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Salinity-dependent sieve pore variability in Cyprideis torosa; an experiment

Peter Frenzel, Judith Ewald and Anna Pint
Salinity-dependent sieve pore variability in Cyprideis torosa; an experiment (in Thematic set; Cyprideis torosa, Anonymous)
Journal of Micropalaeontology (2016) 36 (1): 57-62

Abstract

Salinity-dependent sieve pore variability in Cyprideis torosa (Jones) is tested and confirmed through a culture experiment investigating valves from a salinity range between 0.6 and 14.8. In contrast to results from a previous study, the proportion of sieve pore shapes shows a slight offset at higher values probably caused by relatively lower calcium concentrations in our microcosms. Besides ion concentration, salinity variability and ion composition are assumed to be driving factors for sieve pore shapes, as for the case of noding in Cyprideis torosa. Despite some limitations in using sieve pore shapes as a proxy in quantitative salinity reconstructions in athalassic water bodies, an application for detecting trends and salinity changes in fossil associations and for quantitative reconstructions in marginal marine waters is feasible and adds a valuable salinity proxy, especially for the oligohaline to mesohaline salinity range.


ISSN: 0262-821X
EISSN: 2041-4978
Serial Title: Journal of Micropalaeontology
Serial Volume: 36
Serial Issue: 1
Title: Salinity-dependent sieve pore variability in Cyprideis torosa; an experiment
Title: Thematic set; Cyprideis torosa
Author(s): Frenzel, PeterEwald, JudithPint, Anna
Author(s): Anonymous
Affiliation: Friedrich Schiller University, Institute of Geosciences, Jena, Germany
Pages: 57-62
Published: 2016
Text Language: English
Publisher: British Micropalaeontological Society, London, United Kingdom
References: 28
Accession Number: 2017-006371
Categories: Invertebrate paleontology
Document Type: Serial
Bibliographic Level: Analytic
Illustration Description: illus. incl. 1 table
Secondary Affiliation: University of Cologne, DEU, Germany
Country of Publication: United Kingdom
Secondary Affiliation: GeoRef, Copyright 2017, American Geosciences Institute.
Update Code: 201705
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