upper Maastrichtian Rørdal Member, Denmark

AU - Lauridsen, Bodil Wesenberg

AU - Surlyk, Finn

AU - Bromley, Richard Granville

PY - 2011

Y1 - 2011

N2 - Trace fossils from an upper Maastrichtian cyclic chalk–marl succession, the Rørdal Member, exposed in the Rørdal quarry, Denmark, are analysed in order to test whether the changes in substrate lithology exerted any control over the ichnodiversity, tiering complexity, and density of the infauna. The cyclicity is interpreted as caused by orbital changes within the Milankovitch frequency band. The carbonate content varies between 71 and 82 weight% in the marl and 82–92 weight% in the chalk beds. The material is based on 19 samples collected from six chalk and marl beds. The investigated bedding-normal sample surfaces vary in area between 29 and 155 cm2. Eight ichnogenera and two undetermined ichnogenera are recognised. The member is characterised by three ichnofabrics (A, B and C). The ichnofabric analysis is based on texture and internal structure of the sediments resulting from bioturbation. Ichnofabric A is found only in chalk samples and shows a poor preservation of trace fossils, whereas ichnofabric C is found in a few chalk and all marl samples and comprises a very dense, diverse and well preserved ichnofauna representing a high tiering complexity. Ichnofabric B represents an intermediate situation between ichnofabrics A and C and occurs in chalk samples immediately adjacent to marl beds. The observed changes in ichnofabrics between chalk and marl are related to the amount of clay in the samples and the differences in the occurrence of trace fossils are interpreted as due to differences in the visibility of traces between chalk and marl and not due to differences in ecological stress upon the endobenthic community of the two lithologies. The study thus provides an excellent example of how the effect of taphonomic factors may give a misleading and biased impression of apparent differences in the endobenthic community between chalk and marl.

AB - Trace fossils from an upper Maastrichtian cyclic chalk–marl succession, the Rørdal Member, exposed in the Rørdal quarry, Denmark, are analysed in order to test whether the changes in substrate lithology exerted any control over the ichnodiversity, tiering complexity, and density of the infauna. The cyclicity is interpreted as caused by orbital changes within the Milankovitch frequency band. The carbonate content varies between 71 and 82 weight% in the marl and 82–92 weight% in the chalk beds. The material is based on 19 samples collected from six chalk and marl beds. The investigated bedding-normal sample surfaces vary in area between 29 and 155 cm2. Eight ichnogenera and two undetermined ichnogenera are recognised. The member is characterised by three ichnofabrics (A, B and C). The ichnofabric analysis is based on texture and internal structure of the sediments resulting from bioturbation. Ichnofabric A is found only in chalk samples and shows a poor preservation of trace fossils, whereas ichnofabric C is found in a few chalk and all marl samples and comprises a very dense, diverse and well preserved ichnofauna representing a high tiering complexity. Ichnofabric B represents an intermediate situation between ichnofabrics A and C and occurs in chalk samples immediately adjacent to marl beds. The observed changes in ichnofabrics between chalk and marl are related to the amount of clay in the samples and the differences in the occurrence of trace fossils are interpreted as due to differences in the visibility of traces between chalk and marl and not due to differences in ecological stress upon the endobenthic community of the two lithologies. The study thus provides an excellent example of how the effect of taphonomic factors may give a misleading and biased impression of apparent differences in the endobenthic community between chalk and marl.

U2 - 10.1016/j.cretres.2010.12.002

DO - 10.1016/j.cretres.2010.12.002

M3 - Journal article

VL - 32

SP - 194

EP - 202

JO - Cretaceous Research

JF - Cretaceous Research

SN - 0195-6671

IS - 2

ER -

ID: 32441865